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EP1917638A1 - System and methods for creation and use of a mixed media environment - Google Patents

System and methods for creation and use of a mixed media environment

Info

Publication number
EP1917638A1
EP1917638A1 EP06796848A EP06796848A EP1917638A1 EP 1917638 A1 EP1917638 A1 EP 1917638A1 EP 06796848 A EP06796848 A EP 06796848A EP 06796848 A EP06796848 A EP 06796848A EP 1917638 A1 EP1917638 A1 EP 1917638A1
Authority
EP
European Patent Office
Prior art keywords
document
representation
mmr
image
mixed media
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
EP06796848A
Other languages
German (de)
French (fr)
Other versions
EP1917638A4 (en
Inventor
Jonathan J. Hull
Berna Erol
Jamey Graham
Peter E. Hart
Geoffrey H. Nudd
Stephen Weyl
Kurt Piersol
Dar-Shyang Lee
Xiaoye Lu
Daniel G. Van Olst
Kevin Ridout
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ricoh Co Ltd
Original Assignee
Ricoh Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US11/461,143 external-priority patent/US8156427B2/en
Priority claimed from US11/461,064 external-priority patent/US7669148B2/en
Priority claimed from US11/461,017 external-priority patent/US7702673B2/en
Priority claimed from US11/461,075 external-priority patent/US7812986B2/en
Priority claimed from US11/461,272 external-priority patent/US8005831B2/en
Priority claimed from US11/461,049 external-priority patent/US7920759B2/en
Priority claimed from US11/461,126 external-priority patent/US8195659B2/en
Priority claimed from US11/461,024 external-priority patent/US7991778B2/en
Priority claimed from US11/461,032 external-priority patent/US7672543B2/en
Priority claimed from US11/461,090 external-priority patent/US7551780B2/en
Priority claimed from US11/461,268 external-priority patent/US7639387B2/en
Priority to EP12159375.0A priority Critical patent/EP2482210A3/en
Application filed by Ricoh Co Ltd filed Critical Ricoh Co Ltd
Publication of EP1917638A1 publication Critical patent/EP1917638A1/en
Publication of EP1917638A4 publication Critical patent/EP1917638A4/en
Ceased legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06TIMAGE DATA PROCESSING OR GENERATION, IN GENERAL
    • G06T1/00General purpose image data processing
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/40Information retrieval; Database structures therefor; File system structures therefor of multimedia data, e.g. slideshows comprising image and additional audio data
    • G06F16/44Browsing; Visualisation therefor
    • G06F16/444Spatial browsing, e.g. 2D maps, 3D or virtual spaces
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/40Information retrieval; Database structures therefor; File system structures therefor of multimedia data, e.g. slideshows comprising image and additional audio data
    • G06F16/43Querying
    • G06F16/432Query formulation
    • G06F16/434Query formulation using image data, e.g. images, photos, pictures taken by a user
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/40Information retrieval; Database structures therefor; File system structures therefor of multimedia data, e.g. slideshows comprising image and additional audio data
    • G06F16/43Querying
    • G06F16/438Presentation of query results
    • G06F16/4387Presentation of query results by the use of playlists
    • G06F16/4393Multimedia presentations, e.g. slide shows, multimedia albums
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/40Information retrieval; Database structures therefor; File system structures therefor of multimedia data, e.g. slideshows comprising image and additional audio data
    • G06F16/48Retrieval characterised by using metadata, e.g. metadata not derived from the content or metadata generated manually
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/40Information retrieval; Database structures therefor; File system structures therefor of multimedia data, e.g. slideshows comprising image and additional audio data
    • G06F16/48Retrieval characterised by using metadata, e.g. metadata not derived from the content or metadata generated manually
    • G06F16/487Retrieval characterised by using metadata, e.g. metadata not derived from the content or metadata generated manually using geographical or spatial information, e.g. location
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/90Details of database functions independent of the retrieved data types
    • G06F16/93Document management systems
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06VIMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
    • G06V10/00Arrangements for image or video recognition or understanding
    • G06V10/70Arrangements for image or video recognition or understanding using pattern recognition or machine learning
    • G06V10/74Image or video pattern matching; Proximity measures in feature spaces
    • G06V10/75Organisation of the matching processes, e.g. simultaneous or sequential comparisons of image or video features; Coarse-fine approaches, e.g. multi-scale approaches; using context analysis; Selection of dictionaries
    • G06V10/757Matching configurations of points or features
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06VIMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
    • G06V10/00Arrangements for image or video recognition or understanding
    • G06V10/70Arrangements for image or video recognition or understanding using pattern recognition or machine learning
    • G06V10/74Image or video pattern matching; Proximity measures in feature spaces
    • G06V10/75Organisation of the matching processes, e.g. simultaneous or sequential comparisons of image or video features; Coarse-fine approaches, e.g. multi-scale approaches; using context analysis; Selection of dictionaries
    • G06V10/758Involving statistics of pixels or of feature values, e.g. histogram matching
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06VIMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
    • G06V30/00Character recognition; Recognising digital ink; Document-oriented image-based pattern recognition
    • G06V30/40Document-oriented image-based pattern recognition
    • G06V30/41Analysis of document content
    • G06V30/414Extracting the geometrical structure, e.g. layout tree; Block segmentation, e.g. bounding boxes for graphics or text

Definitions

  • the invention relates to techniques for producing a mixed media document that is formed from at least two media types, and more particularly, to a Mixed Media Reality (MMR) system that uses printed media in combination with electronic media to produce mixed media documents.
  • MMR Mixed Media Reality
  • Print and copying technology has been used for many years in many contexts.
  • printers and copiers are used in private and commercial office environments, in home environments with personal computers, and in document printing and publishing service environments .
  • printing and copying technology has not been thought of previously as a means to bridge the gap between static printed media (i.e. , paper documents) , and the "virtual world" of interactivity that includes the likes of digital communication, networking, information provision, advertising, entertainment, and electronic commerce.
  • Printed media has been the primary source of communicating information, such as news and advertising information, for centuries.
  • PDA personal digital assistant
  • cellular telephones e.g., cellular camera phones
  • At least one aspect of one or more embodiments of the present invention provides a Mixed Media Reality (MMR) system and associated methods.
  • the MMR system of the present invention provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and text or data in electronic form, a digital picture, a digital photograph, digital movie, digital audio file, or web link as a second medium.
  • the MMR system of the present invention facilitates business methods that take advantage of the combination of a portable electronic device, such as a cellular camera phone, and a paper document.
  • the MMR system of the present invention includes an MMR processor, a capture device, a communication mechanism and a memory including MMR software.
  • the MMR processor may also be coupled to a storage or source of media types, an input device and an output device.
  • the MMR software includes routines executable by the MMR processor for accessing MMR documents with additional digital content, creating or modifying MMR documents, and using a document to perform other operations such business transactions, data queries, reporting, etc.
  • the present invention also includes a number of novel methods including: a method for creating a mixed media reality document, a method for using a mixed media reality document and a method for modifying or deleting a mixed media reality document .
  • At least one other aspect of one or more embodiments of the present invention provide a machine-readable medium (e.g. , one or more compact disks, diskettes, servers, memory sticks, or hard drives, ROMs, RAMs, or any type of media suitable for storing electronic instructions) encoded with instructions, that when executed by one or more processors, cause the processor to carry out a process for accessing information in a mixed media document system.
  • a machine-readable medium e.g. , one or more compact disks, diskettes, servers, memory sticks, or hard drives, ROMs, RAMs, or any type of media suitable for storing electronic instructions
  • This process can be, for example, similar to or a variation of the method described here.
  • Figure IA illustrates a functional block diagram of a Mixed Media Reality (MMR) system configured in accordance with an embodiment of the present invention.
  • MMR Mixed Media Reality
  • Figure IB illustrates a functional block diagram of an MMR system configured in accordance with another embodiment of the present invention.
  • FIGS 2A, 2B, 2C, and 2D illustrate capture devices in accordance with embodiments of the present invention.
  • Figure 2E illustrates a functional block diagram of a capture device configured in accordance with an embodiment of the present invention.
  • Figure 3 illustrates a functional block diagram of a MMR computer configured in accordance with an embodiment of the present invention.
  • Figure 4 illustrates a set of software components included in an MMR software suite configured in accordance with an embodiment of the present invention.
  • Figure 5 illustrates a diagram representing an embodiment of an MMR document configured in accordance with an embodiment of the present invention.
  • Figure 6 illustrates a document fingerprint matching methodology in accordance with an embodiment of the present invention.
  • Figure 7 illustrates a document fingerprint matching system configured in accordance with an embodiment of the present invention.
  • Figure 8 illustrates a flow process for text/non-text discrimination in accordance with an embodiment of the present invention.
  • Figure 9 illustrates an example of text/non-text discrimination in accordance with an embodiment of the present invention.
  • Figure 10 illustrates a flow process for estimating the point size of text in an image patch in accordance with an embodiment of the present invention.
  • Figure 11 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 12 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 13 illustrates an example of interactive image analysis in accordance with an embodiment of the present invention.
  • Figure 14 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 15 illustrates an example of word bounding box detection in accordance with an embodiment of the present invention.
  • Figure 16 illustrates a feature extraction technique in accordance with an embodiment of the present invention.
  • Figure 17 illustrates a feature extraction technique in accordance with another embodiment of the present invention.
  • Figure 18 illustrates a feature extraction technique in accordance with another embodiment of the present invention.
  • Figure 19 illustrates a feature extraction technique in accordance with another embodiment of the present invention.
  • Figure 20 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 21 illustrates multi-classifier feature extraction for document fingerprint matching in accordance with an embodiment of the present invention.
  • Figures 22 and 23 illustrate an example of a document fingerprint matching technique in accordance with an embodiment of the present invention.
  • Figure 24 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 25 illustrates a flow process for database-driven feedback in accordance with an embodiment of the present invention.
  • Figure 26 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 27 illustrates a flow process for database-driven classification in accordance with an embodiment of the present invention.
  • Figure 28 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 29 illustrates a flow process for database-driven multiple classification in accordance with an embodiment of the present invention.
  • Figure 30 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 31 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 32 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
  • Figure 33 shows a flow process for multi-tier recognition in accordance with an embodiment of the present invention.
  • Figure 34A illustrates a functional block diagram of an MMR database system configured in accordance with an embodiment of the present invention.
  • Figure 34B illustrates an example of MMR feature extraction for an OCR-based technique in accordance with an embodiment of the present invention.
  • Figure 34C illustrates an example index table organization in accordance with an embodiment of the present invention.
  • Figure 35 illustrates a method for generating an MMR index table in accordance with an embodiment of the present invention.
  • Figure 36 illustrates a method for computing a ranked set of document, page, and location hypotheses for a target document, in accordance with an embodiment of the present invention.
  • Figure 37A illustrates a functional block diagram of MMR components configured in accordance with another embodiment of the present invention.
  • Figure 37B illustrates a set of software components included in MMR printing software in accordance with an embodiment of the invention.
  • Figure 38 illustrates a flowchart of a method of embedding a hot spot in a document in accordance with an embodiment of the present invention.
  • Figure 39A illustrates an example of an HTML file in accordance with an embodiment of the present invention
  • Figure 39B illustrates an example of a marked-up version of the HTML file of Figure 39A.
  • Figure 4OA illustrates an example of the HTML file of Figure 39A displayed in a browser in accordance with an embodiment of the present invention.
  • Figure 4OB illustrates an example of a printed version of the HTML file of Figure 4OA, in accordance with an embodiment of the present invention.
  • Figure 41 illustrates a symbolic hotspot description in accordance with an embodiment of the present invention.
  • Figures 42Aand 42B show an example page_desc. xml file for the HTML file of Figure 39A, in accordance with an embodiment of the present invention.
  • Figure 43 illustrates a hotspot. xml file corresponding to Figures, 41, 42A, and 42B, in accordance with an embodiment of the present invention.
  • Figure 44 illustrates a flowchart of the process used by a forwarding DLL in accordance with an embodiment of the present invention.
  • Figure 45 illustrates a flowchart of a method of transforming characters corresponding to a hotspot in a document in accordance with an embodiment of the present invention.
  • Figure 46 illustrates an example of an electronic version of a document according to an embodiment of the present invention.
  • Figure 47 illustrates an example of a printed modified document according to an embodiment of the present invention.
  • Figure 48 illustrates a flowchart of a method of shared document annotation in accordance with an embodiment of the present invention.
  • Figure 49A illustrates a sample source web page in a browser according to an embodiment of the present invention.
  • Figure 49B illustrates a sample modified web page in a browser according to an embodiment of the present invention.
  • Figure 49C illustrates a sample printed web page according to an embodiment of the present invention.
  • Figure 5OA illustrates a flowchart of a method of adding a hotspot to an imaged document in accordance with an embodiment of the present invention.
  • Figure 5OB illustrates a flowchart of a method of defining a hotspot for addition to an imaged document in accordance with an embodiment of the present invention.
  • Figure 51A illustrates an example of a user interface showing a portion of a newspaper page that has been scanned according to an embodiment.
  • Figure 51B illustrates a user interface for defining the data or interaction to associate with a selected hotspot.
  • Figure 51C illustrates the user interface of Figure 51B including an assign box in accordance with an embodiment of the present invention.
  • Figure 51D illustrates a user interface for displaying hotspots within a document in accordance with an embodiment of the present invention.
  • Figure 52 illustrates a flowchart of a method of using an MMR document and the MMR system in accordance with an embodiment of the present invention.
  • Figure 53 illustrates a block diagram of an exemplary set of business entities associated with the MMR system, in accordance with an embodiment of the present invention.
  • Figure 54 illustrates a flowchart of a method, which is a generalized business method that is facilitated by use of the MMR system, in accordance with an embodiment of the present invention.
  • Figure 55 illustrates a flow chart of a method for accessing a mixed media document, according to one embodiment of the present invention.
  • Figures 56A, 56B, and 56C illustrate various examples of methods and uses for accessing mixed media documents, according to various embodiments of the present invention.
  • Figure 57 illustrates a flow chart of a method for a accessing a mixed media document, according to one embodiment of the present invention.
  • Figure 58 illustrates a user interface for accessing a mixed media document, according to one embodiment of the present invention.
  • Figure 59 illustrates a method for labeling a media file, according to one embodiment of the present invention.
  • Figure 60 illustrates a user interface for labeling a media file, according to one embodiment of the present invention.
  • FIGS 61A, 61B, 61C, and 61D illustrate flowcharts of methods of using an MMR document and the MMR system in accordance with the present invention.
  • Figure 62 illustrates a flowchart of a method of using an MMR document and the MMR system in accordance with the present invention.
  • Figure 63 illustrates a functional block diagram of an embodiment of an MMR system including an MMR information device without optical capture.
  • Figure 64 illustrates a user interface of a menu of a MMR document on an MMR information device of the MMR system of Figure 63.
  • Figure 65 illustrates a user interface of the MMR document and hotspot information displayed on the MMR information device .
  • Figure 66 illustrates a flow chart of the operation of the MMR information device of Figure 63.
  • Figure 67 illustrates a functional block diagram of an embodiment of an MMR system including a capture device and an MMR information device without optical capture.
  • Figure 68 illustrates a flow chart of the operation of the MMR information device of Figure 67.
  • Figure 69 illustrates a block diagram of an MMR system including a voice mail server for processing hotspot information.
  • Figure 70 illustrates a flow chart of the methodology of updating hotspot information in the MMR system of Figure 69.
  • Figure 71 illustrates a flow chart of the methodology of retrieving hotspot information in the MMR system of Figure 69.
  • Figure 72 illustrates a block diagram of an MMR system including an email message server for processing hot spot information.
  • Figure 73 illustrates a flow chart of the methodology of retrieving hot spot information in a MMR system of Figure 72.
  • Figure 74 illustrates a block diagram of an MMR system including a document database.
  • Figure 75 illustrates a block diagram of an MMR system including a shipping database.
  • Figure 76 illustrates a functional block diagram of one embodiment of the MMR system in accordance with the invention for use in ordering goods or services using MMR-individualized documents .
  • Figure 77 illustrates a flow diagram of a method for ordering goods or services using MMR-individualized documents.
  • Figure 78 illustrates a block diagram of a MMR system architecture for performing actions of MMR documents in accordance with another embodiment of the present invention.
  • Figure 79 illustrates a block diagram of a portion of the database relating to the performance of actions in accordance with one embodiment of the present invention.
  • Figure 80 illustrates a flowchart of a method for executing actions of MMR documents in accordance with one embodiment of the present invention.
  • Figure -81 illustrates a flowchart of a method for viewing historical information about actions in accordance with one embodiment of the present invention.
  • Figures 82A & 82B illustrate a flowchart of a method for performing commands associated with the actions in accordance with one embodiment of the present invention.
  • Figure 83 illustrates a block diagram of a distributed MMR system architecture according to one embodiment of the present invention.
  • Figure 84 illustrates a flowchart of a method for using the MMR system as an input control and output device of a third-party system in accordance with one embodiment of the present invention.
  • Figure 85 illustrates a flowchart of a method for using the MMR system in an office environment in accordance with one embodiment of the present invention.
  • the MMR system provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and a digital photograph, digital movie, digital audio file, digital text file, or web link as a second medium.
  • the MMR system and/or techniques can be further used to facilitate various business models that take advantage of the combination of a portable electronic device
  • a PDA or cellular camera phone e.g., a PDA or cellular camera phone
  • a paper document e.g., a PDA or cellular camera phone
  • the MMR system includes a content-based retrieval database that represents two-dimensional geometric relationships between objects extracted from a printed document in a way that allows look-up using a text-based index.
  • Evidence accumulation techniques combine the frequency of occurrence of a feature with the likelihood of its location in a two-dimensional zone.
  • an MMR database system includes an index table that receives a description computed by an MMR feature extraction algorithm. The index table identifies the documents, pages, and x-y locations within those pages where each feature occurs.
  • An evidence accumulation algorithm computes a ranked set of document, page and location hypotheses given the data from the index table.
  • a relational database (or other suitable storage facility) can be used to store additional characteristics about each document, page, and location, as desired.
  • the MMR database system may include other components as well, such as an MMR processor, a capture device, a communication mechanism and a memory including MMR software .
  • the MMR processor may also be coupled to a storage or source of media types, an input device and an output device.
  • the MMR software includes routines executable by the MMR processor for accessing MMR documents with additional digital content, creating or modifying MMR documents, and using a document to perform other operations such business transactions, data queries, reporting, etc.
  • the MMR system 100a comprises a MMR processor 102; a communication mechanism 104; a capture device 106 having a portable input device 168 and a portable output device 170; a memory including MMR software 108; a base media storage 160; an MMR media storage 162; an output device 164; and an input device 166.
  • the MMR system 100a creates a mixed media environment by providing a way to use information from an existing printed document (a first media type) as an index to a second media type (s) such as audio, video, text, updated information and services.
  • the capture device 106 is able to generate a representation of a printed document (e.g., an image, drawing, or other such representation) , and the representation is sent to the MMR processor 102.
  • the MMR system 100a matches the representation to an MMR document and other second media types.
  • the MMR system 100a is also responsible for taking an action in response to input and recognition of a representation.
  • the actions taken by the MMR system 100a can be any type including, for example, retrieving information, placing an order, retrieving a video or sound, storing information, creating a new document, printing a document, displaying a document or image, etc.
  • the MMR system 100a provides mechanisms that render printed text into a dynamic medium that provides an entry point to electronic content or services of interest or value to the user.
  • the MMR processor 102 processes data signals and may comprise various computing architectures including a complex instruction set computer (CISC) architecture, a reduced instruction set computer (RISC) architecture, or an architecture implementing a combination of instruction sets.
  • the MMR processor 102 comprises an arithmetic logic unit, a microprocessor, a general purpose computer, or some other information appliance equipped to perform the operations of the present invention.
  • MMR processor 102 comprises a general purpose computer having a graphical user interface, which may be generated by, for example, a program written in Java running on top of an operating system like WINDOWS or UNIX based operating systems. Although only a single processor is shown in Figure IA, multiple processors may be included.
  • the processor is coupled to the MMR memory 108 and executes instructions stored therein.
  • the communication mechanism 104 is any device or system for coupling the capture device 106 to the MMR processor 102.
  • the communication mechanism 104 can be implemented using a network (e.g., WAN and/or LAN) , a wired link (e.g., USB, RS232, or Ethernet) , a wireless link (e.g., infrared, Bluetooth, or 802.11), a mobile device communication link (e.g., GPRS or GSM), a public switched telephone network (PSTN) link, or any combination of these.
  • a network e.g., WAN and/or LAN
  • a wired link e.g., USB, RS232, or Ethernet
  • a wireless link e.g., infrared, Bluetooth, or 802.11
  • a mobile device communication link e.g., GPRS or GSM
  • PSTN public switched telephone network
  • the capture device 106 includes a means such as a transceiver to interface with the communication mechanism 104, and is any device that is capable of capturing an image or data digitally via an input device 168.
  • the capture device 106 can optionally include an output device 170 and is optionally portable.
  • the capture device 106 is a standard cellular camera phone; a PDA device; a digital camera; a barcode reader; a radio frequency identification (RFID) reader; a computer peripheral, such as a standard webcam; or a built-in device, such as the video card of a PC.
  • RFID radio frequency identification
  • capture device 106 may include a software application that enables content-based retrieval and that links capture device 106 to the infrastructure of MMR system lOOa/lOOb. More functional details of capture device 106 are found in reference to Figure 2E. Numerous conventional and customized capture devices 106, and their respective functionalities and architectures, will be apparent in light of this disclosure.
  • the memory 108 stores instructions and/or data that may be executed by processor 102.
  • the instructions and/or data may comprise code for performing any and/or all of techniques described herein.
  • the memory 108 may be a dynamic random access memory (DRAM) device, a static random access memory (SRAM) device, or any other suitable memory device.
  • DRAM dynamic random access memory
  • SRAM static random access memory
  • the memory 108 is described in more detail below with reference to Figure 4.
  • the memory 108 includes the MMR software suite, an operating system and other application programs (e.g., word processing applications, electronic mail applications, financial applications, and web browser applications) .
  • the base media storage 160 is for storing second media types in their original form
  • MMR media storage 162 is for storing MMR documents, databases and other information as detailed herein to create the MMR environment. While shown as being separate, in another embodiment, the base media storage 160 and the MMR media storage 162 maybe portions of the same storage device or otherwise integrated.
  • the data storage 160, 162 further stores data and instructions for MMR processor 102 and comprises one or more devices including, for example, a hard disk drive, a floppy disk drive, a CD ROM device, a DVD ROM device, a DVD RAM device, a DVD RW device, a flash memory device, or any other suitable mass storage device.
  • the output device 164 is operatively coupled the MMR processor 102 and represents any device equipped to output data such as those that display, sound, or otherwise present content.
  • the output device 164 can be any one of a variety of types such as a printer, a display device, and/or speakers.
  • Example display output devices 164 include a cathode ray tube (CRT) , liquid crystal display (LCD) , or any other similarly equipped display device, screen, ormonitor.
  • the output device 164 is equipped with a touch screen in which a touch sensitive, transparent panel covers the screen of the output device 164.
  • the input device 166 is operatively coupled the MMR processor 102 and is any one of a variety of types such as a keyboard and cursor controller, a scanner, a multifunction printer, a still or video camera, a keypad, a touch screen, a detector, an RFID tag reader, a switch, or any mechanism that allows a user to interact with system 100a.
  • the input device 166 is a keyboard and cursor controller. Cursor control may include, for example, a mouse, a trackball, a stylus, a pen, a touch screen and/or pad, cursor direction keys, or other mechanisms to cause movement of a cursor.
  • the input device 166 is a microphone, audio add in/expansion card designed for use within a general purpose computer system, analog to digital converters, and digital signal processors to facilitate voice recognition and/or audio processing.
  • FIG. IB illustrates a functional block diagram of an MMR system 100b configured in accordance with another embodiment of the present invention.
  • the MMR system 100b includes a MMR computer 112 (operated by user 110) , a networked media server 114, and a printer 116 that produces a printed document 118.
  • the MMR system 100b further includes an office portal 120, a service provider server 122, an electronic display 124 that is electrically connected to a set-top box 126, and a document scanner 127.
  • a communication link between the MMR computer 112, networked media server 114, printer 116, office portal 120, service provider server 122, set-top box 126, and document scanner 127 is provided via a network 128, which can be a LAN (e.g., office or home network), WAN (e.g., Internet or corporate network) , LAN/WAN combination, or any other data path across which multiple computing devices may communicate.
  • a network 128, can be a LAN (e.g., office or home network), WAN (e.g., Internet or corporate network) , LAN/WAN combination, or any other data path across which multiple computing devices may communicate.
  • the MMR system 100b further includes a capture device 106 that is capable of communicating wirelessly to one or more computers 112, networked media server 114, user printer 116, office portal 120, service provider server 122, electronic display 124, set-top box 126, and document scanner 127 via a cellular infrastructure 132, wireless fidelity (Wi-Fi) technology 134, Bluetooth technology 136, and/or infrared (IR) technology 138.
  • capture device 106 is capable of communicating in a wired fashion to MMR computer 112, networked media server 114, user printer 116, office portal 120, service provider server 122, electronic display 124, set-top box 126, and document scanner 127 via wired technology 140.
  • MMR system 100b further includes a geo location mechanism 142 that is in wireless or wired communication with the service provider server 122 or network 128. This could also be integrated into the capture device 106.
  • the MMR user 110 is any individual who is using MMR system 100b.
  • MMR computer 112 is any desktop, laptop, networked computer, or other such processing environment.
  • User printer 116 is any home, office, or commercial printer that can produce printed document 118, which is a paper document that is formed of one or more printed pages.
  • Networked media server 114 is a networked computer that holds information and/or applications to be accessed by users of MMR system 100b via network 128. In one particular embodiment, networked media server 114 is a centralized computer, upon which is stored a variety of media files, such as text source files, web pages, audio and/or video files, image files (e.g., still photos) , and the like.
  • Networked media server 114 is, for example, the Comcast Video-on-Demand servers of Comcast Corporation, the Ricoh Document Mall of Ricoh Innovations Inc. , or the Google Image and/or Video servers of Google Inc. Generally stated, networked media server 114 provides access to any data that may be attached to, integrated with, or otherwise associated with printed document 118 via capture device 106.
  • Office portal 120 is an optional mechanism for capturing events that occur in the environment of MMR user 110, such as events that occur in the office of MMR user 110.
  • Office portal 120 is, for example, a computer that is separate from MMR computer 112. In this case, office portal 120 is connected directly to MMR computer 112 or connected to MMR computer 112 via network 128. Alternatively, office portal 120 is built into MMR computer 112.
  • office portal 120 is constructed from a conventional personal computer (PC) and then augmented with the appropriate hardware that supports any associated capture devices 106.
  • Office portal 120 may include capture devices, such as a video camera and an audio recorder. Additionally, office portal 120 may capture and store data from MMR computer 112.
  • office portal 120 is able to receive and monitor functions and events that occur on MMR computer 112. As a result, office portal 120 is able to record all audio and video in the physical environment of MMR user 110 and record all events that occur on MMR computer 112. In one particular embodiment, office portal 120 captures events, e.g. , a video screen capture while a document is being edited, from MMR computer 112. In doing so, office portal 120 captures which websites that were browsed and other documents that were consulted while a given document was created. That information may be made available later to MMR user 110 through his/her MMR computer 112 or capture device 106. Additionally, office portal 120 may be used as the multimedia server for clips that users add to their documents.
  • events e.g. , a video screen capture while a document is being edited
  • office portal 120 captures which websites that were browsed and other documents that were consulted while a given document was created. That information may be made available later to MMR user 110 through his/her MMR computer 112 or capture device 106.
  • office portal 120 may capture other office events, such as conversations (e.g., telephone or in-office) that occur while paper documents are on a desktop, discussions on the phone, and small meetings in the office.
  • a video camera (not shown) on office portal 120 may identify paper documents on the physical desktop of MMR user 110, by use of the same content-based retrieval technologies developed for capture device 106.
  • Service provider server 122 is any commercial server that holds information or applications that can be accessed by MMR user 110 of MMR system 100b via network 128.
  • service provider server 122 is representative of any service provider that is associated with MMR system 100b.
  • Service provider server 122 is, for example, but is not limited to, a commercial server of a cable TV provider, such as Comcast Corporation; a cell phone service provider, such as Verizon Wireless; an Internet service provider, such as Adelphia Communications; an online music service provider, such as Sony Corporation; and the like.
  • Electronic display 124 is any display device, such as, but not limited to, a standard analog or digital television (TV) , a flat screen TV, a flat panel display, or a projection system.
  • Set-top box 126 is a receiver device that processes an incoming signal from a satellite dish, aerial, cable, network, or telephone line, as is known.
  • An example manufacturer of set-top boxes is Advanced Digital Broadcast.
  • Set-top box 126 is electrically connected to the video input of electronic display 124.
  • Document scanner 127 is a commercially available document scanner device, such as the KV-S2026C full-color scanner, by Panasonic Corporation. Document scanner 127 is used in the conversion of existing printed documents into MMR-ready documents .
  • Cellular infrastructure 132 is representative of a plurality of cell towers and other cellular network interconnections.
  • two-way voice and data communications are provided to handheld, portable, and car-mounted phones via wireless modems incorporated into devices, such as into capture device 106.
  • Wi-Fi technology 134 is technology that is associated with wireless local area network (WLAN) products that are based on 802.11 standards, as is known.
  • Bluetooth technology 136 is a telecommunications industry specification that describes how cellular phones, computers, and PDAs are interconnected by use of a short-range wireless connection, as is known.
  • IR technology 138 allows electronic devices to communicate via short-range wireless signals.
  • IR technology 138 is a line-of-sight wireless communications medium used by television remote controls, laptop computers, PDAs, and other devices.
  • IR technology 138 operates in the spectrum from mid-microwave to below visible light.
  • wireless communication may be supported using IEEE 802.15 (UWB) and/or 802.16 (WiMAX) standards.
  • Wired technology 140 is any wired communications mechanism, such as a standard Ethernet connection or universal serial bus (USB) connection.
  • cellular infrastructure 132 Wi-Fi technology 134, Bluetooth technology 136, IR technology 138, and/or wired technology 140, capture device 106 is able to communicate bi-directionally with any or all electronic devices of MMR system 100b.
  • Geo-location mechanism 142 is any mechanism suitable for determining geographic location.
  • Geo-location mechanism 142 is, for example, GPS satellites which provide position data to terrestrial GPS receiver devices, as is known. In the example, embodiment shown in Figure IB, position data is provided by GPS satellites to users of MMR system 100b via service provider server 122 that is connected to network 128 in combination with a GPS receiver (not shown) .
  • geo-location mechanism 142 is a set of cell towers (e.g., a subset of cellular infrastructure 132) that provide a triangulation mechanism, cell tower identification (ID) mechanism, and/or enhanced 911 service as a means to determine geographic location.
  • geo-location mechanism 142 is provided by signal strength measurements from known locations of WiFi access points or BlueTooth devices.
  • capture device 106 serves as a client that is in the possession of MMR user 110.
  • Software applications exist thereon that enable a content-based retrieval operation and links capture device 106 to the infrastructure of MMR system 100b via cellular infrastructure 132, Wi-Fi technology 134, Bluetooth technology 136, IR technology 138, and/or wired technology 140. Additionally, software applications exist on MMR computer 112 that perform several operations, such as but not limited to, a print capture operation, an event capture operation (e.g.
  • Networked media server 114 provides access to the data attached to a printed document, such as printed document 118 that is printed via MMR computer 112, belonging to MMR user 110. In doing so, a second medium, such as video or audio, is associated with a first medium, such as a paper document. More details of the software applications and/or mechanisms for forming the association of a second medium to a first medium are described in reference to Figures 2E, 3, 4, and 5 below.
  • Figures 2A, 2B, 2C, and 2D illustrate example capture devices 106 in accordance with embodiments of the present invention. More specifically, Figure 2A shows a capture device 106a that is a cellular camera phone. Figure 2B shows a capture device 106b that is a PDA device. Figure 2C shows a capture device 106c that is a computer peripheral device. One example of a computer peripheral device is any standard webcam. Figure 2D shows a capture device 106d that is built into a computing device (e.g., such as MMR computer 112). For example, capture device 106d is a computer graphics card. Example details of capture device 106 are found in reference to Figure 2E.
  • a computing device e.g., such as MMR computer 112
  • capture device 106d is a computer graphics card. Example details of capture device 106 are found in reference to Figure 2E.
  • the capture device 106 may be in the possession of MMR user 110, and the physical location thereof may be tracked by geo location mechanism 142 or by the ID numbers of each cell tower within cellular infrastructure 132.
  • the capture device 106 includes a processor 210, a display 212, a keypad 214, a storage device 216, a wireless communications link 218, a wired communications link 220, an MMR software suite 222, a capture device user interface (UI) 224, a document fingerprint matching module 226, a third-party software module 228, and at least one of a variety of capture mechanisms 230.
  • Example capture mechanisms 230 include, but are not limited to, a video camera 232, a still camera 234, a voice recorder 236, an electronic highlighter 238, a laser 240, a GPS device 242, and an RFID reader 244.
  • Processor 210 is a central processing unit (CPU) , such as, but not limited to, the Pentium microprocessor, manufactured by Intel Corporation.
  • Display 212 is any standard video display mechanism, such those used in handheld electronic devices. More particularly, display 212 is, for example, any digital display, such as a liquid crystal display (LCD) or an organic light-emitting diode (OLED) display.
  • Keypad 214 is any standard alphanumeric entry mechanism, such as a keypad that is used in standard computing devices and handheld electronic devices, such as cellular phones.
  • Storage device 216 is any volatile or non-volatile memory device, such as a hard disk drive or a random access memory (RAM) device, as is well known.
  • Wireless communications link 218 is a wireless data communications mechanism that provides direct point-to-point communication or wireless communication via access points (not shown) and a LAN (e.g., IEEE 802.11 Wi-Fi or Bluetooth technology) as is well known.
  • Wired communications link 220 is a wired data communications mechanism that provides direct communication, for example, via standard Ethernet and/or USB connections.
  • MMR software suite 222 is the overall management software that performs the MMR operations, such as merging one type of media with a second type. More details of MMR software suite 222 are found with reference to Figure 4.
  • Capture device User Interface (UI) 224 is the user interface for operating capture device 106. By use of capture device UI 224, various menus are presented to MMR user 110 for the selection of functions thereon. More specifically, the menus of capture device UI 224 allow MMR user 110 to manage tasks, such as, but not limited to, interacting with paper documents, reading data from existing documents, writing data into existing documents, viewing and interacting with the augmented reality associated with those documents, and viewing and interacting with the augmented reality associated with documents displayed on his/her MMR computer 112.
  • the document fingerprint matching module 226 is a software module for extracting features from a text image captured via at least one capture mechanism 230 of capture device 106.
  • the document fingerprint matching module 226 can also perform pattern matching between the captured image and a database of documents. At the most basic level, and in accordance with one embodiment, the document fingerprint matching module 226 determines the position of an image patch within a larger page image wherein that page image is selected from a large collection of documents.
  • the document fingerprint matching module 226 includes routines or programs to receive captured data, to extract a representation of the image from the captured data, to perform patch recognition and motion analysis within documents, to perform decision combinations, and to output a list of x-y locations within pages where the input images are located.
  • the document fingerprint matching module 226 may be an algorithm that combines horizontal and vertical features that are extracted from an image of a fragment of text, in order to identify the document and the section within the document from which it was extracted.
  • a printed document index (not shown) , which resides, for example, on MMR computer 112 or networked media server 114 , is queried, in order to identify the symbolic document .
  • document fingerprint matching module 226 Under the control of capture device UI 224, document fingerprint matching module 226 has access to the printed document index.
  • the printed document index is described in more detail with reference to MMR computer 112 of Figure 3.
  • the document fingerprint matching module 226 could be part of the MMR computer 112 and not located within the capture device 106.
  • the capture device 106 sends raw captured data to the MMR computer 112 for image extraction, pattern matching, and document and position recognition.
  • the document fingerprint matching module 226 only performs feature extraction, and the extracted features are sent to the MMR computer 112 for pattern matching and recognition.
  • Third-party software module 228 is representative of any third-party software module for enhancing any operation that may occur on capture device 106.
  • Example third-party software includes security software, image sensing software, image processing software, and MMR database software.
  • the capture device 106 may include any number of capture mechanisms 230, examples of which will now be described.
  • Video camera 232 is a digital video recording device, such as is found in standard digital cameras or some cell phones.
  • Still camera 234 is any standard digital camera device that is capable of capturing digital images.
  • Voice recorder 236 is any standard audio recording device (microphone and associated hardware) that is capable of capturing audio signals and outputting it in digital form.
  • Electronic highlighter 238 is an electronic highlighter that provides the ability to scan, store and transfer printed text, barcodes, and small images to a PC, laptop computer, or PDA device.
  • Electronic highlighter 238 is, for example, the Quicklink Pen Handheld Scanner, by Wizcom Technologies, which allows information to be stored on the pen or transferred directly to a computer application via a serial port, infrared Communications, or USB adapter.
  • Laser 240 is a light source that produces, through stimulated emission, coherent, near-monochromatic light, as is well known.
  • Laser 240 is, for example, a standard laser diode, which is a semiconductor device that emits coherent light when forward biased.
  • a detector Associated with and included in the laser 240 is a detector that measures the amount of light reflected by the image at which the laser 240 is directed.
  • GPS device 242 is any portable GPS receiver device that supplies position data, e.g., digital latitude and longitude data.
  • portable GPS devices 242 are the NV-U70 Portable Satellite Navigation System, from Sony Corporation, and the Magellan brand RoadMate Series GPS devices, Meridian Series GPS devices, and eXplorist Series GPS devices, from Thales North America, Inc.
  • GPS device 242 provides a way of determining the location of capture device 106, in real time, in part, by means of triangulation, to a plurality of geo location mechanisms 142, as is well known.
  • RFID reader 244 is a commercially available RFID tag reader system, such as the TI RFID system, manufactured by Texas Instruments.
  • An RFID tag is a wireless device for identifying unique items by use of radio waves.
  • An RFID tag is formed of a microchip that is attached to an antenna and upon which is stored a unique digital identification number, as is well known.
  • capture device 106 includes processor 210, display 212, keypad, 214, storage device 216, wireless communications link 218, wired communications link 220, MMR software suite 222, capture device UI 224, document fingerprint matching module 226, third-party software module 228, and at least one of the capture mechanisms 230. In doing so, capture device 106 is a full-function device.
  • capture device 106 may have lesser functionality and, thus, may include a limited set of functional components.
  • MMR software suite 222 and document fingerprint matching module 226 may reside remotely at, for example, MMR computer 112 or networked media server 114 of MMR system 100b and are accessed by capture device 106 via wireless communications link 218 or wired communications link 220.
  • MMR Computer Referring now to Figure 3, the MMR computer 112 configured in accordance with an embodiment of the present invention is shown.
  • MMR computer 112 is connected to networked media server 114 that includes one or more multimedia (MM) files 336, the user printer 116 that produces printed document 118, the document scanner 127, and the capture device 106 that includes capture device UI 224 and a first instance of document fingerprint matching module 226.
  • the communications link between these components may be a direct link or via a network.
  • document scanner 127 includes a second instance of document fingerprint matching module 226' .
  • the MMR computer 112 of this example embodiment includes one or more source files 310, a first source document (SD) browser 312, a second SD browser 314, a printer driver 316, a printed document (PD) capture module 318, a document event database 320 storing a PD index 322, an event capture module 324, a document parser module 326, a multimedia (MM) clips browser/editor module 328, a printer driver for MM 330, a document-to-video paper (DVP) printing system 332, and video paper document 334.
  • Source files 310 are representative of any source files that are an electronic representation of a document (or a portion thereof) .
  • Example source files 310 include hypertext markup language (HTML) files, Microsoft Word files, Microsoft PowerPoint files, simple text files, portable document format (PDF) files, and the like, that are stored on the hard drive (or other suitable storage) of MMR computer 112.
  • the first SD browser 312 and the second SD browser 314 are either stand-alone PC applications or plug-ins for existing PC applications that provide access to the data that has been associated with source files 310.
  • the first and second SD browser 312, 314 may be used to retrieve an original HTML file or MM clips for display on MMR computer 112.
  • Printer driver 316 is printer driver software that controls the communication link between applications and the page-description language or printer control language that is used by any particular printer, as is well known. In particular, whenever a document, such as printed document 118, is printed, printer driver 316 feeds data that has the correct control commands to printer 116, such as those provided by Ricoh Corporation for their printing devices. In one embodiment, the printer driver 316 is different from conventional print drivers in that it captures automatically a representation of the x-y coordinates, font, and point size of every character on every printed page. In other words, it captures information about the content of every document printed and feeds back that data to the PD capture module 318.
  • the PD capture module 318 is a software application that captures the printed representation of documents, so that the layout of characters and graphics on the printed pages can be retrieved. Additionally, by use of PD capture module 318, the printed representation of a document is captured automatically, in real-time, at the time of printing. More specifically, the PD capture module 318 is the software routine that captures the two-dimensional arrangement of text on the printed page and transmits this information to PD index 322. In one embodiment, the PD capture module 318 operates by trapping the Windows text layout commands of every character on the printed page. The text layout commands indicate to the operating system (OS) the x-y location of every character on the printed page, as well as font, point size, and so on.
  • OS operating system
  • PD capture module 318 eavesdrops on the print data that is transmitted to printer 116.
  • the PD capture module 318 is coupled to the output of the first SD browser 312 for capture of data.
  • the functions of PD capture module 318 may be implemented directly within printer driver 316.
  • Various configurations will be apparent in light of this disclosure.
  • Document event database 320 is any standard database modified to store relationships between printed documents and events, in accordance with an embodiment of the present invention. (Document event database 320 is further described below as MMR database with reference to Figure 34A. ) For example, document event database 320 stores bi-directional links from source files 310 (e.g., Word, HTML, PDF files) to events that are associated with printed document 118.
  • source files 310 e.g., Word, HTML, PDF files
  • Example events include the capture of multimedia clips on capture device 106 immediately after a Word document is printed, the addition of multimedia to a document with the client application of capture device 106, or annotations for multimedia clips.
  • other events that are associated with source files 310 include logging when a given source file 310 is opened, closed, or removed; logging when a given source file 310 is in an active application on the desktop of MMR computer 112, logging times and destinations of document "copy” and “move” operations; and logging the edit history of a given source file 310.
  • Such events are captured by event capture module 324 and stored in document event database 320.
  • the document event database 320 is coupled to receive the source files 310, the outputs of the event capture module 324, PD capture module 318 and scanner 127, and is also coupled to capture devices 106 to receive queries and data, and provide output.
  • the document event database 320 also stores a PD index 322.
  • the PD index 322 is a software application that maps features that are extracted from images of printed documents onto their symbolic forms (e.g. , scanned image to Word) .
  • the PD capture module 318 provides to the PD index 322 the x-y location of every character on the printed page, as well as font, point size, and so on.
  • the PD index 322 is constructed at the time that a given document is printed. However, all print data is captured and saved in the PD index 322 in a manner that can be interrogated at a later time.
  • PD index 322 supports such a query (i.e., the word "garden” above the word "rose") .
  • the PD index 322 contains a record of which document, which pages, and which location within those pages upon which the word "garden” appears above the word "rose.”
  • PD index 322 is organized to support a feature-based or text-based query.
  • the contents of PD index 322, which are electronic representations of printed documents, are generated by use of PD capture module 318 during a print operation and/or by use of document fingerprint matching module 226' of document scanner 127 during a scan operation.
  • the event capture module 324 is a software application that captures on MMR- computer 112 events that are associated with a given printed document 118 and/or source file 310. These events are captured during the lifecycle of a given source file 310 and saved in document event database 320. In a specific example, by use of event capture module 324, events are captured that relate to an HTML file that is active in a browser, such as the first SD browser 312, of MMR computer 112. These events might include the time that the HTML file was displayed on MMR computer 112 or the file name of other documents that are open at the same time that the HTML file was displayed or printed.
  • Example events that are captured by the event capture module 324 include a document edit history; video from office meetings that occurred near the time when a given source file 310 was on the desktop (e.g. , as captured by office portal 120) ; and telephone calls that occurred when a given source file 310 was open (e.g., as captured by office portal 120) .
  • Example functions of event capture module 324 include: 1) tracking - tracking active files and applications; 2) key stroke capturing - key stroke capture and association with the active application; 3) frame buffer capturing and indexing - each frame buffer image is indexed with the optical character recognition (OCR) result of the frame buffer data, so that a section of a printed document can be matched to the time it was displayed on the screen.
  • OCR optical character recognition
  • text can be captured with a graphical display interface (GDI) shadow dll that traps text drawing commands for the PC desktop that are issued by the PC operating system.
  • GDI graphical display interface
  • MMR user 110 may point the capture device 106 at a document and determine when it was active on the desktop of the MMR computer 112); and 4) reading history capture - data of the frame buffer capturing and indexing operation is linked with an analysis of the times at which the documents were active on the desktop of his/her MMR computer 112, in order to track how long, and which parts of a particular document, were visible to MMR user 110. In doing so, correlation may occur with other events, such as keystrokes or mouse movements, in order to infer whether MMR user 110 was reading the document.
  • the combination of document event database 320, PD index 322, and event capture module 324 is implemented locally on MMR computer 112 or, alternatively, is implemented as a shared database.
  • the document parser module 326 is a software application that parses source files 310 that are related to respective printed documents 118 , to locate useful objects therein, such as uniform resource locators (URLs) , addresses, titles, authors, times, or phrases that represent locations, e.g., Hallidie Building. In doing so, the location of those objects in the printed versions of source files 310 is determined.
  • the output of the document parser module 326 can then be used by the receiving device to augment the presentation of the document 118 with additional information, and improve the accuracy of pattern matching. Furthermore, the receiving device could also take an action using the locations, such as in the case of a URL, retrieving the web pages associated with the URL.
  • the document parser module 326 is coupled to receive source files 310 and provides its output to the document fingerprint matching module 226. Although only shown as being coupled to the document fingerprint matching module 226 of the capture device, the output of document parser module 326 could be coupled to all or any number of document fingerprint matching modules 226 wherever they are located. Furthermore, the output of the document parser module 326 could also be stored in the document event database 320 for later use
  • the MM clips browser/editor module 328 is a software application that provides an authoring function.
  • the MM clips browser/editor module 328 is a standalone software application or, alternatively, a plug-in running on a document browser (represented by dashed line to second SD browser 314) .
  • the MM clips browser/editor module 328 displays multimedia files to the user and is coupled to the networked media server to receive multimedia files 336. Additionally, when MMR user 110 is authoring a document (e.g. , attaching multimedia clips to a paper document) , the MM clips browser/editor module 328 is a support tool for this function.
  • the MM clips browser/editor module 328 is the application that shows the metadata, such as the information parsed from documents that are printed near the time when the multimedia wa's captured.
  • the printer driver for MM 330 provides the ability to author MMR documents. For example, MMR user 110 may highlight text in a UI generated by the printer driver for MM 330 and add actions to the text that include retrieving multimedia data or executing some other process on network 128 or on MMR computer 112.
  • the combination of printer driver for MM 330 and DVP printing system 332 provides an alternative output format that uses barcodes. This format does not necessarily require a content-based retrieval technology.
  • the printer driver for MM 330 is a printer driver for supporting the video paper technology, i.e., video paper 334.
  • the printer driver for MM 330 creates a paper representation that includes barcodes as a way to access the multimedia.
  • printer driver 316 creates a paper representation that includes MMR technology as a way to access the multimedia.
  • the authoring technology embodied in the combination of MM clips browser/editor 328 and SD browser 314 can create the same output format as SD browser 312 thus enabling the creation of MMR documents ready for content-based retrieval.
  • the DVP printing system 332 performs the linking operation of any data in document event database 320 that is associated with a document to its printed representation, either with explicit or implicit bar codes. Implicit bar codes refer to the pattern of text features used like a bar code.
  • Video paper 334 is a technology for presenting audio-visual information on a printable medium, such as paper.
  • bar codes are used as indices to electronic content stored or accessible in a computer. The user scans the bar code and a video clip or other multimedia content related to the text is output by the system.
  • MM files 336 of the networked media server 114 are representative of a collection of any of a variety of file types and file formats .
  • MM files 336 are text source files, web pages, audio files, video files, audio/video files, and image files (e.g., still photos).
  • the document scanner 127 is used in the conversion of existing printed documents into MMR-ready documents.
  • the document scanner 127 is used to MMR-enable existing documents by applying the feature extraction operation of the document fingerprint matching module 226' to every page of a document that is scanned.
  • PD index 322 is populated with the results of the scanning and feature extraction operation, and thus, an electronic representation of the scanned document is stored in the document event database 320.
  • the information in the PD index 322 can then be used to author MMR documents.
  • the software functions of MMR computer 112 are not limited to MMR computer 112 only.
  • the software functions shown in Figure 3 may be distributed in any user-defined configuration between MMR computer 112, networked media server 114, service provider server 122 and capture device 106 of MMR system 100b.
  • source files 310, SD browser 312, SD browser 314, printer driver 316, PD capture module 318, document event database 320, PD index 322, event capture module 324 , document parser module 326, MM clips browser/editor module 328, printer driver for MM 330, and DVP printing system 332 may reside fully within capture device 106, and thereby, provide enhanced functionality to capture device 106.
  • FIG. 4 illustrates a set of software components that are included in the MMR software suite 222 in accordance with one embodiment of the present invention. It should be understood that all or some of the MMR software suite 222 may be included in the MMR computer 112, the capture device 106, the networked media server 114 and other servers. In addition, other embodiments of MMR software suite 222 could have any number of the illustrated components from one to all of them.
  • the MMR software suite 222 of this example includes: multimedia annotation software 410 that includes a text content-based retrieval component 412, an image content-based retrieval component 414, and a steganographic modification component 416; a paper reading history log 418; an online reading history log 420; a collaborative document review component 422, a real-time notification component 424, a multimedia retrieval component 426; a desktop video reminder component 428; a web page reminder component 430, a physical history log 432; a completed form reviewer component 434; a time transportation component 436, a location awareness component 438, a PC authoring component 440; a document authoring component 442; a capture device authoring component 444; an unconscious upload component 446; a document version retrieval component 448; a PC document metadata component 450; a capture device UI component 452; and a domain-specific component 454.
  • multimedia annotation software 410 that includes a text content-based retrieval component 412, an image content-based retrieval component 414
  • multimedia annotation software 410 in combination with the organization of document event database 320 form the basic technologies of MMR system 100b, in accordance with one particular embodiment. More specifically, multimedia annotation software 410 is for managing the multimedia annotation for paper documents. For example, MMR user 110 points capture device 106 at any section of a paper document and then uses at least one capture mechanism 230 of capture device 106 to add an annotation to that section. In a specific example, a lawyer dictates notes (create an audio file) about a section of a contract. The multimedia data (the audio file) is attached automatically to the original electronic version of the document. Subsequent printouts of the document optionally include indications of the existence of those annotations.
  • the text content-based retrieval component 412 is a software application that retrieves content-based information from text. For example, by use of text content-based retrieval component 412, content is retrieved from a patch of text, the original document and section within document is identified, or other information linked to that patch is identified.
  • the text content-based retrieval component 412 may utilize OCR-based techniques.
  • non-OCR-based techniques for performing the content-based retrieval from text operation include the two-dimensional arrangement of word lengths in a patch of text.
  • One example of text content-based retrieval component 412 is an algorithm that combines horizontal and vertical features that are extracted from an image of a fragment of text, to identify the document and the section within the document from which it was extracted.
  • the horizontal and vertical features can be used serially, in parallel, or otherwise simultaneously. Such a non-OCR-based feature set is used that provides a high-speed implementation and robustness in the presence of noise.
  • the image content-based retrieval component 414 is a software application that retrieves content-based information from images. The image content-based retrieval component 414 performs image comparison between captured data and images in the database 320 to generate a list of possible image matches and associated levels of confidence. Additionally, each image match may have associated data or actions that are performed in response to user input.
  • the image content-based retrieval component 414 retrieves content based on, for example, raster images (e.g., maps) by converting the image to a vector representation that can be used to query an image database for images with the same arrangement of features.
  • raster images e.g., maps
  • Alternative embodiments use the color content of an image or the geometric arrangement of objects within an image to look up matching images in a database.
  • Steganographic modification component 416 is a software application that performs steganographic modifications prior to printing. In order to better enable MMR applications, digital information is added to text and images before they are printed. In an alternate embodiment, the steganographic modification component 416 generates and stores an MMR document that includes: 1) original base content such as text, audio, or video information; 2) additional content in any form such as text, audio, video, applets, hypertext links, etc. Steganographic modifications can include the embedding of a watermark in color or grayscale images, the printing of a dot pattern on the background of a document, or the subtle modification of the outline of printed characters to encode digital information.
  • Paper reading history log 418 is the reading history log of paper documents. Paper reading history log 418 resides, for example, in document event database 320. Paper reading history log 418 is based on a document identification-from-video technology developed by Ricoh Innovations, which is used to produce a history of the documents read by MMR user 110. Paper reading history log 418 is useful, for example, for reminding MMR user 110 of documents read and/or of any associated events.
  • Online reading history log 420 is the reading history log of online documents. Online reading history log 420 is based on an analysis of operating system events, and resides, for example, in document event database 320. Online reading history log 420 is a record of the online documents that were read by MMR user 110 and of which parts of the documents were read. Entries in online reading history log 420 may be printed onto any subsequent printouts in many ways, such as by providing a note at the bottom of each page or by highlighting text with different colors that are based on the amount of time spent reading each passage. Additionally, multimedia annotation software 410 may index this data in PD index 322.
  • online reading history log 420 may be aided by a MMR computer 112 that is instrumented with devices, such as a face detection system that monitors MMR computer 112.
  • the collaborative document review component 422 is a software application that allows more than one reader of different versions of the same paper document to review comments applied by other readers by pointing his/her capture device 106 at any section of the document.
  • the annotations may be displayed on capture device 106 as overlays on top of a document thumbnail.
  • the collaborative document review component 422 may be implemented with or otherwise cooperate with any type of existing collaboration software.
  • the real-time notification component 424 is a software application that performs a real-time notification of a document being read. For example, while MMR user 110 reads a document, his/her reading trace is posted on a blog or on an online bulletin board. As a result, other people interested in the same topic may drop-in and chat about the document.
  • Multimedia retrieval component 426 is a software application that retrieves multimedia from an arbitrary paper document.
  • MMR user 110 may retrieve all the conversations that took place while an arbitrary paper document was present on the desk of MMR user 110 by pointing capture device 106 at the document. This assumes the existence of office portal 120 in the office of MMR user 110 (or other suitable mechanism) that captures multimedia data.
  • the desktop video reminder component 428 is a software application that reminds the MMR user 110 of events that occur on MMR computer 112. For example, by pointing capture device 106 at a section of a paper document, the MMR user 110 may see video clips that show changes in the desktop of MMR computer 112 that occurred while that section was visible. Additionally, the desktop video reminder component 428 may be used to retrieve other multimedia recorded by MMR computer 112, such as audio that is present in the vicinity of MMR computer 112.
  • the web page reminder component 430 is a software application that reminds the MMR user 110 of web pages viewed on his/her MMR computer 112. For example, by panning capture device 106 over a paper document, the MMR user 110 may see a trace of the web pages that were viewed while the corresponding section of the document was shown on the desktop of MMR computer 112.
  • the web pages may be shown in a browser, such as SD browser 312, 314, or on display 212 of capture device 106. Alternatively, the web pages are presented as raw URLs on display 212 of capture device 106 or on the MMR computer 112.
  • the physical history log 432 resides, for example, in document event database 320.
  • the physical history log 432 is the physical history log of paper documents.
  • MMR user 110 points his/her capture device 106 at a paper document, and by use of information stored in physical history log 432, other documents that were adjacent to the document of interest at some time in the past are determined. This operation is facilitated by, for example, an RFID-like tracking system.
  • capture device 106 includes an RFID reader 244.
  • the completed form reviewer component 434 is a software application that retrieves previously acquired information used for completing a form. For example, MMR user 110 points his/her capture device 106 at a blank form (e.g., a medical claim form printed from a website) and is provided a history of previously entered information. Subsequently, the form is filled in automatically with this previously entered information by this completed form reviewer component 434.
  • the time transportation component 436 is a software application that retrieves source files for past and future versions of a document, and retrieves and displays a list of events that are associated with those versions. This operation compensates for the fact that the printed document in hand may have been generated from a version of the document that was created months after the most significant external events (e.g., discussions or meetings) associated therewith.
  • the location awareness component 438 is a software application that manages location-aware paper documents.
  • the management of location-aware paper documents is facilitated by, for example, an RFID-like tracking system.
  • capture device 106 captures a trace of the geographic location of MMR user 110 throughout the day and scans the RFID tags attached to documents or folders that contain documents.
  • the RFID scanning operation is performed by an RFID reader 244 of capture device 106, to detect any RFID tags within its range.
  • the geographic location of MMR user 110 may be tracked by the identification numbers of each cell tower within cellular infrastructure 132 or, alternatively, via a GPS device 242 of capture device 106, in combination with geo location mechanism 142.
  • document identification may be accomplished with "always-on video” or a video camera 232 of capture device 106.
  • the location data provides "geo-referenced" documents, which enables a map-based interface that shows, throughout the day, where documents are located.
  • An application would be a lawyer who carries files on visits to remote clients.
  • the document 118 includes a sensing mechanism attached thereto that can sense when the document is moved and perform some rudimentary face detection operation. The sensing function is via a set of gyroscopes or similar device that is attached to paper documents. Based on position information, the MMR system 100b indicates when to "call" the owner' s cellular phone to tell him/her that the document is moving.
  • the cellular phone may add that document to its virtual brief case. Additionally, this is the concept of an "invisible" barcode, which is a machine-readable marking that is visible to a video camera 232 or still camera 234 of capture device 106, but that is invisible or very faint to humans . Various inks and steganography or, a printed-image watermarking technique that may be decoded on capture device 106, may be considered to determine position.
  • the PC authoring component 440 is a software application that performs an authoring operation on a PC, such as on MMR computer 112.
  • the PC authoring component 440 is supplied as plug-ins for existing authoring applications, such as Microsoft Word, PowerPoint, and web page authoring packages.
  • the PC authoring component 440 allows MMR user 110 to prepare paper documents that have links to events from his/her MMR computer 112 or to events in his/her environment; allows paper documents that have links to be generated automatically, such as printed document 118 being linked automatically to the Word file from which it was generated; or allows MMR user 110 to retrieve a Word file and give it to someone else. Paper documents that have links are heretofore referred to as MMR documents. More details of MMR documents are further described with reference to Figure 5.
  • the document authoring component 442 is a software application that performs an authoring operation for existing documents.
  • the document authoring component 442 can be implemented, for example, either as a personal edition or as an enterprise edition.
  • MMR user 110 scans documents and adds them to an MMR document database (e.g., the document event database 320) .
  • MMR document database e.g., the document event database 320
  • a publisher or a third party creates MMR documents from the original electronic source (or electronic galley proofs) .
  • This functionality may be embedded in high-end publishing packages (e.g., Adobe Reader) and linked with a backend service provided by another entity.
  • the capture device authoring component 444 is a software application that performs an authoring operation directly on capture device 106. Using the capture device authoring component 444, the MMR user 110 extracts key phrases from the paper documents in his/her hands and stores the key phrases along with additional content captured on-the-fly to create a temporary MMR document. Additionally, by use of capture device authoring component 444, the MMR user 110 may return to his/her MMR computer 112 and download the temporary MMR document that he/she created into an existing document application, such as PowerPoint, then edit it to a final version of an MMR document or other standard type of document for another application. In doing so, images and text are inserted automatically in the pages of the existing document, such as into the pages of a PowerPoint document .
  • an existing document application such as PowerPoint
  • Unconscious upload component 446 is a software application that uploads unconsciously (automatically, without user intervention) printed documents to capture device 106. Because capture device 106 is in the possession of the MMR user 110 at most times, including when the MMR user 110 is at his/her MMR computer 112, the printer driver 316 in addition to sending documents to the printer 116, may also push those same documents to a storage device 216 of capture device 106 via a wireless communications link 218 of capture device 106, in combination with Wi-Fi technology 134 or Bluetooth technology 136, or by wired connection if the capture device 106 is coupled to/docked with the MMR computer 112. In this way, the MMR user 110 never forgets to pick up a document after it is printed because it is automatically uploaded to the capture device 106.
  • the document version retrieval component 448 is a software application that retrieves past and future versions of a given source file 310. For example, the MMR user 110 points capture device 106 at a printed document and then the document version retrieval component 448 locates the current source file 310 (e.g., a Word file) and other past and future versions of source file 310. In one particular embodiment, this operation uses Windows file tracking software that keeps track of the locations to which source files 310 are copied and moved. Other such file tracking software can be used here as well. For example, Google Desktop Search or the Microsoft Windows Search Companion can find the current version of a file with queries composed from words chosen from source file 310.
  • the current source file 310 e.g., a Word file
  • this operation uses Windows file tracking software that keeps track of the locations to which source files 310 are copied and moved. Other such file tracking software can be used here as well. For example, Google Desktop Search or the Microsoft Windows Search Companion can find the current version of a file with queries composed from words chosen from source file 310
  • the PC document metadata component 450 is a software application that retrieves metadata of a document. For example, the MMR user 110 points capture device 106 at a printed document, and the PC document metadata component 450 determines who printed the document, when the document was printed, where the document was printed, and the file path for a given source file 310 at the time of printing.
  • the capture device UI component 452 is a software application that manages the operation of UI of capture device 106, which allows the MMR user 110 to interact with paper documents .
  • a combination of capture device UI component 452 and capture device UI 224 allow the MMR user 110 to read data from existing documents and write data into existing documents, view and interact with the augmented reality associated with those documents (i.e., via capture device 106, the MMR user 110 is able to view what happened when the document was created or while it was edited) , and view and interact with the augmented reality that is associated with documents displayed on his/her capture device 106.
  • Domain-specific component 454 is a software application that manages domain-specific functions. For example, in a music application, domain-specific component 454 is a software application that matches the music that is detected via, for example, a voice recorder 236 of capture device 106, to a title, an artist, or a composer. In this way, items of interest, such as sheet music or music CDs related to the detected music, may be presented to the MMR user 110. Similarly, the domain-specific component 454 is adapted to operate in a similar manner for video content, video games, and any entertainment information. The device specific component 454 may also be adapted for electronic versions of any mass media content.
  • MMR software suite 222 may reside fully or in part on one or more MMR computers 112 , networked servers 114, service provider servers 122, and capture devices 106 of MMR system 100b.
  • the operations of MMR system 100b such as any performed by MMR software suite 222 , may be distributed in any user-defined configuration between MMR computer 112, networked server 11 ⁇ 4, service provider server 122, and capture device 106 (or other such processing environments included in the system 100b) .
  • the base functionality of the MMR system 100a/100b can be performed with certain combinations of software components of the MMR software suite 222.
  • the base functionality of one embodiment of the MMR system 100a/100b includes:
  • the first media portion e.g., a paper document
  • the MMR document use of the first media portion (e.g., a paper document) of the MMR document to trigger or initiate a process in the electronic domain;
  • Figure 5 illustrates a diagram of an MMR document 500 in accordance with one embodiment of the present invention. More specifically, Figure 5 shows an MMR document 500 including a representation 502 of a portion of the printed document 118, an action or second media 504, an index or hotspot 506, and an electronic representation 508 of the entire document 118. While the MMR document 500 typically is stored at the document event database 320, it could also be stored in the capture device or any other devices coupled to the network 128. In one embodiment, multiple MMR documents may correspond to a printed document. In another embodiment, the structure shown in Figure 5 is replicated to create multiple hotspots 506 in a single printed document.
  • the MMR document 500 includes the representation 502 and hotspot 506 with page and location within a page; the second media 504 and the electronic representation 508 are optional and delineated as such by dashed lines. Note that the second media 504 and the electronic representation 508 could be added later after the MMR document has been created, if so desired.
  • This basic embodiment can be used to locate a document or particular location in a document that correspond to the representation .
  • the representation 502 of a portion of the printed document 118 can be in any form (images, vectors, pixels, text, codes, etc.) usable for pattern matching and that identifies at least one location in the document. It is preferable that the representation 502 uniquely identify a location in the printed document.
  • the representation 502 is a text fingerprint as shown in Figure 5.
  • the text fingerprint 502 is captured automatically via PD capture module 318 and stored in PD index 322 during a print operation.
  • the text fingerprint 502 is captured automatically via document fingerprint matching module 226' of document scanner 127 and stored in PD index 322 during a scan operation.
  • the representation 502 could alternatively be the entire document, a patch of text, a single word if it is a unique instance in the document, a section of an image, a unique attribute or any other representation of a matchable portion of a document.
  • the action or second media 504 is preferably a digital file or data structure of any type.
  • the second media 504 in the most basic embodiment may be text to be presented or one or more commands to be executed.
  • the second media type 504 more typically is a text file, audio file, or video file related to the portion of the document identified by the representation 502.
  • the second media type 504 could be a data structure or file referencing or including multiple different media types, and multiple files of the same type.
  • the second media 504 can be text, a command, an image, a PDF file, a video file, an audio file, an application file (e.g. spreadsheet or word processing document) , etc.
  • the index or hotspot 506 is a link between the representation 502 and the action or second media 504.
  • the hotspot 506 associates the representation 502 and the second media 504.
  • the index or hotspot 506 includes position information such as x and y coordinates within the document .
  • the hotspot 506 maybe a point, an area or even the entire document.
  • the hotspot is a data structure with a pointer to the representation 502, a pointer to the second media 504, and a location within the document. It should be understood that the MMR document 500 could have multiple hotspots 506, and in such a case the data structure creates links between multiple representations, multiple second media files, and multiple locations within the printed document 118.
  • the MMR document 500 includes an electronic representation 508 of the entire document 118. This electronic representation can be used in determining position of the hotspot 506 and also by the user interface for displaying the document on capture device 106 or the MMR computer 112.
  • Example use of the MMR document 500 is as follows.
  • a captured text fragment is identified via document fingerprint matching module 226 of capture device 106.
  • MMR user 110 points a video camera 232 or still camera 234 of his/her capture device 106 at printed document 118 and captures an image.
  • document fingerprint matching module 226 performs its analysis upon the captured image, to determine whether an associated entry exists within the PD index 322. If a match is found, the existence of a hot spot 506 is highlighted to MMR user 110 on the display 212 of his/her capture device 106. For example, a word or phrase is highlighted, as shown in Figure 5.
  • Each hot spot 506 within printed document 118 serves as a link to other user-defined or predetermined data, such as one of MM files 336 that reside upon networked media server 114.
  • Access to text fingerprints or representations 502 that are stored in PD index 322 allows electronic data to be added to any MMR document 500 or any hotspot 506 within a document.
  • a paper document that includes at least one hot spot 506 is referred to as an MMR document 500.
  • example operation of MMR system 100b is as follows .
  • MMR user 110 or any other entity, such as a publishing company opens a given source file 310 and initiates a printing operation to produce a paper document, such as printed document 118.
  • certain actions are performed automatically, such as: (1) capturing automatically the printed format, via PD capture module 318, at the time of printing and transferring it to capture device 106.
  • the electronic representation 508 of a document is captured automatically at the time of printing, by use of PD capture module 318 at the output of, for example, SD browser 312.
  • MMR user 110 prints content from SD browser 312 and the content is filtered through PD capture module 318.
  • the two-dimensional arrangement of text on a page can be determined when the document is laid out for printing; (2) capturing automatically, via PD capture module 318, the given source file 310 at the time of printing; and (3) parsing, via document parser module 326, the printed format and/or source file 310, in order to locate "named entities" or other interesting information that may populate a multimedia annotation interface on capture device 106.
  • the named entities are, for example, "anchors" for adding multimedia later, i.e., automatically generated hot spots 506.
  • Document parser module 326 receives as input source files 310 that are related to a given printed document 118.
  • Document parser module 326 is the application that identifies representations 502 for use with hot spots 506, such as titles, authors, times, or locations, in a paper document 118 and, thus, prompts information to be received on capture device 106; (4) indexing automatically the printed format and/or source file 310 for content-based retrieval, i.e., building PD index 322; (5) making entries in document event database 320 for documents and events associated with source file 310, e.g., edit history and current location; and (6) performing an interactive dialog within printer driver 316, which allows MMR user 110 to add hot spots 506 to documents before they are printed and, thus, an MMR document 500 is formed.
  • the associated data is stored on MMR computer 112 or uploaded to networked media server 114.
  • the MMR system 100 (100a or 100b) is not limited to the configurations shown in Figures 1A-1B, 2A-2D, and 3-5.
  • the MMR Software may be distributed in whole or in part between the capture device 106 and the MMR computer 112, and significantly fewer than all the modules described above with reference to Figures 3 and 4 are required. Multiple configurations are possible including the following:
  • a first alternate embodiment of the MMR system 100 includes the capture device 106 and capture device software.
  • the capture device software is the capture device UI 224 and the document fingerprint matching module 226 (e.g., shown in Figure 3) .
  • the capture device software is executed on capture device 106, or alternatively, on an external server, such as networked media server 114 or service provider server 122, that is accessible to capture device 106.
  • a networked service is available that supplies the data that is linked to the publications.
  • a hierarchical recognition scheme may be used, in which a publication is first identified and then the page and section within the publication are identified.
  • a second alternate embodiment of the MMR system 100 includes capture device 106, capture device software and document use software.
  • the second alternate embodiment includes software, such as is shown and described with reference to Figure 4, that captures and indexes printed documents and links basic document events, such as the edit history of a document. This allows MMR user 110 to point his/her capture device 106 at any printed document and determine the name and location of the source file 310 that generated the document, as well as determine the time and place of printing.
  • a third alternate embodiment of the MMR system 100 includes capture device 106, capture device software, document use software, and event capture module 324.
  • the event capture module 324 is added to MMR computer 112 that captures events that are associated with documents, such as the times when they were visible on the desktop of MMR computer 112 (determined by monitoring the GDI character generator) , URLs that were accessed while the documents were open, or characters typed on the keyboard while the documents were open.
  • a fourth alternate embodiment of the MMR system 100 includes capture device 106, capture device software, and the printer 116.
  • the printer 116 is equipped with a Bluetooth transceiver or similar communication link that communicates with capture device 106 of any MMR user 110 that is in close proximity. Whenever any MMR user 110 picks up a document from the printer 116, the printer 116 pushes the MMR data (document layout and multimedia clips) to that user's capture device 106.
  • User printer 116 includes a keypad, by which a user logs in and enters a code, in order to obtain the multimedia data that is associated with a specific document.
  • the document may include a printed representation of a code in its footer, which may be inserted by printer driver 316.
  • a fifth alternate embodiment of the MMR system 100 includes capture device 106, capture device software, and office portal 120.
  • the office portal device is preferably a personalized version of office portal 120.
  • the office portal 120 captures events in the office, such as conversations, conference/telephone calls, and meetings.
  • the office portal 120 identifies and tracks specific paper documents on the physical desktop.
  • the office portal 120 additionally executes the document identification software (i.e., document fingerprint matching module 226 and hosts document event database 320) .
  • This fifth alternate embodiment serves to off-load the computing workload from MMR computer 112 and provides a convenient way to package MMR system 100b as a consumer device (e.g., MMR system 100b is sold as a hardware and software product that is executing on a Mac Mini computer, by Apple Computer, Inc.).
  • a sixth alternate embodiment of the MMR system 100 includes capture device 106, capture device software, and the networked media server 114.
  • the multimedia data is resident on the networked media server 114, such as the Comcast Video-on-Demand server.
  • the resultant lookup command is transmitted either to the set-top box 126 that is associated with cable TV of MMR user 110 (wirelessly, over the Internet, or by calling set-top box 126 on the phone) or to the Comcast server.
  • the multimedia is streamed from the Comcast server to set-top box 126.
  • the system 100 knows where to send the data, because MMR user 110 registered previously his/her phone.
  • the capture device 106 can be used for access and control of the set-top box 126.
  • a seventh alternate embodiment of the MMR system 100 includes capture device 106, capture device software, the networked media server 114 and a location service.
  • the location-aware service discriminates between multiple destinations for the output from the Comcast system (or other suitable communication system) . This function is performed either by discriminating automatically between cellular phone tower IDs or by a keypad interface that lets MMR user 110 choose the location where the data is to be displayed. Thus, the user can access programming and other cable TV features provided by their cable operator while visiting another location so long as that other location has cable access.
  • a document fingerprint matching module/system 610 receives a captured image 612.
  • the document fingerprint matching system 610 queries a collection of pages in a document database 3400 (further described below with reference to, for example, Figure 34A) and returns a list of the pages and documents that contain them within which the captured image 612 is contained. Each result is an x-y location where the captured input image 612 occurs.
  • the database 3400 can be external to the document fingerprint matching module 610 (e.g. , as shown in Figure 6) , but can also be internal to the document fingerprint matching module 610 (e.g., as shown in Figures 7, 11, 12, 14, 20, 24, 26, 28, and 30-32, where the document fingerprint matching module 610 includes database 3400) .
  • FIG. 7 shows a block diagram of a document fingerprint matching system 610 in accordance with an embodiment of the present invention.
  • a capture device 106 captures an image.
  • the captured image is sent to a quality assessment module 712, which effectively makes a preliminary judgment about the content of the captured image based on the needs and capabilities of downstream processing. For example, if the captured image is of such quality that it cannot be processed downstream in the document fingerprint matching system 610, the quality assessment module 712 causes the capture device 106 to recapture the image at a higher resolution.
  • the quality assessment module 712 may detect many other relevant characteristics of the captured image such as, for example, the sharpness of the text contained in the captured image, which is an indication of whether the captured image is "in focus.” Further, the quality assessment module 712 may determine whether the captured image contains something that could be part of a document. For example, an image patch that contains a non-document image (e.g., a desk, an outdoor scene) indicates that the user is transitioning the view of the capture device 106 to a new document.
  • a non-document image e.g., a desk, an outdoor scene
  • the quality assessment module 712 may perform text/non-text discrimination so as to pass through only images that are likely to contain recognizable text.
  • Figure 8 shows a flow process for text/non-text discrimination in accordance with one or more embodiments.
  • a number of columns of pixels are extracted from an input image patch at step 810.
  • an input image is gray-scale, and each value in the column is an integer from zero to 255 (for 8 bit pixels) .
  • the local peaks in each column are detected. This can be done with the commonly understood “sliding window” method in which a window of fixed length (e.g., N pixels) is slid over the column, M pixels at a time, where M ⁇ N.
  • Step 812 is applied to a number C of columns in the image patch, and the gap values are accumulated in a histogram at step 814.
  • the gap histogram is compared to other histograms derived from training data with known classifications (at step 816) stored in database 818, and a decision about the category of the patch (either text or non-text) is output together with a measure of the confidence in that decision.
  • the histogram classification at step 816 takes into account the typical appearance of a histogram derived from an image of text and that it contains two tight peaks, one centered on the distance between lines with possibly one or two other much smaller peaks at integer multiples higher in the histogram away from those peaks.
  • the classification may determine the shape of the histogram with a measure of statistical variance, or it may compare the histogram one-by-one to stored prototypes with a distance measure, such as, for example, a Hamming or Euclidean distance.
  • a distance measure such as, for example, a Hamming or Euclidean distance.
  • This example illustrates the shape of a histogram derived from a patch that contains text.
  • a flow process for estimating the point size of text in an image patch is shown in Figure 10. This flow process takes advantage of the fact that the blur in an image is inversely proportional to the capture device's distance from the page. By estimating the amount of blur, the distance may be estimated, and that distance may be used to scale the size of objects in the image to known "normalized" heights. This behavior may be used to estimate the point size of text in a new image.
  • an image of a patch of text (referred to as a "calibration" image) in a known font and point size is obtained with an image capture device at a known distance at step 1012.
  • the height of text characters in that image as expressed in a number of pixels is measured at step 1014. This may be done, for example, manually with an image annotation tool such as Microsoft Photo Editor.
  • the blur in the calibration image is estimated at step 1016. This may be done, for example, with known measurements of the spectral cutoff of the ' two-dimensional fast Fourier transform. This may also be expressed in units as a number of pixels 1020.
  • the image is processed at step 1026 to locate text with commonly understood method of line segmentation and character segmentation that produces bounding boxes around each character. The heights of those boxes may be expressed in pixels.
  • the blur of the new image is estimated at step 1028 in a similar manner as at step 1016.
  • These measures are combined at step 1030 to generate a first estimate 1032 of the point size of each character (or equivalently, each line) . This may be done by calculating the following equation: (calibration image blur size / new image blur size) * (new image text height/calibration image text height) * (calibration image font size in points) .
  • the same scaling function may be applied to the height of every character's bounding box. This produces a decision for every character in a patch. For example, if the patch contains 50 characters, this procedure would produce 50 votes for the point size of the font in the patch. A single estimate for the point size may then be derived with the median of the votes.
  • feedback of the quality assessment module 712 to the capture device 106 may be directed to a user interface (UI) of the capture device 106.
  • the feedback may include an indication in the form of a sound or vibration that indicates that the captured image contains something that looks like text but is blurry and that the user should steady the capture device 106.
  • the feedback may also include commands that change parameters of the optics of the capture device 106 to improve the quality of the captured image. For example, the focus, F-stop, and/or exposure time may be adjusted so at to improve the quality of the captured image.
  • the feedback of the quality assessment module 712 to the capture device 106 may be specialized by the needs of the particular feature extraction algorithm being used.
  • feature extraction converts an image into a symbolic representation.
  • OCR optical character recognition
  • the quality assessment module 712 may implement this by feeding back instructions to the capture device 106 causing the capture device 106 to defocus the lens and thereby produce blurry images.
  • the feedback process is modified by a control structure 714.
  • control structure 714 receives data and symbolic information from the other components in the document fingerprint matching system 610.
  • the control structure 714 decides the order of execution of the various steps in the document fingerprint matching system 610 and can optimize the computational load.
  • the control structure 714 identifies the x-y position of received image patches. More particularly, the control structure 714 receives information about the needs of the feature extraction process, the results of the quality assessment module 712, and the capture device 106 parameters, and can change them as appropriate. This can be done dynamically on a frame-by-frame basis. In a system configuration that uses multiple feature extraction methodologies, one might require blurry images of large patches of text and another might need high resolution sharply focused images of paper grain.
  • control structure 714 may send commands to the quality assessment module 712 that instruct it to produce the appropriate image quality when it has text in view.
  • the quality assessment module 712 would interact with the capture device 106 to produce the correct images (e. g. , N blurry images of a large patch followed by M images of sharply focused paper grain (high resolution) ) .
  • the control structure 714 would track the progress of those images through the processing pipeline to ensure that the corresponding feature extraction and classification is applied.
  • An image processing module 716 modifies the quality of the input images based on the needs of the recognition system. Examples of types of image modification include sharpening, deskewing, and binarization. Such algorithms include many tunable parameters such as mask sizes, expected rotations, and thresholds.
  • the document fingerprint matching system 610 uses feedback from feature extraction and classification modules 718, 720 (described below) to dynamically modify the parameters of the image processing module 716. This works because the user will typically point their capture device 106 at the same location in a document for several seconds continuously. Given that, for example, the capture device 106 processes 30 frames per second, the results of processing the first few frames in any sequence can affect how the frames captured later are processed.
  • a feature extraction module 718 converts a captured image into a symbolic representation.
  • the feature extraction module 718 locates words and computes their bounding boxes.
  • the feature extraction module 718 locates connected components and calculates descriptors for their shape.
  • the document fingerprint matching system 610 shares metadata about the results of feature extraction with the control structure 714 and uses that metadata to adjust the parameters of other system components. Those skilled in the art will note that this may significantly reduce computational requirements and improve accuracy by inhibiting the recognition of poor quality data. For example, a feature extraction module 718 that identifies word bounding boxes could tell the control structure 714 the number of lines and "words" it found.
  • control structure 714 could instruct the quality assessment module 712 to produce blurrier images.
  • the quality assessment module 712 would then send the appropriate signal to the capture device 106.
  • the control structure 714 could instruct the image processing module 716 to apply a smoothing filter.
  • a classification module 720 converts a feature description from the feature extraction module 718 into an identification of one or more pages within a document and the x,y positions within those pages where an input image patch occurs. The identification is made dependent on feedback from a database 3400 as described in turn. Further, in one or more embodiments, a confidence value may be associated with each decision. The document fingerprint matching system 610 may use such decisions to determine parameters of the other components in the system. For example, the control structure 714 may determine that if the confidences of the top two decisions are close to one another, the parameters of the image processing algorithms should be changed. This could result in increasing the range of sizes for a median filter and the carry-through of its results downstream to the rest of the components.
  • database 3400 can be external to the module 610 as shown in Figure 6. A decision about the identity of a patch can be used to query the database
  • the database comparison could also be done on the symbolic representation for the patch rather than only the image data. For example, the best decision might indicate the image patch contains a 12-point Arial font double-spaced.
  • the database comparison could locate patches in other documents with a similar font, spacing, and word layout using only textual metadata rather than image comparisons.
  • the database 3400 may support several types of content-based queries.
  • the classification module 720 can pass the database 3400 a feature arrangement and receive a list of documents and x-y locations where that arrangement occurs. For example, features might be trigrams (described below) of word lengths either horizontally or vertically.
  • the database 3400 could be organized to return a list of results in response to either type of query.
  • the classification module 720 or the control structure 714 could combine those rankings to generate a single sorted list of decisions. Further, there may be feedback between the database 3400, the classification module 720, and the control structure 714.
  • the database 3400 may store related information including a pristine image of the document as well as a symbolic representation for its graphical components. This allows the control structure 714 to modify the behavior of other system components on-the-fly. For example, if there are two plausible decisions for a given image patch, the database 3400 could indicate that they could be disambiguated by zooming out and inspecting the area to the right for the presence of an image. The control structure 714 could send the appropriate message to the capture device 106 instructing it to zoom out. The feature extraction module 718 and the classification module 720 could inspect the right side of the image for an image printed on the document .
  • the database 3400 stores detailed information about the data surrounding an image patch, given that the patch is correctly located in a document. This may be used to trigger further hardware and software image analysis steps that are not anticipated in the prior art. That detailed information is provided in one case by a print capture system that saves a detailed symbolic description of a document. In one or more other embodiments, similar information may be obtained by scanning a document. Still referring to Figure 7, a position tracking module 724 receives information about the identity of an image patch from the control structure 714. The position tracking module 724 uses that to retrieve a copy of the entire document page or a data structure describing the document from the database 3400. The initial position is an anchor for the beginning of the position tracking process.
  • the position tracking module 724 receives image data from the capture device 106 when the quality assessment module 712 decides the captured image is suitable for tracking.
  • the position tracking module 724 also has information about the time that has elapsed since the last frame was successfully recognized.
  • the position tracking module 724 applies an optical flow technique which allows it to estimate the distance over the document the capture device 106 has been moved between successive frames . Given the sampling rate of the capture device 106, its target can be estimated even though data it sees may not be recognizable.
  • the estimated position of the capture device 106 may be confirmed by comparison of its image data with the corresponding image data derived from the database document.
  • a simple example computes a cross correlation of the captured image with the expected image in the database 3400.
  • the position tracking module 724 provides for the interactive use of database images to guide the progress of the position tracking algorithm. This allows for the attachment of electronic interactions to non-text objects such as graphics and images. Further, in one or more other embodiments, such attachment may be implemented without the image comparison/confirmation step described above. In other words, by estimating the instant motion of the capture device 106 over the page, the electronic link that should be in view independent of the captured image may be estimated.
  • Figure 11 shows a document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "feed-forward" technique shown in Figure 11 processes each patch independently. It extracts features from an image patch that are used to locate one or more pages and the x-y locations on those pages where the patch occurs.
  • feature extraction for document fingerprint matching may depend on the horizontal and vertical grouping of features (e.g., words, characters, blocks) of a captured image. These groups of extracted features may then be used to look up the documents (and the patches within those documents) that contain the extracted features.
  • OCR functionality may be used to identify horizontal word pairs in a captured image.
  • Each identified horizontal word pair is then used to form a search query to database 3400 for determining all the documents that contain the identified horizontal word pair and the x-y locations of the word pair in those documents. For example, for the horizontal word pair "the, cat", the database 3400 may return (15, x, y) , (20, x, y) , indicating that the horizontal word pair "the, cat” occurs in document 15 and 20 at the indicated x-y locations. Similarly, for each vertically adjacent word pair, the database 3400 is queried for all documents containing instances of the word pair and the x-y locations of the word pair in those documents.
  • the database 3400 may return (15, x, y) , (7, x, y) , indicating that the vertically adjacent word pair "in, hat” occurs in documents 15 and 7 at the indicated x-y locations. Then, using the document and location information returned by the database 3400, a determination can be made as to which document the most location overlap occurs between the various horizontal word pairs and vertically adjacent word pairs extracted from the captured image. This may result in identifying the document which contains the captured image, in response to which presence of a hot spot and linked media may be determined.
  • Figure 12 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "interactive image analysis” technique shown in Figure 12 involves the interaction between image processing and feature extraction that may occur before an image patch is recognized.
  • the image processing module 716 may first estimate the blur in an input image.
  • the feature extraction module 718 calculates the distance from the page and point size of the image text.
  • the image processing module 716 may perform a template matching step on the image using characteristics of fonts of that point size.
  • the feature extraction module 718 may then extract character or word features from the result.
  • the fonts, point sizes, and features may be constrained by the fonts in the database 3400 documents.
  • FIG. 13 An example of interactive image analysis as described above with reference to Figure 12 is shown in Figure 13.
  • An input image patch is processed at step 1310 to estimate the font and point size of 'text in the image patch as well as its distance from the camera.
  • font estimation i.e., identification of candidates for the font of the text in the patch
  • Point size and distance estimation may be performed, for example, using the flow process described with reference to Figure 10.
  • other techniques may be used such as known methods of distance from focus that could be readily adapted to the capture device.
  • a line segmentation algorithm is applied at step 1312 that constructs a bounding box around the lines of text in the patch.
  • the height of each line image is normalized to a fixed size at step 1314 using known techniques such as proportional scaling.
  • the identity for the font detected in the image as well as its point size are passed 1324 to a collection of font prototypes 1322, where they are used to retrieve image prototypes for the characters in each named font.
  • the font database 1322 may be constructed from the font collection on a user's system that is used by the operating system and other software applications to print documents (e.g., .TrueType, OpenType, or raster fonts in Microsoft Windows) .
  • the font collection may be generated from pristine images of documents in database 3400.
  • the database 3400 xml files provide x-y bounding box coordinates that may be used to extract prototype images of characters from the pristine images.
  • the xml file identifies the name of the font and the point size of the character exactly.
  • the character prototypes in the selected fonts are size normalized at step 1320 based on a function of the parameters that were used at step 1314.
  • Image classification at step 1316 may compare the size normalized characters outputted at step 1320 to the output at step 1314 to produce a decision at each x-y location in the image patch.
  • the geometric relation-constrained database lookup can be performed as described above, but may be specialized in a case for pairs of characters instead of pairs of words.
  • a-b may indicate that the characters a and b are horizontally adjacent; "a+b” may indicate that they are vertically adjacent; "a/b” may indicate that a is southwest of b; and "a ⁇ b” may indicate a is southeast of b.
  • the geometric relations may be derived from the xi yi values of each pair of characters.
  • the MMR database 3400 may be organized so that it returns a list of document pages that contain character pairs instead of word pairs.
  • the output at step 1326 is a list of candidates that match the input image expressed as n-tuples ranked by score (documenti, pagei, xi, yi, actioni, scorei) .
  • Figure 14 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "generate and test” technique shown in Figure 14 processes each patch independently. It extracts features from an image patch that are used to locate a number of page images that could contain the given image patch. Further, in one or more embodiments, an additional extraction-classification step may be performed to rank pages by the likelihood that they contain the image patch.
  • features of a captured image may be extracted and the document patches in the database 3400 that contain the most number of these extracted features may be identified.
  • the first X document patches (“candidates") with the most matching features are then further processed.
  • the relative locations of features in the matching document patch candidate are compared with the relative locations of features in the query image.
  • a score is computed based on this comparison.
  • the highest score corresponding to the best matching document patch P is identified. If the highest score is larger than an adaptive threshold, then document patch P is found as matching to the query image.
  • the threshold is adaptive to many parameters, including, for example, the number of features extracted. In the database 3400, it is known where the document patch P comes from, and thus, the query image is determined as coming from the same location.
  • Figure 15 shows an example of a word bounding box detection algorithm.
  • An input image patch 1510 is shown after image processing that corrects for rotation. Commonly known as a skew correction algorithm, this class of technique rotates a text image so that it aligns with the horizontal axis.
  • the next step in the bounding box detection algorithm is the computation of the horizontal projection profile 1512.
  • a threshold for line detection is chosen 1516 by known adaptive thresholding or sliding window algorithms in such a way that the areas "above threshold" correspond to lines of text.
  • the areas within each line are extracted and processed in a similar fashion 1514 and 1518 to locate areas above threshold that are indicative of words within lines.
  • An example of the bounding boxes detected in one line of text is shown in 1520.
  • Various features may be extracted for comparison with document patch candidates. For example, Scale Invariant Feature Transform (SIFT) features, corner features, salient points, ascenders, and descenders, word boundaries, and spaces may be extracted for matching.
  • SIFT Scale Invariant Feature Transform
  • word boundaries One of the features that can be reliably extracted from document images is word boundaries.
  • word boundaries Once word boundaries are extracted, they may be formed into groups as shown in Figure 16. In Figure 16, for example, vertical groups are formed in such a way that a word boundary has both above and below overlapping word boundaries, and the total number of overlapping word boundaries is at least 3 (noting that the minimum number of overlapping word boundaries may differ in one or more other embodiments) .
  • a first feature point (second word box in the second line, length of 6) has two word boundaries above
  • a second feature point (fourth word box in the third line, length of 5) has two word boundaries above (lengths of 4 and 5) and two word boundaries below (lengths of 8 and 7) .
  • the indicated features are represented with the length of the middle word boundary, followed by the lengths of the above word boundaries and then by lengths of the below word boundaries .
  • the lengths of the word boxes may be based on any metric. Thus, it is possible to have alternate lengths for some word boxes. In such cases, features may be extracted containing all or some of their alternates.
  • features may be extracted such that spaces are represented with Os and word regions are represented with Is.
  • An example is shown in Figure 17.
  • the block representations on the right side correspond to word/space regions of the document patch on the left side.
  • Extracted features may be compared with various distance measures, including, for example, norms and Hamming distance.
  • hash tables may be used to identify document patches that have the same features as the query image. Once such patches are identified, angles from each feature point to other feature points may be computed as shown in Figure 18. Alternatively, angles between groups of feature points may be calculated. 1802 shows the angles 1803, 1804, and 1805 calculated from a triple of feature points. The computed angles may then be compared to the angles from each feature point to other feature points in the query image. If any angles for matching points are similar, then a similarity score may be increased.
  • a similarity score is increased. Once the scores are computed between the query image to each retrieved document patch, the document patch resulting in the highest score is selected and compared to an adaptive threshold to determine whether the match meets some predetermined criteria. If the criteria is met, then a matching document path is indicated as being found.
  • extracted features may be based on the length of words .
  • Each word is divided into estimated letters based on the word height and width.
  • a binary value is assigned to each of the estimated letters according the space information in the lines above and below.
  • the binary code is then represented with an integer number. For example, referring to Figure 19, it shows an arrangement of word boxes each representing a word detected in a captured image.
  • the word 1910 is divided into estimated letters . This feature is described with (i) the length of the word 1910, (ii) the text arrangement of the line above the word 1910, and (iii) the text arrangement of the line below the word 1910.
  • the length of the word 1910 is measured in numbers of estimated letters.
  • the text arrangement information is extracted from binary coding of the space information above or below the current estimated letter.
  • word 1910 only the last estimated letter is above a space; the second and third estimated letters are below a space. Accordingly, the feature of word 1910 is coded as (6, 100111, 111110) , where 0 means space, and 1 means no space. Rewritten in integer form, word 1910 is coded (6, 39, 62) .
  • Figure 20 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "multiple classifiers" technique shown in Figure 20 leverages the complementary information of different feature descriptions by classifying them independently and combining the results.
  • An example of this paradigm applied to text patch matching is extracting the lengths of horizontally and vertically adjacent pairs of words and computing a ranking of the patches in the database separately. More particularly, for example, in one or more embodiments, the locations of features are determined by "classifiers" attendant with the classification module 720.
  • a captured image is fingerprinted using a combination of classifiers for determining horizontal and vertical features of the captured image. This is performed in view of the observation that an image of text contains two independent sources of information as to its identity - in addition to the horizontal sequence of words, the vertical layout of the words can also be used to identity the document from which the image was extracted. For example, as shown in Figure 21, a captured image 2110 is classified by a horizontal classifier 2112 and a vertical classifier 2114.
  • Each of the classifiers 2112, 2114 takes information from a database 3400 to in turn output a ranking of those document pages to which the respective classifications may apply.
  • the multi-classifier technique shown in Figure 21 independently classifies a captured image using horizontal and vertical features .
  • the ranked lists of document pages are then combined according to a combination algorithm 2118 (examples further described below) , which in turn outputs a ranked list of document pages, the list being based on both the horizontal and vertical features of the captured image 2110.
  • the separate rankings from the horizontal classifier 2112 and the vertical classifier 2114 are combined using information about how the detected features co-occur in the database 3400.
  • FIG. 22 shows an example of how vertical layout is integrated with horizontal layout for feature extraction.
  • a captured image 2200 with word divisions is shown. From the captured image 2200, horizontal and vertical "n-grams" are determined.
  • An "n-gram” is a sequence of n numbers each describing a quantity of some characteristic. For example, a horizontal trigram specifies the number of characters in each word of a horizontal sequence of three words .
  • (b) shows horizontal trigrams : 5-8-7
  • a vertical trigram specifies the number of characters in each word of a vertical sequence of words above and below a given word.
  • (c) shows vertical trigrams: 5-7-3 (for the number of characters in each of the vertically sequenced words “upper”, “Project”, and “461") ; 8-7-3 (for the number of characters in each of the vertically sequenced words “division”, “Project”, and “461") ; 8-3-3 (for the number of characters in each of the vertically sequenced words “division”, “has”, and “and") ; 8-3-6 (for the number of characters in each of the vertically sequenced words “division”, “has”, and “permit”) ; 8-5-6 (for the number of characters in each of the vertically sequenced words “division", “begun”, and “permit”) ; 8-5-8 (for the number of characters in each of the vertically sequenced words “division”, “begun”, and “projects”) ; 7-5-6 (for the number of characters in each of the vertically sequence
  • Figure 23 shows a technique for combining the horizontal and vertical trigram information described with reference to Figure 22.
  • the technique combines the lists of votes from the horizontal and vertical feature extraction using information about the known physical location of trigrams on the original printed pages. For every document in common among the top M choices outputted by each of the horizontal and vertical classifiers, the location of every horizontal trigram that voted for the document is compared to the location of every vertical trigram that voted for that document.
  • a document receives a number of votes equal to the number of horizontal trigrams that overlap any vertical trigram, where "overlap" occurs when the bounding boxes of two trigrams overlap.
  • the x-y positions of the centers of overlaps are counted with a suitably modified version of the evidence accumulation algorithm described below with reference to 3406 of Figures 34A.
  • the lists in (a) and (b) are intersected to determine a list of pages (c) that are both referenced by horizontal and vertical trigrams .
  • lists (d) and (e) (showing only the intersected documents as referenced to by the identified trigrams) , and a printed document database 3400, an overlap of documents is determined.
  • document 6 is referenced by horizontal trigram 3-5-3 and by vertical trigram 8-3-6, and those two trigrams themselves overlap over the word "has" in the captured image 2200; thus document 6 receives one vote for the one overlap.
  • document 15 receives the most number of votes and is thus identified as the document containing the captured image 2200.
  • (xl, yl) is identified as the location of the input image within document 15.
  • Figures 22 and 23 is-particular to the use of trigrams, any n-gram may be used for one or both of horizontal and vertical feature extraction/classification.
  • classification may be based on adjacency relationships that are not strictly vertical or horizontal .
  • NW, SW, NW, and SE adjacency relationships may be used for extraction/classification.
  • Figure 24 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "database-driven feedback" technique shown in Figure 24 takes into consideration that the accuracy of a document image matching system may be improved by utilizing the images of the documents that could match the input to determine a subsequent step of image analysis in which sub-images from the pristine documents are matched to the input image.
  • the technique includes a transformation that duplicates the noise present in the input image. This may be followed by a template matching analysis.
  • Figure 25 shows a flow process for database-driven feedback in accordance with an embodiment of the present invention.
  • An input image patch is first preprocessed and recognized at steps 2510, 2512 as described above (e.g., using word OCR and word-pair lookup, character OCR and character pair lookup, word bounding box configuration) to produce a number of candidates for the identification of an image patch 2522.
  • Each candidate in this list may contain the following items (doci, pagei, xi, yi) , where doci is an identifier for a document, pagei a page within the document, and (xi, yi) is the x-y coordinates of the center of the image patch within that page.
  • a pristine patch retrieval algorithm at step 2514 normalizes the size of the entire input image patch to a fixed size optionally using knowledge of the distance from the page to ensure that it is transformed to a known spatial resolution, e.g. , 100 dpi.
  • the font size estimation algorithm described above may ⁇ be adapted to this task.
  • known distance from focus or depth from focus techniques may be used.
  • size normalization can proportionally scale the image patches based on the heights of their word bounding boxes.
  • the pristine patch retrieval algorithm queries the MMR database 3400 with the identifier for each document and page it receives together with the center of the bounding box for a patch that the MMR database will generate.
  • the extent of the generated patch depends on the size of the normalized input patch. In such a manner, patches of the same spatial resolution and dimensions may be obtained. For example, when normalized to 100 dpi, the input patch can extend 50 pixels on each side of its center. In this case, the MMR database would be instructed to generate a 100 dpi pristine patch that is 100 pixels high and wide centered at the specified x-y value.
  • Each pristine image patch returned from the MMR database 2524 may be associated with the following items (doci, pagei, xi, yi, widthi, heighti, actioni) , where (doci, pagei, xi, yi) are as described above, widthi and heighti are the width and height of the pristine patch in pixels, and actioni is an optional action that might be associated with the corresponding area in doci' s entry in the database.
  • the pristine patch retrieval algorithm outputs 2518 this list_of image patches and data 2518 together with the size normalized input patch it constructed.
  • the patch matching algorithm 2516 compares the size normalized input patch to each pristine patch and assigns a score 2520 that measures how well they match one another.
  • a simple cross correlation to a Hamming distance suffices in many cases because of the mechanisms used to ensure that sizes of the patches are comparable.
  • this process may include the introduction of noise into the pristine patch that mimics the image noise detected in the input.
  • the comparison could also be arbitrarily complex and could include a comparison of any feature set including the OCR results of the two patches and a ranking based on the number of characters, character pairs, or word pairs where the pairs could be constrained by geometric relations as before. However, in this case, the number of geometric pairs in common between the input patch and the pristine patch may be estimated and used as a ranking metric.
  • the output 2520 may be in the form of n-tuples (doci, pagei, xi, yi, actioni, scorei) , where the score is provided by the patch matching algorithm and measures how well the input patch matches the corresponding region of doci, pagei.
  • Figure 26 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "database-driven classifier" technique shown in Figure 26 uses an initial classification to generate a set of hypotheses that could contain the input image. Those hypotheses are looked up in the database 3400 and a feature extraction plus classification strategy is automatically designed for those hypotheses. An example is identifying an input patch as containing either a Times or Arial font .
  • the control structure 714 invokes a feature extractor and classifier specialized for serif/san serif discrimination.
  • Figure 27 shows a flow process for database-driven classification in accordance with an embodiment of the present invention.
  • the input image patch is classified 2712 by any one or more of the recognition methods described above to produce a ranking of documents, pages, and x-y locations within those pages.
  • Each candidate in this list may contain, for example, the following items (doci, pagei, xi, yi) , where doci is an identifier for a document, pagei a page within the document, and (xi, yi) are the x-y coordinates of the center of the image patch within that page.
  • the pristine patch retrieval algorithm 2714 described with reference to Figure 25 may be used to generate a patch image for each candidate.
  • a second feature extraction is applied to the pristine patches 2716.
  • This may differ from the first feature extraction and may include, for example, one or more of a font detection algorithm, a character recognition technique, bounding boxes, and SIFT features.
  • the features detected in each pristine patch are inputted to an automatic classifier design method 2720 that includes, for example, a neural network, support vector machine, and/or nearest neighbor classifier that are designed to classify an unknown sample as one of the pristine patches.
  • the same second feature extraction may be applied 2718 to the input image patch, and the features it detects are inputted to this newly designed classifier that may be specialized for the pristine patches.
  • the output 2724 may be in the form of n-tuples (doci, pagei, xi, yi, actioni, scorei) , where the score is provided by the classification technique 2722 that was automatically designed by 2720.
  • the score measures how well the input patch matches the corresponding region of doci, pagei.
  • Figure 28 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "database-driven multiple classifier" technique shown in Figure 28 reduces the chance of a non-recoverable error early in the recognition process by carrying multiple candidates throughout the decision process.
  • Several initial classifications are performed. Each generates a different ranking of the input patch that could be discriminated by different feature extraction and classification. For example, one of those sets might be generated by horizontal n-grams and uniquely recognized by discriminating serif from san-serif. Another example might be generated by vertical n-grams and uniquely recognized by accurate calculation of line separation.
  • Figure 29 shows a flow process for database-driven multiple classification in accordance with an embodiment of the present invention.
  • the flow process is similar to that shown in Figure 27, but it uses multiple different feature extraction algorithms 2910 and 2912 to produce independent rankings of the input image patch with the classifiers 2914 and 2916.
  • features and classification techniques include horizontal and vertical word-length n-grams described above.
  • Each classifier may produce a ranked list of patch identifications that contains at least the following items (doci, pagei, xi, yi, scorei) for each candidate, where doci is an identifier for a document, pagei a page within the document, (xi, yi) are the x-y coordinates of the center of the image patch within that page, and scorei measures how well the input patch matches the corresponding location in the database document.
  • the pristine patch retrieval algorithm described above with reference to Figure 25 may be used to produce a set of pristine image patches that correspond to the entries in the list of patch identifications in the output of 2914 and 2916.
  • the ranking combination 2922 may be performed by, for example, a known Borda count measure that assigns an item a score based on its common position in the two rankings. This may be combined with the score assigned by the individual classifiers to generate a composite score. Further, those skilled in the art will note that other methods of ranking combination may be used.
  • Figure 30 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "video sequence image accumulation" technique shown in Figure 30 constructs an image by integrating data from nearby or adjacent frames.
  • One example involves
  • super-resolution It registers N temporally adjacent frames and uses knowledge of the point spread function of the lens to perform what is essentially a sub-pixel edge enhancement. The effect is to increase the spatial resolution of the image. Further, in one or more embodiments, the super-resolution method may be specialized to emphasize text-specific features such as holes, corners, and dots. A further extension would use the characteristics of the candidate image patches, as determined from the database 3400, to specialize the super-resolution integration function.
  • Figure 31 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "video sequence feature accumulation” technique shown in Figure 31 accumulates features over a number of temporally adjacent frames prior to making a decision. This takes advantage of the high sampling rate of a capture device (e.g., 30 frames per second) and the user's intention, which keeps the capture device pointed at the same point on a document at least for several seconds. Feature extraction is performed independently on each frame and the results are combined to generate a single unified feature map. The combination process includes an implicit registration step. The need for this technique is immediately apparent on inspection of video clips of text patches. The auto-focus and contrast adjustment in the typical capture device can produce significantly different results in adjacent video frames .
  • Figure 32 shows another document fingerprint matching technique in accordance with an embodiment of the present invention.
  • the "video sequence decision combination” technique shown in Figure 32 combines decisions from a number of temporally adjacent frames. This takes advantage of the high sampling rate of a typical capture device and the user' s intention, which keeps the capture device pointed at the same point on a document at least for several seconds. Each frame is processed independently and generates its own ranked list of decisions. Those decisions are combined to generate a single unified ranking of the input image set.
  • This technique includes an implicit registration method that controls the decision combination process.
  • one or more of the various document fingerprint matching techniques described above with reference to Figures 6-32 may be used in combination with one or more known matching techniques, such combination being referred to herein as "multi-tier (or multi-factor) recognition.”
  • multi-tier recognition a first matching technique is used to locate in a document database a set of pages having specific criteria, and then a second matching technique is used to uniquely identify a patch from among the pages in the set.
  • Figure 33 shows an example of a flow process for multi-tier recognition in accordance with an embodiment of the present invention. Initially, at step 3310, a capture device 106 is used to capture/scan a "culling" feature on a document of interest.
  • the culling feature may be any feature, the capture of which effectively results in a selection of a set of documents within a document database.
  • the culling feature may be a numeric-only bar code (e.g., universal product code (UPC) ) , an alphanumeric bar code (e.g., code 39, code 93, code 128), or a 2-dimensional bar code (e.g., a QR code, PDF417, DataMatrix, Maxicode) .
  • the culling feature may be, for example, a graphic, an image, a trademark, a logo, a particular color or combination of colors, a keyword, or a phrase.
  • a culling feature may be limited to features suitable for recognition by the capture device 106.
  • a set of documents and/or pages of documents in a document database are selected based on an association with the captured culling feature. For example, if the captured culling feature is a company' s logo, all documents in the database indexed as containing that logo are selected.
  • the database may contain a library of trademarks against which captured culling images are compared. When there is a "hit" in the library, all documents associated with the hit trademark are selected for subsequent matching as described below. Further, in one or more embodiments, the selection of documents/pages at step 3312 may depend on the captured culling feature and the location of that culling feature on the scanned document.
  • information associated with the captured culling feature may specify whether that culling image is located at the upper right corner of the document as opposed to the lower left corner of the document .
  • the determination that a particular captured image contains an image of a culling feature may be made by the capture device 106 or some other component that receives raw image data from the capture device 106.
  • the database itself may determine that a particular captured image sent from the capture device 106 contains a culling feature, in response to which the database selects a set of documents associated with the captured culling feature.
  • the capture device 106 continues to scan and accordingly capture images of the document of interest.
  • the captured images of the document are then matched against the documents selected at step 3312 using one or more of the various document fingerprint matching techniques described with reference to Figures 6-32. For example, after a set of documents indexed as containing the culling feature of a shoe graphic is selected at step 3312 based on capture of a shoe graphic image on a document of interest at step 3310, subsequent captured images of the document of interest may be matched against the set of selected documents using the multiple classifiers technique as previously described.
  • patch recognition times may be decreased by initially reducing the amount of pages/documents against which subsequent captured images are matched.
  • a user may take advantage of such improved recognition times by first scanning a document over locations where there is an image, a bar code, a graphic, or other type of culling feature. By taking such action, the user may quickly reduce the amount of documents against which subsequent captured images are matched.
  • Figure 34A illustrates a functional block diagram of an MMR database system 3400 configured in accordance with one embodiment of the invention.
  • the system 3400 is configured for content-based retrieval, where two-dimensional geometric relationships between objects are represented in a way that enables look-up in a text-based index (or any other searchable indexes) .
  • the system 3400 employs evidence accumulation to enhance look-up efficiency by, for example, combining the frequency of occurrence of a feature with the likelihood of its location in a two-dimensional zone.
  • the database system 3400 is a detailed implementation of the document event database 320 (including PD index 322) , the contents of which include electronic representations of printed documents generated by a capture module 318 and/or a document fingerprint matching module 226 as discussed above with reference to Figure 3.
  • the database system 3400 includes an
  • MMR index table module 3404 that receives a description computed by the MMR feature extraction module 3402, an evidence accumulation module 3406, and a relational database 3408 (or any other suitable storage facility) .
  • the index table module 3404 interrogates an index table that identifies the documents, pages, and x-y locations within those pages where each feature occurs.
  • the index table can be generated, for example, by the MMR index table module 3404 or some other dedicated module.
  • the evidence accumulation module 3406 is programmed or otherwise configured to compute a ranked set of document, page and location hypotheses 3410 given the data from the index table module 3404.
  • the relational database 3408 can be used to store additional characteristics 3412 about each patch. Those include, but are not limited to, 504 and 508 in Figure 5.
  • FIG. 34A Another components and functionality of the database system 3400 illustrated in Figure 34A include a feedback-directed features search module 3418, a document rendering application module 3414, and a sub-image extraction module 3416. These components interact with other system 3400 components to provide a feedback-directed feature search as well as dynamic pristine image generation.
  • the system 3400 includes an action processor 3413 that receives actions. The actions determine the action performed by the database system 3400 and the output it provides. Each of these other components will be explained in turn.
  • the MMR feature extraction module 3402 is programmed or otherwise configured to employ an OCR-based technique to extract features (text or other target features) from an image patch.
  • the feature extraction module 3402 extracts the x-y locations of words in an image of a patch of text and represents those locations as the set of horizontally and vertically adjacent word-pairs it contains.
  • the image patch is effectively converted to word-pairs that are joined by a "-" if they are horizontally adjacent (e.g., the-cat, in-the, the-hat, and is-back) and a "+” if they overlap vertically (e.g., the+in, cat+the, in+is, and the+back) .
  • the x-y locations can be, for example, based on pixel counts in the x and y plane directions from some fixed point in document image (from the uppermost left corner or center of the document) . Note that the horizontally adjacent pairs in the example may occur frequently in many other text passages, while the vertically overlapping pairs will likely occur infrequently in other text passages.
  • Figure 34C illustrates an example index table organization in accordance with one embodiment of the invention.
  • the MMR index table includes an inverted term index table 3422 and a document index table 3424.
  • Each unique term or feature e.g., key 3421
  • each record identifies a candidate region on a page within a document, as will be discussed in turn.
  • key and the functional value of the key (key x) are the same.
  • a hash function is applied to key and the output of the function is key x.
  • the keys are word-pairs separated by either a "-" or a "+” as previously described (e.g., "the-cat” or "cat+the") . This technique of incorporating the geometric relationship in the key itself allows use of conventional text search technology for a two-dimensional geometric query.
  • the index table organization transforms the features detected in an image patch into textual terms that represent both the features themselves and the geometric relationship between them.
  • This allows utilization of conventional text indexing and search methods.
  • the vertically adjacent terms “cat” and “the” are represented by the symbol “cat+the” which can be referred to as a "query term” as will be apparent in light of this disclosure.
  • the utilization of conventional text search data structures and methodologies facilitate grafting of MMR techniques described herein on top of Internet text search systems (e.g., Google, Yahoo, Microsoft, etc) .
  • each record identifies a candidate region on a page within a document using six parameters: document identification (DocID) , page number (PG), x/y offset (X and Y, respectively), and width and height of rectangular zone (W and H, respectively) .
  • the DocID is a unique string generated based on the timestamp (or other metadata) when a document is printed. But it can be any string combining device ID and person ID. In any case, documents are identified by unique DocIDs, and have records that are stored in the document index table.
  • Page number is the pagination corresponding to the paper output, and starts at 1.
  • a rectangular region is parameterized by the X-Y coordinates of the upper-left corner, as well as the width and height of the bounding box in normalized coordinate system. Numerous inner-document location/coordinate schemes will be apparent in light of this disclosure, and the present invention is not intended to be limited any particular one.
  • An example record structure configured in accordance with one embodiment of the present invention uses a 24-bit DocID and an 8-bit page number, allowing up to 16 million documents and 4 billion pages.
  • One unsigned byte for each X and Y offset of the bounding box provide a spatial resolution of 30dpi horizontal and 23dpi vertical (assuming an 8.5" by 11" page, although other page sizes and/or spatial resolutions can be used) .
  • Similar treatment for the width and height of the bounding box e.g. , one unsigned byte for each W and H
  • the document index table 3424 includes relevant information about each document.
  • this information includes the document-related fields in the XML file, including print resolution, print date, paper size, shadow file name, page image location, etc. Since print coordinates are converted to a normalized coordinate system when indexing a document, computing search hypotheses does not involve this table . Thus, document index table 3424 is only consulted for matched candidate regions. However, this decision does imply some loss of information in the index because the normalized coordinate is usually at a lower resolution than the print resolution.
  • Alternative embodiments may use the document index table 3424 (or a higher resolution for the normalized coordinate) when computing search hypotheses, if so desired.
  • the index table module 3404 operates to effectively provide an image index that enables content-based retrieval of objects (e.g., document pages) and x-y locations within those objects where a given image query occurs.
  • the combination of such an image index and relational database 3408 allows for the location of objects that match an image patch and characteristics of the patch (e.g., such as the "actions" attached to the patch, or bar codes that can be scanned to cause retrieval of other content related to the patch) .
  • the relational database 3408 also provides a means for "reverse links" from a patch to the features in the index table for other patches in the document.
  • Reverse links provide a way to find the features a recognition algorithm would expect to see as it moves from one part of a document image to another, which may significantly improve the performance of the front-end image analysis algorithms in an MMR system as discussed herein.
  • Feedback-Directed Feature Search The x-y coordinates of the image patch (e.g., x-y coordinates for the center of the image patch) as well as the identification of the document and page can also be input to the feedback-directed feature search module 3418.
  • the feedback-directed feature search module 3418 searches the term index table 3422 for records 3423 that occur within a given distance from the center of the image patch.
  • This search can be facilitated, for example, by storing the records 3423 for each DocID-PG combination in contiguous blocks of memory sorted in order of X or Y value.
  • a lookup is performed by binary search for a given value (X or Y depending on how the data was sorted when stored) and serially searching from that location for all the records with a given X and Y value.
  • this would include x-y coordinates in an M-inch ring around the outside of a patch that measures W inches wide and H inches high in the given document and page. Records that occur in this ring are located and their keys or features 3421 are located by tracing back pointers.
  • the list of features and their x-y locations in the ring are reported as shown at 3417 of Figure 34A.
  • the values of W, H, and M shown at 3415 can be set dynamically by the recognition system based on the size of the input image so that the features 3417 are outside the input image patch.
  • Such characteristics of the image database system 3400 are useful, for example, for disambiguating multiple hypotheses. If the database system 3400 reports more than one document could match the input image patch, the features in the rings around the patches would allow the recognition system (e.g., fingerprint matching module 226 or other suitable recognition system) to decide which document best matches the document the user is holding by directing the user to slightly move the image capture device in the direction that would disambiguate the decision. For example (assume OCR-based features are used, although the concept extends to any geometrically indexed feature set) , an image patch in document A might be directly below the word-pair "blue-xylophone.” The image patch in document B might be directly below the word-pair "blue-thunderbird.
  • the recognition system e.g., fingerprint matching module 226 or other suitable recognition system
  • the database system 3400 would report the expected locations of these features and the recognition system could instruct the user (e.g., via a user interface) to move the camera up by the amount indicated by the difference in y coordinates of the features and top of the patch.
  • the recognition system could compute the features in that difference area and use the features from documents A and B to determine which matches best.
  • the recognition system could post-process the OCR results from the difference area with the "dictionary" of features comprised of (xylophone, thunderbird) .
  • the word that best matches the OCR results corresponds to the document that best matches the input image.
  • Examples of post-processing algorithms include commonly known spelling correction techniques (such as those used by word processor and email applications) .
  • the database system 3400 design allows the recognition system to disambiguate multiple candidates in an efficient manner by matching feature descriptions in a way that avoids the need to do further database accesses.
  • An alternative solution would be to process each image independently.
  • the x-y coordinates for the location the image patch (e.g., x-y coordinates for the center of the image patch) as well as the identification of the document and page can also be input to the relational database 3408 where they can be used to retrieve the stored electronic original for that document and page. That document can then be rendered by the document rendering application module 3414 as a bitmap image. Also, an additional "box size" value provided by module 3414 is used by the sub-image extraction module 3416 to extract a portion of the bitmap around the center.
  • This bitmap is a "pristine" representation for the expected appearance of the image patch and it contains an exact representation for all features that should be present in the input image. The pristine patch can then be returned as a patch characteristic 3412.
  • This solution overcomes the excessive storage required of prior techniques that store image bitmaps by storing a compact non-image representation that can subsequently be converted to bitmap data on demand.
  • Such as storage scheme is advantageous since it « enables the use of a hypothesize-and-test recognition strategy in which a feature representation extracted from an image is used to retrieve a set of candidates that is disambiguated by a detailed feature analysis. Often, it is not possible to predict the features that will optimally disambiguate an arbitrary set of candidates and it is desirable that this be determined from the original images of those candidates. For example, an image of the word-pair "the cat" could be located in two database documents, one of which was originally printed in a Times Roman font and the other in a Helvetica font. Simply determining whether the input image contains one of these fonts would identify the correctly matching database document. Comparing the pristine patches for those documents to the input image patch with a template matching comparison metric like the Euclidean distance would identify the correct candidate.
  • An example includes a relational database 3408 that stores Microsoft Word ".doc" files (a similar methodology works for other document formats such as postscript, PCL, pdf., or Microsoft's XML paper specification XPS, or other such formats that can be converted to a bitmap by a rendering application such as ghostscript or in the case of XPS, Microsoft' s Internet Explorer with the WinFX components installed) .
  • a rendering application such as ghostscript or in the case of XPS, Microsoft' s Internet Explorer with the WinFX components installed
  • pristine patches can be used to determine whether two databases return the same document or which database returned the candidate that better matches the input.
  • the pristine patches will be almost exactly the same. This can be determined by comparing the pristine patches to one another, for example, with a Hamming distance that counts the number of pixels that are different. The Hamming distance will be zero if the original documents are exactly the same pixel-for-pixel . The Hamming distance will be slightly greater than zero if the patches are slightly different as might be caused by minor font differences. This can cause a "halo" effect around the edges of characters when the image difference in the Hamming operator is computed. Font differences like this can be caused by different versions of the original rendering application, different versions of the operating system on the server that runs the database, different printer drivers, or different font collections.
  • the pristine patch comparison algorithm can be performed on patches from more than one x-y location in two documents. They should all be the same, but a sampling procedure like this would allow for redundancy that could overcome rendering differences between database systems. For example, one font might appear radically different when rendered on the two systems but another font might be exactly the same.
  • the pristine patches could be compared to the input image by a pixel based comparison metric such as Hamming distance to determine which is correct.
  • An alternative strategy for comparing results from more than one database is to compare the contents of accumulator arrays that measure the geometric distribution of features in the documents reported by each database. It is desirable that this accumulator be provided directly by the database to avoid the need to perform a separate lookup of the original feature set. Also, this accumulator should be independent of the contents of the database system 3400.
  • an activity array 3420 is exported. Two Activity arrays can be compared by measuring the internal distribution of their values.
  • the activity arrays 3420 from each database will be almost exactly the same. This can be determined by comparing the arrays to one another, for example, with a Hamming distance that counts the number of pixels that are different. The Hamming distance will be zero if the original documents are exactly the same. If two or more databases return different documents as their best match for the input features, their activity arrays 3420 can be compared to determine which document "best" matches the input image. An Activity array that correctly matches an image patch will contain a cluster of high values approximately centered on the location where the patch occurs.
  • An Activity array that incorrectly matches an image patch will contain randomly distributed values.
  • Such algorithms can be applied to an activity array 3420 to obtain a measure that indicates the presence of a cluster.
  • the entropy of an activity array 3420 that contains a cluster corresponding to an image patch will be significantly different from the entropy of an activity array 3420 whose values are randomly distributed.
  • an individual client 106 might at any time have access to multiple databases 3400 whose contents are not necessarily in conflict with one another.
  • a corporation might have both publicly accessible patches and ones private to the corporation that each refer to a single document.
  • a client device 106 would maintain a list of databases Dl, D2, D3 ..., which are consulted in order, and produce combined activity arrays 3420 and identifiers 3410 into a unified display for the user.
  • a given client device 106 might display the patches available from all databases, or allow a user to choose a subset of the databases (only Dl, D3, and D7, for example) and only show patches from those databases.
  • Databases might be added to the list by subscribing to a service, or be made available wirelessly when a client device 106 is in a certain location, or because the database is one of several which have been loaded onto client device 106, or because a certain user has been authenticated to be currently using the device, or even because the device is operating in a certain mode. For example, some databases might be available because a particular client device has its audio speaker turned on or off, or because a peripheral device like a video projector is currently attached to the client. Actions
  • the MMR database 3400 receives an action together with a set of features from the MMR feature extraction module 3402.
  • Actions specify commands and parameters .
  • the command and its parameters determine the patch characteristics that are returned 3412.
  • Actions are received in a format including, for example, http that can be easily translated into text.
  • the action processor 3413 receives the identification for a document, page and x-y location within a page determined by the evidence accumulation module 3406. It also receives a command and its parameters.
  • the action processor 3413 is programmed or otherwise configured to transform the command into instructions that either retrieve or store data using the relational database 3408 at a location that corresponds with the given document, page and x-y location.
  • commands include: RETRIEVE,
  • RETRIEVE - retrieve data linked to the x-y location in the given document page.
  • the action processor 3413 transforms the RETRIEVE command to the relational database query that retrieves data that might be stored nearby this x-y location. This can require the issuance of more than one database query to search the area surrounding the x-y location.
  • the retrieved data is output as patch characteristics 3412.
  • An example application of the RETRIEVE command is a multimedia browsing application that retrieves video clips or dynamic information objects (e.g., electronic addresses where current information can be retrieved) .
  • the retrieved data can include menus that specify subsequent steps to be performed on the MMR device. It could also be static data that could be displayed on a phone (or other display device) such as JPEG images or video clips. Parameters can be provided to the RETRIEVE command that determine the area searched for patch characteristics
  • INSERT_TO ⁇ DATA> insert ⁇ DATA> at the x-y location specified by the image patch.
  • the action processor 3413 transforms the INSERT_TO command to an instruction for the relational database that adds data to the specified x-y location.
  • An acknowledgement of the successful completion of the INSERT_TO command is returned as patch characteristics 3412.
  • An example application of the INSERT_TO command is a software application on the MMR device that allows a user to attach data to an arbitrary x-y location in a passage of text.
  • the data can be static multimedia such as JPEG images, video clips, or audio files, but it can also be arbitrary electronic data such as menus that specify actions associated with the given location.
  • RETRIEVE_TEXT ⁇ RADIUS> retrieve text within
  • ⁇ RADIUS> of the x-y location determined by the image patch.
  • the ⁇ RADIUS> can be specified, for example, as a number of pixels in image space or it can be specified as a number of characters of words around the x-y location determined by the evidence accumulation module 3406.
  • ⁇ RADIUS> can also refer to parsed text objects.
  • the action processor 3413 transforms the RETRIEVEJTEXT command into a relational database query that retrieves the appropriate text. If the ⁇ RADIUS> specifies parsed text objects, the Action Processor only returns parsed text objects. If a parsed text object is not located nearby the specified x-y location, the Action Processor returns a null indication.
  • the Action Processor calls the Feedback-Directed Features Search module to retrieve the text that occurs within a radius of the given x-y location.
  • the text string is returned as patch characteristics 3412.
  • Optional data associated with each word in the text string includes its x-y bounding box in the original document.
  • An example application of the RETRIEVE_TEXT command is choosing text phrases from a printed document for inclusion in another document. This could be used, for example, for composing a presentation file (e.g., in PowerPoint format) on the MMR system.
  • TRANSFER ⁇ AMOUNT> retrieve the entire document and some of the data linked to it in a form that could be loaded into another database.
  • ⁇ AMOUNT> specifies the number and type of data that is retrieved. If ⁇ AMOUNT> is ALL, the action processor 3413 issues a command to the database 3408 that retrieves all the data associated with a document. Examples of such a command include DUMP or Unix TAR.
  • ⁇ AMOUNT> is SOURCE, the original source file for the document is retrieved. For example, this could retrieve the Word file for a printed document.
  • ⁇ AMOUNT> is BITMAP the JPEG-compressed version (or other commonly used formats) of the bitmap for the printed document is retrieved.
  • ⁇ AMOUNT> is PDF
  • the PDF representation for the document is retrieved.
  • the retrieved data is output as patch characteristics 3412 in a format known to the calling application by virtue of the command name.
  • An example application of the TRANSFER command is a "document grabber" that allows a user to transfer the PDF representation for a document to an MMR device by imaging a small area of text.
  • PURCHASE - retrieve a product specification linked to an x-y location in a document.
  • the action processor 3413 first performs a series of one or more RETRIEVE commands to obtain product specifications nearby a given x-y location.
  • a product specification includes, for example, a vendor name, identification for a product (e.g., stock number) , and electronic address for the vendor.
  • Product specifications are retrieved in preference to other data types that might be located nearby. For example, if a jpeg is stored at the x-y location determined by the image patch, the next closest product specification is retrieved instead.
  • the retrieved product specification is output as patch characteristics 3412.
  • An example application of the PURCHASE command is associated with advertising in a printed document.
  • a software application on the MMR device receives the product specification associated with the advertising and adds the user' s personal identifying information (e.g., name, shipping address, credit card number, etc.) before sending it to the specified vendor at the specified electronic address.
  • RADIUS can specify a circular radius but it can also specify a rectangular patch (e.g., 2 inches high by 3 inches wide) . It can also specify the entire document page.
  • the (DocID, PG, x, y) information can be supplied explicitly as part of the action or it could be derived from an image of a text patch.
  • the action processor 3413 retrieves an original representation for a document from the relational database 3408. That representation can be a bitmap but it can also be a renderable electronic document.
  • the original representation is passed to the document rendering application 3414 where it is converted to a bitmap (with resolution provided in parameter DPI as dots per inch) and then provided to sub-image extraction 3416 where the desired patch is extracted.
  • the patch image is returned as patch characteristics 3412.
  • ACCESS_DATABASE ⁇ DBID> add the database 3400 to the database list of client 106. Client can now consult this database 300 in addition to any existing databases currently in the list.
  • DBID specifies either a file or remote network reference to the specified database.
  • Figure 35 illustrates a method 3500 for generating an MMR index table in accordance with an embodiment of the present invention.
  • the method can be carried out, for example, by database system 3400 of Figure 34A.
  • the MMR index table is generated, for example, by the MMR index table module 3404 (or some other dedicated module) from a scanned or printed document.
  • the generating module can be implemented in software, hardware (e.g., gate-level logic), firmware (e.g., a microcontroller configured with embedded routines for carrying out the method, or some combination thereof, just as other modules described herein.
  • the method includes receiving 3510 a paper document.
  • the paper document can be any document, such as a memo having any number of pages (e.g., work-related, personal letter), a product label (e.g., canned goods, medicine, boxed electronic device), a product specification (e.g., snow blower, computer system, manufacturing system) , a product brochure or advertising materials (e.g., automobile, boat, vacation resort), service description materials (e.g., Internet service providers, cleaning services) , one or more pages from a book, magazine or other such publication, pages printed from a website, hand-written notes, notes captured and printed from a white-board, or pages printed from any processing system (e.g., desktop or portable computer, camera, smartphone, remote terminal) .
  • a processing system e.g., desktop or portable computer, camera, smartphone, remote terminal
  • the method continues with generating 3512 an electronic representation of the paper document, the representation including x-y locations of features shown in the document.
  • the target features can be, for instance, individual words, letters, and/or characters within the document.
  • the original document is scanned, it is first OCR'd and the words (or other target feature) and their x-y locations are extracted (e.g., by operation of document fingerprint matching module 226' of scanner 127) .
  • the indexing process receives a precise representation (e.g., by operation of print driver 316 of printer 116) in XML format of the font, point size, and x-y bounding box of every character (or other target feature) .
  • index table generation begins at step 3514 since an electronic document is received with precisely identified x-y feature locations (e.g., from print driver 316) .
  • Formats other than XML will be apparent in light of this disclosure.
  • Electronic documents such as Microsoft Word, Adobe Acrobat, and postscript can be entered in the database by "printing" them to a print driver whose output is directed to a file so that paper is not necessarily generated. This triggers the production of the XML file structure shown below.
  • the XML as well as the original document format are assigned an identifier (doc i for the ith document added to the database) and stored in the relational database 3408 in a way that enables their later retrieval by that identifier but also based on other "meta data" characteristics of the document including the time it was captured, the date printed, the application that triggered the print, the name of the output file, etc.
  • a word may contain any characters from a-z, A-Z, 0-9, and any of @%$#; all else is a delimiter.
  • the original description of the . xml file can be created by print capture software used by the indexing process (e.g., which executes on a server, such as database 320 server) .
  • the actual format is constantly evolving and contains more elements, as new documents are acquired by the system.
  • the original sequence of text received by the print driver (e.g., print driver 316) is preserved and a logical word structure is imposed based on punctuation marks, except for
  • the index table module 3404 uses the XML file as input, and first tries to group sequences into logical lines by checking the amount of vertical overlap between two consecutive sequences.
  • the heuristic that a line break occurred is used if two sequences overlap by less than half of their average height.
  • Such a heuristic works well for typical text documents (e.g., Microsoft Word documents) .
  • additional geometrical analysis may be needed. However, it is not necessary to extract perfect semantic document structures as long as consistent indexing terms can be generated as by the querying process.
  • this step includes indexing the location of every pair of horizontally and vertically adjacent words on every page of the paper document.
  • horizontally adjacent words are pairs of neighboring words within a line.
  • Vertically adjacent words are words in neighboring lines that vertically align. Other multi-dimensional aspects of the a page can be similarly exploited.
  • the method further includes storing 3516 patch characteristics associated with each target feature.
  • the patch characteristics include actions attached to the patch, and are stored in a relational database.
  • the characteristics can be any data related to the path, such as metadata.
  • the characteristics can also include, for example, actions that will carry out a specific function, links that can be selected to provide access to other content related to the patch, and/or bar codes that can be scanned or otherwise processed to cause retrieval of other content related to the patch.
  • search term generation where only a fragment of the line structure is observed.
  • a query term is formed by concatenating the words with a "-" separator. Vertical pairs are concatenated using a "+".
  • the words can be used in their original form to preserve capitalization if so desired (this creates more unique terms but also produces a larger index with additional query issues to consider such as case sensitivity) .
  • the indexing scheme allows the same search strategy to be applied on either horizontal or vertical word-pairs, or a combination of both.
  • the discriminating power of terms is accounted for by the inverse document frequency for any of the cases.
  • FIG 36 illustrates a method 3600 for computing a ranked set of document, page, and location hypotheses for a target document, in accordance with one embodiment of the present invention.
  • the method can be carried out, for example, by database system 3400 of Figure 34A.
  • the evidence accumulation module 3406 computes hypotheses using data from the index table module 3404 as previously discussed.
  • the method begins with receiving 3610 a target document image, such as an image patch of a larger document image or an entire document image .
  • the method continues with generating 3612 one or more query terms that capture two-dimensional relationships between objects in the target document image.
  • the query terms are generated by a feature extraction process that produces horizontal and vertical word-pairs, as previously discussed with reference to Figure 34B.
  • any number of feature extraction processes as described herein can be used to generate query terms that capture two-dimensional relationships between objects in the target image, as will be apparent in light of this disclosure.
  • the same feature extraction techniques used to build the index of method 3500 can be used to generate the query terms, such as those discussed with reference to step 3512 (generating an electronic representation of a paper document) .
  • each query term individually (e.g. , a single query term that represents both horizontal and vertical objects in the target document) or as a set of search terms (e.g., a first query term that is a horizontal word-pair and a second query term that is a vertical word-pair) .
  • the method continues with looking-up 3614 each query term in a term index table 3422 to retrieve a list of locations associated with each query term. For each location, the method continues with generating 3616 a number of regions containing the location. After all queries are processed, the method further includes identifying 3618 a region that is most consistent with all query terms. In one such embodiment, a score for every candidate region is incremented by a weight (e.g., based on how consistent each region is with all query terms) . The method continues with determining 3620 if the identified region satisfies a pre-defined matching criteria (e.g., based on a pre-defined matching threshold) .
  • a pre-defined matching criteria e.g., based on a pre-defined matching threshold
  • Word-pairs are stored in the term index table 3422 with locations in a "normalized" coordinate space. This provides uniformity between different printer and scanner resolutions . In one particular embodiment, an 85x110 coordinate space is used for 8.5" by 11" pages. In such a case, every word-pair is identified by its location in this 85x110 space.
  • the first step includes locating the page that most likely contains the input image patch.
  • the second step includes calculating the x-y location within that page that is most likely the center of the patch.
  • Such an approach does introduce the possibility that the true best match may be missed in the first step.
  • a sparse indexing space such a possibility is rare.
  • the algorithm operates to locate the cell in the 85x110 space that is most likely the center of the input image patch. In the embodiment shown here, the algorithm does this by adding a weight to the cells in a fixed area around each word-pair (called a zone) .
  • the extent function is given an x, y pair and it returns the minimum and maximum values for a surrounding fixed size region (1.5" high and 2" wide are typical) .
  • the extent function takes care of boundary conditions and makes sure the values it returns do not fall outside the accumulator (i.e. , less than zero or greater than 85 in x or 110 in y) .
  • the maxdist function finds the maximum Euclidean distance between two points in a bounding box described by the bounding box coordinates (minx, maxx, miny, maxy) .
  • a weight is calculated for each cell within the zone that is determined by product of the inverse document frequency of the word-pair and the normalized geometric distance between the cell and the center of the zone. This weights cells closer to the center higher than cells further away.
  • the Accum2 array is searched for the cell with the maximum value. If that exceeds a threshold, its coordinates are reported as the location of the image patch.
  • the Activity array stores the accumulated normjdist values.
  • the Euclidean distance between the word-pair' s location and the center of the zone is calculated and the difference between this and the maximum distance that could have been calculated is returned.
  • the Accum2 array is searched for the cell with the maximum value. If that value exceeds a pre-defined threshold, its coordinates are reported as the location of the center of the image patch.
  • Figure 37A illustrates a functional block diagram
  • the primary MMR components include a computer 3705 with an associated printer 116 and/or a shared document annotation (SDA) server 3755.
  • SDA shared document annotation
  • the computer 3705 is any standard desktop, laptop, or networked computer, as is known in the art.
  • the computer is MMR computer 112 as described in reference to
  • User printer 116 is any standard home, office, or commercial printer, as described herein.
  • User printer 116 produces printed document 118, which is a paper document that is formed of one or more printed pages.
  • the SDA server 3755 is a standard networked or centralized computer that holds information, applications, and/or a variety of files associated with a method of shared annotation. For example, shared annotations associated with web pages or other documents are stored at the SDA server 3755. In this example, the annotations are data or interactions used in MMR as described herein.
  • the SDA server 3755 is accessible via a network connection according to one embodiment. In one embodiment, the SDA server 3755 is the networked media server 114 described in reference to Figure IB.
  • the computer 3705 further comprises a variety of components, some or all of which are optional according to various embodiments.
  • the computer 3705 comprises source files 3710, browser 3715, plug-in 3720, symbolic hotspot description 3725, modified files 3730, capture module 3735, page_desc. xml 3740, hotspot. xml 3745, data store 3750, SDA server 3755, and MMR printer software 3760.
  • Source files 3710 are representative of any source files that are an electronic representation of a document.
  • Example source files 3710 include hypertext markup language (HTML) files, Microsoft® Word® files, Microsoft® PowerPoint® files, simple text files, portable document format (PDF) files, and the like.
  • HTML hypertext markup language
  • PDF portable document format
  • Browser 3715 is an application that provides access to data that has been associated with source files 3710.
  • the browser 3715 may be used to retrieve web pages and/or documents from the source files 3710.
  • browser 3715 is an SD browser 312, 314, as described in reference to Figure 3.
  • the browser 3715 is an Internet browser such as Internet Explorer.
  • Plug-in 3720 is a software application that provides an authoring function.
  • Plug-in 3720 is a standalone software application or, alternatively, a plug-in running on browser 3715.
  • plug-in 3720 is a computer program that interacts with an application, such as browser 3715, to provide the specific functionality described herein.
  • the plug-in 3720 performs various transformations and other modifications to documents or web pages displayed in the browser 3715 according to various embodiments.
  • plug-in 3720 surrounds hotspot designations with an individually distinguishable fiducial marks to create hotspots and returns "marked-up" versions of HTML files to the browser 3715, applies a transformation rule to a portion of a document displayed in the browser 3715, and retrieves and/or receives shared annotations to documents displayed in the browser 3715.
  • plug-in 3720 may perform other functions, such as creating modified documents and creating symbolic hotspot descriptions 3725 as described herein.
  • Plug-in 3720 in reference to capture module 3735, facilitates the methods described in reference to Figures 38, 44, 45, 48, and 5OA-B.
  • Symbolic hotspot description 3725 is a file that identifies a hotspot within a document. Symbolic hotspot description 3725 identifies the hotspot number and content. In this example, symbolic hotspot description 3725 is stored to data store 3750. An example of a symbolic hotspot description is shown in greater detail in Figure 41.
  • Modified files 3730 are documents and web pages created as a result of the modifications and transformations of source files 3710 by plug-in 3720. For example, a marked-up HTML file as noted above is an example of a modified file 3730. Modified files 3730 are returned to browser 3715 for display to the user, in certain instances as will be apparent in light of this disclosure.
  • Capture module 3735 is a software application that performs a feature extraction and/or coordinate capture on the printed representation of documents, so that the layout of characters and graphics on the printed pages can be retrieved.
  • the layout i.e., the two-dimensional arrangement of text on the printed page, may be captured automatically at the time of printing.
  • capture module 3735 executes all the text and drawing print commands and, in addition, intercepts and records the x-y coordinates and other characteristics of every character and/or image in the printed representation.
  • capture module 3735 is a Printcapture DLL as described herein, a forwarding Dynamically Linked Library (DLL) that allows addition or modification of the functionality of an existing DLL.
  • DLL Dynamically Linked Library
  • capture module 3735 is coupled to the output of browser 3715 for capture of data.
  • the functions of capture module 3735 may be implemented directly within a printer driver.
  • capture module 3735 is equivalent to PD capture module 318, as described in reference to Figure 3.
  • Page_desc. xml 3740 is an extensible markup language
  • the page_desc.xml 3740 includes coordinate information for a document for all printed text by word and by character, as well as hotspot information, printer port name, browser name, date and time of printing, and dots per inch (dpi) and resolution (res) information.
  • page_desc.xml 3740 is stored, e.g., in data store 3750.
  • Data store 3750 is equivalent to MMR database 3400 described with reference to Figure 34A.
  • Figures 42A-B illustrate in greater detail an example of a page desc.xml 3740 for an HTML file.
  • hotspot, xml 3745 is an XML file that is created when a document is printed (e.g., by operation of print driver 316, as previously discussed) .
  • hotspot.xml is the result of merging symbolic hotspot description 3725 and page_desc.xml 3740.
  • hotspot.xml includes hotspot identifier information such as hotspot number, coordinate information, dimension information, and the content of the hotspot.
  • An example of a hotspot.xml file is illustrated in Figure 43.
  • Data store 3750 is any database known in the art for storing files, modified for use with the methods described herein.
  • data store 3750 stores source files 3710, symbolic hotspot description 3725, page_desc.xml 3740, rendered page layouts, shared annotations, imaged documents, hot spot definitions, and feature representations.
  • data store 3750 is equivalent to document event database 320 as described with reference to Figure 3 and to database system 3400 as described with reference to Figure 34A.
  • MMR printing software 3760 is the software that facilitates the MMR printing operations described herein, for example as performed by the components of computer ' 3705 as previously described. MMR printing software 3760 is described below in greater detail with reference to Figure 37B.
  • FIG 37B illustrates a set of software components included MMR printing software 3760 in accordance with one embodiment of the invention. It should be understood that all or some of the MMR printing software 3760 may be included in the computer 112, 905, the capture device 106, the networked media server 114 and other servers as described herein. While the MMR printing software 3760 will now be described as including these different components, those skilled in the art will recognize that the MMR printing software 3760 could have any number of these components from one to all of them.
  • the MMR printing software 3760 includes a conversion module 3765, an embed module 3768, a parse module 3770, a transform module 3775, a feature extraction module 3778, an annotation module 3780, a hotspot module 3785, a render/display module 3790, and a storage module 3795.
  • Conversion module 3765 enables conversion of a source document into an imaged document from which a feature representation can be extracted, and is one means for so doing.
  • Embed module 3768 enables embedding of marks corresponding to a designation for a hot spot in an electronic document, and is one means for so doing.
  • the embedded marks indicate a beginning point for the hot spot and an ending point for the hotspot.
  • a pre-define area around an embodiment mark can be used to identify a hot spot in an electronic document.
  • Various such marking schemes can be used.
  • Parse module 3770 enables parsing an electronic document (that has been sent to the printer) for a mark indicating a beginning point for a hotspot, and is one means for so doing.
  • Transformation module 3775 enables application of a transformation rule to a portion of an electronic document, and is one means for so doing.
  • the portion is a stream of characters between a mark indicating a beginning point for a hotspot and a mark indicating an ending point for the hotspot.
  • Feature extraction module 3778 enables the extraction of features and capture of coordinates corresponding to a printed representation of a document and a hot spot, and is one means for so doing. Coordinate capture includes tapping print commands using a forwarding dynamically linked library and parsing the printed representation for a subset of the coordinates corresponding to a hot spot or transformed characters. Feature extraction module 3778 enables the functionality of capture module
  • Annotation module 3780 enables receiving shared annotations and their accompanying designations of portions of a document associated with the shared annotations, and is one means for so doing.
  • Receiving shared annotations includes receiving annotations from end users and from a SDA server.
  • Hotspot module 3785 enables association of one or more clips with one or more hotspots, and is one means for so doing.
  • Hotspot module 3785 also enables formulation of a hotspot definition by first designating a location for a hotspot within a document and defining a clip to associate with the hotspot.
  • Render/display module 3790 enables a document or a printed representation of a document to be rendered or displayed, and is one means for so doing.
  • Storage module 3795 enables storage of various files, including a page layout, an imaged document, a hotspot definition, and a feature representation, and is one means for so doing.
  • the software portions 3765-3795 need not be discrete software modules.
  • the software configuration shown is meant only by way of example; other configurations are contemplated by and within the scope of the present invention, as will be apparent in light of this disclosure.
  • Figure 38 illustrates a flowchart of a method of embedding a hot spot in a document in accordance with one embodiment of the present invention.
  • marks are embedded 3810 in a document corresponding to a designation for a hotspot within the document.
  • a document including a hotspot designation location is received for display in a browser, e.g., a document is received at browser 3715 from source files 3710.
  • a hot spot includes some text or other document objects such as graphics or photos, as well as electronic data.
  • the electronic data can include multimedia such as audio or video, or it can be a set of steps that will be performed on a capture device when the hot spot is accessed.
  • the browser 3715 may be Internet Explorer, and the designations may be Uniform Resource Locators (URLs) within the HTML file.
  • Figure 39A illustrates an example of such an HTML file 3910 with a URL 3920.
  • Figure 4OA illustrates the text of HTML file 3910 of Figure 39A as displayed in a browser 4010, e.g., Internet Explorer.
  • a plug-in 3720 to the browser 3715 surrounds each hotspot designation location with an individually distinguishable fiducial mark to create the hotspot.
  • the plug-in 3720 modifies the document displayed in the browser 3715, e.g., HTML displayed in Internet Explorer continuing the example above, and inserts marks, or tags, that bracket the hotspot designation location (e.g., URL) .
  • the marks are imperceptible to the end user viewing the document either in the browser 3715 or a printed version of the document, but can be detected in print commands.
  • a new font referred to herein as MMR Courier New, is used for adding the beginning and ending fiducial marks.
  • MMR Courier New font the typical glyph or dot pattern representation for the characters "b,” "e,” and the digits are represented by an empty space.
  • the plug-in 3720 embeds 3810 the fiducial mark "b ⁇ " at the beginning of the URL ("here") and the fiducial mark "e ⁇ ”at the end of the URL, to indicate the hotspot with identifier " ⁇ .” Since the b, e, and digit characters are shown as spaces, the user sees little or no change in the appearance of the document.
  • the plug-in 3720 creates a symbolic hotspot description 3725 indicating these marks, as shown in Figure 41.
  • the symbolic hotspot description 3725 identifies the hotspot number as zero 4120, which corresponds to the 0 in the "b ⁇ " and "e ⁇ " fiducial markers.
  • the symbolic hotspot description 3725 is stored, e.g., to data store 3750.
  • the plug-in 3720 returns a "marked-up" version of the HTML 3950 to the browser 3715, as shown in Figure 39B.
  • the marked-up HTML 3950 surrounds the fiducial marks with span tags 3960 that change the font to 1-point MMR Courier New. Since the b, e, and digit characters are shown as spaces, the user sees little or no change in the appearance of the document.
  • the marked-up HTML 3950 is an example of a modified file 3730. This example uses a single page model for simplicity, however, multiple page models use the same parameters.
  • a hotspot spans a page boundary, it would have fiducial marks corresponding to each page location, the hotspot identifier for each is the same.
  • coordinates corresponding the printed representation and the hot spot are captured 3820.
  • a capture module 3735 "taps" text and drawing commands within a print command. The capture module 3735 executes all the text and drawing commands and, in addition, intercepts and records the x-y coordinates and other characteristics of every character and/or image in the printed representation.
  • the capture module 3735 references the Device Context (DC) for the printed representation, which is a handle to the structure of the printed representation that defines the attributes of text and/or images to be output dependent upon the output format (i.e., printer, window, file format, memory buffer, etc.) .
  • DC Device Context
  • the hotspots are easily identified using the embedded fiducial marks in the HTML. For example, when the begin mark is encountered, the x-y location if recorded of all characters until the end mark is found.
  • the capture module 3735 is a forwarding DLL, referred to herein as "Printcapture DLL,” which allows addition or modification of the functionality of an existing DLL. Forwarding DLLs appear to the client exactly as the original DLL, however, additional code (a "tap") is added to some or all of the functions before the call is forwarded to the target (original) DLL.
  • the Printcapture DLL is a forwarding DLL for the Windows Graphics Device Interface (Windows GDI) DLL gdi32.dll. gdi32.dll has over 600 exported functions, all of which need to be forwarded.
  • the Printcapture DLL allows the client to capture printouts from any Windows application that uses the DLL gdi32.dll for drawing, and it only needs to execute on the local computer, even if printing to a remote server.
  • gdi32_mmr.dll is renamed as gdi32.dll and copied into C: ⁇ Windows ⁇ system32, causing it to monitor printing from nearly every Windows application.
  • gdi32_mmr.dll is named gdi32.dll and copied it into the home directory of the application for which printing is monitored.
  • FIG. 44 illustrates a flowchart of the process used by a forwarding DLL in accordance with one embodiment of the present invention.
  • the Printcapture DLL gdi32_mmr.dll first receives 4405 a function call directed to gdi32.dll.
  • gdi32_mmr.dll receives all function calls directed to gdi32.dll.
  • gdi32.dll monitors approximately 200 of about 600 total function calls, which are for functions that affect the appearance of a printed page in some way.
  • the Printcapture DLL next determines 4410 whether the received call is a monitored function call. If the received call is not a monitored function call, the call bypasses steps 4415 through 4435, and is forwarded 4440 to gdi32.dll.
  • the method next determines 4415 whether the function call specifies a "new" printer device context (DC) , i.e., a printer DC that has not been previously received. This is determined by checking the printer DC against an internal DC table.
  • a DC encapsulates a target for drawing (which could be a printer, a memory buffer, etc.), as previously noted, as well as drawing settings like font, color, etc. All drawing operations (e.g., LineTo ( ) , DrawText ( ) , etc) are performed upon a DC. If the printer DC is not new, then a memory buffer already exists that corresponds with the printer DC, and step 4420 is skipped.
  • a memory buffer DC is created 4420 that corresponds with the new printer DC.
  • This memory buffer DC mirrors the appearance of the printed page, and in this example is equivalent to the printed representation referenced above.
  • a memory buffer DC (and memory buffer) of the same dimensions is created and associated with the printer DC in the internal DC table.
  • gdi32_mmr.dll next determines 4425 whether the call is a text-related function call. Approximately 12 of the 200 monitored gdi32.dll calls are text-related. If it is not, step 4430 is skipped.
  • page_desc.xml 3740 If the function call is text-related, the text-related output is written 4430 to an xml file, referred to herein as page_desc.xml 3740, as shown in Figure 37A. page_desc. xml 3740 is stored, e.g., in data store 3750.
  • Figures 42A and 42B show an example page_desc.xml 3740 for the HTML file 3910 example discussed in reference to Figures 39A and 4OA.
  • the page_desc.xml 3740 includes coordinate information for all printed text by word 4210 (e.g., Get) , by x, y, width, and height, and by character 4220 (e.g., G). All coordinates are in dots, which are the printer equivalent of pixels, relative to the upper-left-corner of the page, unless otherwise noted.
  • the page_desc.xml 3740 also includes the hotspot information, such as the beginning mark 4230 and the ending mark 4240, in the form of a "sequence.” For a hotspot that spans a page boundary (e.g., of page N to page N+l) , it shows up on both pages (N and N+l) ; the hotspot identifier in both cases is the same.
  • other important information is included in page_desc.xml 3740, such as the printer port name 4250, which can have a significant effect on the .
  • a page layout is rendered 3830 comprising the printed representation including the hot spot.
  • the rendering 3830 includes printing the document.
  • Figure 4OB illustrates an example of a printed version 4011 of the HTML file 3910 of Figures 39A and 4OA. Note that the fiducial marks are not visibly perceptible to the end user.
  • the rendered layout is saved, e.g., to data store 3750.
  • the Printcapture DLL merges the data in the symbolic hotspot description 3725 and the page_desc.xml 3740, e.g., as shown in Figures 42A-B, into a hotspot.
  • hotspot. xml 3745 is created when the document is printed.
  • the content of the hotspot is also shown, i.e., http://www.ricoh.com.
  • a filter in a Microsoft XPS (XML print specification) print driver commonly known as an "XPSDrv filter, " receives text drawing commands and creates the page_desc. xml file as described above.
  • Figure 45 illustrates a flowchart of a method of transforming characters corresponding to a hotspot in a document in accordance with one embodiment of the present invention.
  • the method modifies printed documents in a way that indicates to both the end user and MMR recognition software that a hot spot is present.
  • an electronic document to be printed is received 4510 as a character stream.
  • the document may be received 4510 at a printer driver or at a software module capable of filtering the character stream.
  • the document is received 4510 at a browser 3715 from source files 3710.
  • Figure 46 illustrates an example of an electronic version of a document 4610 according to one embodiment of the present invention.
  • the document 4610 in this example has two hotspots, one associated with "are listed below" and one associated with "possible prior art.”
  • the hotspots are not visibly perceptible by the end user according to one embodiment.
  • the hotspots may be established via the coordinate capture method described in reference to Figure 38, or according to any of the other methods described herein.
  • the document is parsed 4520 for a begin mark, indicating the beginning of a hotspot.
  • the begin mark may be a fiducial mark as previously described, or any other individually distinguishable mark that identifies a hotspot.
  • a transformation rule is applied 4530 to a portion of the document, i.e., the characters following the beginning mark, until an end mark is found.
  • the transformation rule causes a visible modification of the portion of the document corresponding to the hotspot according to one embodiment, for example by modifying the character font or color.
  • the original font e.g., Times New Roman
  • the text is rendered in a different font color, e.g., blue #F86A.
  • the process of transforming the font is similar to the process described above according to one embodiment. For example, if the document 4610 is an HTML file, when the fiducial marks are encountered in the document 4510 the font is substituted in the HTML file.
  • the transformation step is accomplished by a plug-in 3720 to the browser 3715, yielding a modified document 3730.
  • Figure 47 illustrates an example of a printed modified document 4710 according to one embodiment of the present invention. As illustrated, hotspots 4720 and 4730 are visually distinguishable from the remaining text. In particular, hotspot 4720 is visually distinguishable based on its different font, and hotspot 4730 is visually distinguishable based on its different color and underlining.
  • the document with the transformed portion is rendered 4540 into a page layout, comprising the electronic document and the location of the hot spot within the electronic document.
  • rendering the document is printing the document.
  • rendering includes performing feature extraction on the document with the transformed portion, according to any of the methods of so doing described herein.
  • feature extraction includes, in response to a print command, capturing page coordinates corresponding to the electronic document, according to one embodiment .
  • the electronic document is then parsed for a subset of the coordinates corresponding to the transformed characters.
  • the capture module 3735 of Figure 37A performs the feature extraction and/or coordinate capture.
  • MMR recognition software preprocesses every image using the same transformation rule. First it looks for text that obeys the rule, e.g., it's in OCR-A or blue #F86A, and then it applies its normal recognition algorithm.
  • This aspect of the present invention is advantageous because it reduces substantially the computational load of MMR recognition software because it uses a very simple image preprocessing routine that eliminates a large amount of the computing overhead. In addition, it improves the accuracy of feature extraction by eliminating the large number of alternative solutions that might apply from selection, e.g., if a bounding box over a portion of the document, e.g. , as discussed in reference to Figures 51A-D. In addition, the visible modification of the text indicates to the end user which text (or other document objects) are part of a hot spot. Shared Document Annotation
  • Figure 48 illustrates a flowchart of a method of shared document annotation in accordance with one embodiment of the present invention.
  • the method enables users to annotate documents in a shared environment.
  • the shared environment is a web page being viewed by various users; however, the shared environment can be any environment in which resources are shared, such as a workgroup, according to other embodiments.
  • a source document is displayed 4810 in a browser, e.g., browser 3715.
  • the source document is received from source files 3710; in another embodiment, the source document is a web page received via a network, e.g. , Internet connection.
  • Figure 49A illustrates a sample source web page 4910 in a browser according to one embodiment of the present invention.
  • the web page 4910 is an HTML file for a game related to a popular children's book character, the Jerry Butter Game.
  • a shared annotation and a designation of a portion of the source document associated with the shared annotation associated with the source document are received 4820.
  • annotations are data or interactions used in MMR as discussed herein.
  • the annotations are stored at, and received by retrieval from, a Shared Documentation Annotation server (SDA server) , e.g., 3755 as shown in Figure 37A, according to one embodiment.
  • SDA server Shared Documentation Annotation server
  • the SDA server 3755 is accessible via a network connection in one embodiment.
  • a plug-in for retrieval of the shared annotations facilitates this ability in this example, e.g., plug-in 3720 as shown in Figure 37A.
  • the annotations and designations are received from a user.
  • a user may create a shared annotation for a document that does not have any annotations, or may add to or modify existing shared annotations to a document. For example, the user may highlight a portion of the source document, designating it for association with a shared annotation, also provided by the user via various methods described herein.
  • a modified document is displayed 4830 in the browser.
  • the modified document includes a hotspot corresponding to the portion of the source document designated in step 4820.
  • the hotspot specifies the location for the shared annotation.
  • the modified document is part of the modified files 3730 created by plug-in 3720 and returned to browser 3715 according to one embodiment.
  • Figure 49B illustrates a sample modified web page 4920 in a browser according to one embodiment of the present invention.
  • the web page 4920 shows a designation for a hotspot 4930 and the associated annotation 4940, which is a video clip in this example.
  • the designation 4930 may be visually distinguished from the remaining web page 4920 text, e.g., by highlighting.
  • the annotation 4940 displays when the designation 4930 is clicked on or moused over.
  • text coordinates corresponding to a printed representation of the modified document and the hotspot are captured 4840. The details of coordinate capture are according to any of the methods for that purpose described herein.
  • FIG. 49C illustrates a sample printed web page 4950 according to one embodiment of the present invention.
  • the printed web page layout 4950 includes the hotspot 4930 as designated, however the line breaks in the print layout 4950 differ from the web page 4920.
  • the hotspot 4930 boundaries are not visible on the printed layout 4950 in this example.
  • the shared annotations are stored locally, e.g. , in data storage 3750, and are indexed using their associations with the hotspots 4930 in the printed document 4950.
  • the printed representation also may be saved locally.
  • the act of printing triggers the downloading and creation of the local copy.
  • Hotspots for Imaged Documents Figure 5OA illustrates a flowchart of a method of adding a hotspot to an imaged document in accordance with one embodiment of the present invention.
  • the method allows hotspots to be added to a paper document after it is scanned, or to a symbolic electronic document after it is rendered for printing.
  • a source document is converted 5010 to an imaged document.
  • the source document is received at a browser 3715 from source files 3710 according to one embodiment.
  • the conversion 5010 is by any method that produces a document upon which a feature extraction can be performed, to produce a feature representation.
  • a paper document is scanned to become an imaged document.
  • a renderable page proof for an electronic document is rendered using an appropriate application.
  • Figure 51A illustrates an example of a user interface 5105 showing a portion of a newspaper page 5110 that has been scanned according to one embodiment.
  • a main window 5115 shows an enlarged portion of the newspaper page 5110, and a thumbnail 5120 shows which portion of the page is being displayed.
  • feature extraction is applied 5020 to the imaged document to create a feature representation. Any of the various feature extraction methods described herein may be used for this purpose.
  • the feature extraction is performed by the capture module 3735 described in reference to Figure 37A according to one embodiment.
  • one or more hotspots 5125 is added 5030 to the imaged document.
  • the hotspot may be pre-defined or may need to be defined according to various embodiments. If the hotspot is already defined, the definition includes a page number, the coordinate location of the bounding box for the hot spot on the page, and the electronic data or interaction attached to the hot spot. In one embodiment, the hotspot definition takes the form of a hotspot. xml file, as illustrated in Figure 43.
  • Figure 5OB illustrates a flowchart of a method of defining a hotspot for addition to an imaged document in accordance with one embodiment of the present invention.
  • a candidate hotspot is selected 5032.
  • the end user has selected a portion of the document as a hotspot using a bounding box 5125.
  • a user interface may provide alternatives such as selecting a larger area or accepting the ambiguity but adding a description of it to the database.
  • Other embodiments may use other methods of defining a hotspot.
  • Figure 51B illustrates a user interface for defining the data or interaction to associate with a selected hotspot. For example, once the user has selected the bounding box 5125, an edit box 5130 is displayed.
  • FIG 51C illustrates a user interface for displaying hotspots 5125 within a document.
  • different color bounding boxes correspond to different data and interaction types.
  • the imaged document, hot spot definition, and the feature representation are stored 5040 together, e.g., in data store 3750.
  • Figure 52 illustrates a method 5200 of using an MMR document 500 and the MMR system 100b in accordance with an embodiment of the present invention.
  • the method 5200 begins by acquiring 5210 a first document or a representation of the first document.
  • Example methods of acquiring the first document include the following:
  • the first document is acquired by capturing automatically, via PD capture module 318, the text layout of a printed document within the operating system of MMR computer 112; (2) the first document is acquired by capturing automatically the text layout of a printed document within printer driver 316 of MMR computer 112; (3) the first document is acquired by scanning a paper document via a standard document scanner device 127 that is connected to, for example, MMR computer 112; and (4) the first document is acquired by transferring, uploading or downloading, automatically or manually, a file that is a representation of the printed document to the MMR computer 112.
  • the acquiring step has been described as acquiring most or all of the printed document, it should be understood that the acquiring step 5210 could be performed for only the smallest portion of a printed document.
  • the method is described in terms of acquiring a single document, this step may be performed to acquire a number of documents and create a library of first documents.
  • the 5200 performs 5212 an indexing operation on the first document.
  • the indexing operation allows identification of the corresponding electronic representation of the document and associated second media types for input that matches the acquired first document or portions thereof.
  • a document indexing operation is performed by the PD capture module 318 that generates the PD index 322.
  • Example indexing operations include the following: (1) the x-y locations of characters of a printed document are indexed; (2) the x-y locations of words of a printed document are indexed; (3) the x-y locations of an image or a portion of an image in a printed document are indexed; (4) an OCR imaging operation is performed, and the x-y locations of characters and/or words are indexed accordingly; (4) feature extraction from the image of the rendered page is performed, and the x-y locations of the features are indexed; and (5) the feature extraction on the symbolic version of a page are simulated, and the x-y locations of the features are indexed.
  • the indexing operation 5212 may include any of the above or groups of the above indexing operations depending on application of the present invention.
  • the method 5200 also acquires 5214 a second document.
  • the second document acquired can be the entire document or just a portion (patch) of the second document.
  • Example methods of acquiring the second document include the following: (1) scanning a patch of text, by means of one or more capture mechanisms 230 of capture device 106; (2) scanning a patch of text by means of one or more capture mechanisms 230 of capture device 106 and, subsequently, preprocessing the image to determine the likelihood that the intended feature description will be extracted correctly. For example, if the index is based on OCR, the system might determine whether the image contains lines of text and whether the image sharpness is sufficient for a successful OCR operation.
  • the method performs 5216 document or pattern matching between the first document and the second document. In one embodiment, this is done by performing document fingerprint matching of the second document to the first document.
  • a document fingerprint matching operation is performed on the second media document by querying PD index 322.
  • An example of document fingerprint matching is extracting features from the image captured in step 5214, composing descriptors from those features, and looking up the document and patch that contains a percentage of those descriptors. It should be understood that this pattern matching step may be performed a plurality of times, once for each document where the database stores numerous documents to determine if any documents in a library or database match the second document.
  • the indexing step 5212 adds the document 5210 to an index that represents a collection of documents and the pattern matching step is performed once.
  • the method 5200 executes 5218 an action based on result of step 5216 and on optionally based on user input.
  • the method 5200 looks up a predetermined action that is associated with the given document patch, as for example, stored in the second media 504 associated with the hotspot 506 found as matching in step 5216.
  • Examples of predetermined actions include: (1) retrieving information from the document event database 320, the Internet, or elsewhere; (2) writing information to a location verified by the MMR system 100b that is ready to receive the system's output; (3) looking up information; (4) displaying information on a client device, such as capture device 106, and conducting an interactive dialog with a user; (5) queuing up the action and the data that is determined in method step 5216, for later execution (the user's participation may be optional) ; and (6) executing immediately the action and the data that is determined in method step 5216.
  • Example results of this method step include the retrieval of information, a modified document, the execution of some other action (e.g., purchase of stock or of a product) , or the input of a command sent to a cable TV box, such as set-top box 126, that is linked to the cable TV server (e.g., service provider server 122) , which streams video back to the cable TV box.
  • a cable TV box such as set-top box 126
  • the cable TV server e.g., service provider server 122
  • Figure 53 illustrates a block diagram of an example set of business entities 5300 that are associated with MMR system 100b, in accordance with an embodiment of the present invention.
  • the set of business entities 5300 comprise an MMR service provider 5310, an MMR consumer 5312, a multimedia company 5314, a printer user 5316, a cell phone service provider 5318, a hardware manufacturer 5320, a hardware retailer 5322, a financial institution 5324, a credit card processor 5326, a document publisher 5328, a document printer 5330, a fulfillment house 5332, a cable TV provider 5334, a service provider 5336, a software provider 5338, an advertising company 5340, and a business network 5370.
  • MMR service provider 5310 is the owner and/or administrator of an MMR system 100 as described with reference to Figures IA through 5 and 52.
  • MMR consumer 5312 is representative of any MMR user 110, as previously described with reference to Figure IB.
  • Multimedia company 5314 is any provider of digital multimedia products, such as Blockbuster Inc. (Dallas, TX) , that provides digital movies and video games and Sony Corporation of America (New York, NY) that provides digital music, movies, and TV shows.
  • Blockbuster Inc. Disallas, TX
  • Sony Corporation of America New York, NY
  • Printer user 5316 is any individual or entity that utilizes any printer of any kind in order to produce a printed paper document.
  • MMR consumer 5312 may be printer user 5316 or document printer 5330.
  • Cell phone service provider 5318 is any cell phone service provider, such as Verizon Wireless (Bedminster, NJ) , Cingular Wireless (Atlanta, GA), T-Mobile USA (Bellevue, WA), and Sprint Nextel (Reston, VA) .
  • Hardware manufacturer 5320 is any manufacturer of hardware devices, such as manufacturers of printers, cellular phones, or PDAs.
  • Example hardware manufacturers include Hewlett-Packard (Houston, TX) , Motorola, Inc, (Schaumburg, IL) , and Sony Corporation of America (New York, NY) .
  • Hardware retailer 5322 is any retailer of hardware devices, such as retailers of printers, cellular phones, or PDAs.
  • Example hardware retailers include, but are not limited to, RadioShack Corporation (Fort Worth, TX), Circuit City Stores, Inc. (Richmond, VA), Wal-Mart (Bentonville, AR), and Best Buy Co. (Richfield, MN).
  • Financial institution 5324 is any financial institution, such as any bank or credit union, for handling bank accounts and the transfer of funds to and from other banking or financial institutions.
  • Credit card processor 5326 is any credit card institution that manages the credit card authentication and approval process for a purchase transaction.
  • Example credit card processors include, but are not limited to, ClickBank, which is a service of Click Sales Inc, (Boise ID), Sharelt ! Inc. (Eden Prairie, MN), and CCNow Inc. (Eden Prairie, MN).
  • Document publisher 5328 is any document publishing company, such as, but not limited to, The Gregath Publishing Company (Wyandotte, OK) , Prentice Hall (Upper Saddle River, NJ) , and Pelican Publishing Company (Gretna, LA) .
  • Document printer 5330 is any document printing company, such as, but not limited to, PSPrint LLC (Oakland CA) , PrintLizard, Inc., (Buffalo, NY), and Mimeo, Inc. (New York, NY) .
  • document publisher 5328 and/or document printer 5330 is any entity that produces and distributes newspapers or magazines.
  • Fulfillment house 5332 is any third-party logistics warehouse that specializes in the fulfillment of orders, as is well known.
  • Example fulfillment houses include, but are not limited to, Corporate Disk Company (McHenry, IL) , OrderMotion, Inc. (New York, NY), and Shipwire.com (Los Angeles, CA).
  • Cable TV provider 5334 is any cable TV service provider, such as, but not limited to, Comcast Corporation (Philadelphia, PA) and Adelphia Communications (Greenwood Village, CO) .
  • Service provider 5336 is representative of any entity that provides a service of any kind.
  • Software provider 5338 is any software development company, such as, but not limited to, Art & Logic, Inc. (Pasadena, CA) , Jigsaw Data Corp. (San Mateo, CA) , DataMirror Corporation (New York, NY) , and DataBank IMX, LCC (Beltsville, MD) .
  • Advertising company 5340 is any advertising company or agency, such as, but not limited to, D and B Marketing (Elhurst, IL) , BlackSheep Marketing (Boston, MA) , and Gotham Direct, Inc. (New York, NY) .
  • Business network 5370 is representative of any mechanism by which a business relationship is established and/or facilitated.
  • Figure 54 illustrates a method 5400, which is a generalized business method that is facilitated by use of MMR system 100b, in accordance with an embodiment of the present invention.
  • Method 5400 includes the steps of: establishing relationship between at least two entities, determining possible business transactions; executing at least one business transaction and delivering product or service for the transaction.
  • a relationship is established 5410 between at least two business entities 5300.
  • the business entities 5300 may be aligned within, for example, four broad categories, such as (1) MMR creators, (2) MMR distributors, (3) MMR users, and (4) others, and within which some business entities fall into more than one category.
  • business entities 5300 are categorized as follows:
  • MMR service provider 5310 which is an MMR creator
  • MMR consumer 5312 which is an MMR user
  • cell phone service provider 5318 and hardware retailer 5322, which are MMR distributors.
  • hardware manufacturer 5320 has a business relationship with hardware retailer 5322, both of which are MMR distributors.
  • the method 5400 determines 5412 possible business transactions between the parties with relationships established in step 5410.
  • a variety of transactions may occur between any two or more business entities 5300.
  • Example transactions include: purchasing information; purchasing physical merchandise; purchasing services; purchasing bandwidth; purchasing electronic storage; purchasing advertisements; purchasing advertisement statistics; shipping merchandise; selling information; selling physical merchandise; selling services, selling bandwidth; selling electronic storage; selling advertisements; selling advertisement statistics; renting/leasing; and collecting opinions/ratings/voting.
  • the MMR system 100 is used to reach 5414 agreement on at least one business transaction.
  • a variety of actions may occur between any two or more business entities 5300 that are the result of a transaction.
  • Example actions include: purchasing information; receiving an order; clicking-through, for more information; creating ad space; providing local/remote access; hosting; shipping; creating business relationships; storing private information; passing-through information to others; adding content; and podcasting.
  • the MMR system 100 is used to deliver 5416 products or services for the transaction, for example, to the MMR consumer 5312.
  • Example content may be exchanged between any two or more business entities 5300, as a result of the business transaction agreed to in method step 5414.
  • Example content includes: text; web link; software; still photos; video; audio; and any combination of the above.
  • a variety of delivery mechanisms may be utilized between any two or more business entities 5300, in order to facilitate the transaction.
  • Example delivery mechanisms include: paper; personal computer; networked computer; capture device 106; personal video device; personal audio device; and any combination of the above.
  • Fig. 55 illustrates a method for accessing a mixed media document, according to one embodiment of the present invention.
  • a first document is acquired 5510.
  • the first document can be acquired 5510 by capturing a representation of the first documents using any one of the capture mechanisms 230 described herein with reference to Fig. 2E.
  • the first document can be acquired 5510 in its entirety, or a portion of the first document can be acquired 5510.
  • the first document can be acquired using any of the methods for acquiring 5214 a document described herein with reference to Fig. 52.
  • a second document is retrieved 5512.
  • the second document can be retrieved 5512 from a central repository.
  • the second document is an MMR document such as the MMR document 500 described herein with reference to Fig. 5.
  • the second document can be retrieved 5512 based on the first document and an index, such as the PD index 322.
  • the first and second documents are compared 5514. Comparing 5514 the first and second document can include, for example, analyzing the first and second documents to determine if they are sufficiently similar. In one embodiment, this is done by performing document fingerprint matching the second document to the first document.
  • retrieving 5512 a second document and comparing 5514 the first and second documents can be combined into a document matching step .
  • a document fingerprint matching operation can be performed on the first document by querying PD index 322.
  • a document fingerprint matching operation can be performed on the first document by querying an MMR index 3404 of an MMR database 3400.
  • An example of document fingerprint matching is extracting features from the image captured in step 5510, composing descriptors from those features, and looking up the document and patch that contains a percentage of those descriptors.
  • the matching document can then be retrieved 5512. It should be understood that this pattern matching step may be performed a plurality of times, once for each document where the database stores numerous documents to determine if any documents in a library or database match the first document.
  • An action is performed 5516 based on the comparison.
  • the action that is performed 5516 can depend on the results of the comparison. For example, in one embodiment, a first action is performed 5516 if the comparison 5514 indicates the documents match, and a second action is performed 5516 if the comparison 5514 indicates the documents do not match. In another embodiment, the action that is performed 5516 can depend on which second document matches the first document. For example, a second document can be associated with a predetermined action, and the predetermined action can be performed 5516. Furthermore, the action performed 5516 can be responsive to a user selection. Examples of various types of actions that can be performed, according to various embodiments of the present invention, are described herein with reference to Figs. 56 (a) -56 (c).
  • Fig. 56 (a) illustrates a first example of a method for accessing an MMR document.
  • a document 5604 is acquired 5510.
  • a document 5614 is retrieved 5512 from a central repository 5610.
  • the central repository 5610 is a document event database 320.
  • the central repository 5610 is an MMR database 3400.
  • the central repository 5610 can be implemented as any database capable of storing electronic representations of documents.
  • an action or media 5618 is associated with the document 5614.
  • the document 5614 can be implemented as an MMR document 500, and the document 5614 can include an action or second media 504.
  • the document 5604 and the document 5614 are compared 5514. In one embodiment, based on the comparison, the action 5618 associated with the document 5614 is performed 5620. In another embodiment, based on the comparison, the media 5618 associated with the document 5614 is displayed 5620.
  • document 5604 could be a portion of a tourist travel book.
  • travel books are often out-of-date at the moment they arrive on store shelves.
  • a user can employ the MMR system to obtain supplemental information associated with the travel book, or with a specific portion of the travel book (for example, a particular article) .
  • a section of the travel book is acquired 5510, for example, by a camera integrated with the user's cell phone.
  • An MMR document 5614 with a fingerprint matching the section of interest is retrieved 5512 and compared 5514.
  • the MMR document 5614 contains supplemental information 5618 regarding the acquired 5510 portion of the travel book.
  • the supplemental information 5618 could be an updated electronic representation of the article, a health advisory regarding a particular region, or an advertisement.
  • This supplemental information 5618 is displayed 5620 to the user.
  • updated or additional information is available to the user.
  • the supplemental information can be implemented as any kind of media file. Performing an action based on a comparison of a first and second document can be used to display a media file associated with a paper document.
  • document 5604 could be a page of a sports magazine.
  • An MMR document 5614 with a fingerprint matching the document 5604 is retrieved 5512 and compared 5514.
  • the document 5614 contains media 5618 relating to the sports stories on the acquired 5510 page of the magazine, for example, a video clip of the game-winning goal that the article is describing.
  • the media 5618 is displayed 5620 to the user.
  • a media file associated with the paper document is available to the user.
  • the supplemental information can also be user-specific. Performing an action based on a comparison of a first and second document can include retrieving and displaying user-specific information.
  • the document 5604 could be a newspaper article about a publicly-traded company.
  • An MMR document 5614 with a fingerprint matching the document 5604 is retrieved 5512 and compared 5514.
  • the document 5614 contains metadata 5618 identifying the subject of the article.
  • User-specific information is retrieved, for example, based on the metadata 5618. For example, the user' s stock holding information related to the company mentioned in the article can be retrieved from an online brokerage firm.
  • the user-specific information is displayed to the user.
  • user-specific information related to the paper document is available to the user.
  • Fig. 56 (b) illustrates a second example of a method for accessing an MMR document.
  • a document 5604 is acquired 5510, and a document 5614 is retrieved 5512 from a central repository 5610.
  • the document 5604 and the document 5614 are compared 5514, and user input 5628 is received. Responsive to the comparison 5514 and user input 5628, an action is performed 5630.
  • the document 5614 is an MMR document 500.
  • the MMR document can include a plurality of second media 504.
  • the plurality of second media 504 are presented to a user for selection, and the user input 5628 indicates a desired second media 504.
  • the second media 504 can be an audio file, a video file, a text file, or an application file, and so on.
  • the selected second media 504 is displayed 5630.
  • the MMR document can include a plurality of associated actions 504.
  • an associated action can be retrieving information, writing information to a location, performing a search for information, displaying information on a client device, conducting an interactive dialog, deferring action for later execution, modifying a document, purchase of a product, and input of a command to another system.
  • the plurality of associated actions 504 are presented to a user for selection, and the user input 5628 indicates a desired associated action 504.
  • the selected associated action 504 is performed 5630.
  • the MMR document can include a combination of second media and associated actions 504, and the user input 5628 can indicate whether a second media should be displayed 5630 or an associated action should be performed 5630.
  • the document 5614 is an MMR document 500 including a plurality of hotspots 506 (i.e. locations within the document 5604) .
  • the user input 5628 can indicate a desired hotspot 506.
  • the desired hotspot 506 can in turn be associated with a plurality of actions and/or second media 504, and the user input 5628 can further indicate which actions are to be performed and/or which media is to be displayed.
  • a particular hotspot can selected by the user, and the action performed 5630 can be further tailored to the desires of the user.
  • Fig. 56 (c) illustrates a third example of a method for accessing an MMR document.
  • a document 5604 is acquired 5510, and a document 5614 is retrieved 5512 from a central repository 5610. The document 5604 and the document 5614 are compared 5514.
  • the document 5604 can be, for example, a paper document with which a user would like to associate a media file.
  • Media 5624 is acquired 5622.
  • Media 5624 can be, for example, a video file, an audio file, or an application file (e.g. spreadsheet or word processing document, etc. ) .
  • Other examples of media 5624 will be apparent to one of skill in the art without departing from the scope of the present invention.
  • Media can be acquired 5622 from, for example, a camera, a microphone, a network, a computer readable medium, and so on.
  • the media 5624 is associated 5626 with the document 5614.
  • the media 5624 is stored in such a way that it will be accessible based on future accesses to the document 5614.
  • the media 5624 is stored in the central repository 5610.
  • the media 5624 is stored separately from the document 5614.
  • the document 5614 is an MMR document 500, and the media 5624 is stored as a second media 504.
  • the media 5624 can be associated with one or more hotspots of the document 5614.
  • user input is received 5625. User input 5625 can indicate, for example, which hotspot to associate the media 5624 with.
  • document 5614 can include various entities, and user input 5625 can indicate which entity to associate the media 5624 with.
  • the entities available for user selection can be obtained, for example, from a print driver during normal printing operations.
  • Various exemplary methods for obtaining entities from a print driver are described in figures 37-43 and the accompanying description herein.
  • Associating media with an MMR document beneficially allows a user to supplement a paper document.
  • a user preparing for a trip can take a paper document, advantageous for its portability and low replacement cost, and update an electronic version of the document with supplemental content from a mobile platform (such as a cell phone) .
  • a mobile platform such as a cell phone
  • Retrieving an MMR document based on an acquired representation of a paper document advantageously introduces additional dimensions to paper documents.
  • An additional dimension can be thought of as extra document space in which content or advertisements can be provided.
  • a newspaper advertisement for a new movie could "link" to reviews of the movie, meaning that the result of the acquisition of the newspaper advertisement will be the display of supplemental information, such as reviews.
  • a review of a movie in a magazine could link to advertisements for movie theatres.
  • Content can link to other content, and ads can link to other ads.
  • Retrieving a specific MMR document can result in a credit or payment to a user (for example, in exchange for viewing an advertisement) , or can result in a debit or charge to the user
  • the various methods of the present invention can be beneficial for an advertiser, a content provider, a user, and so on.
  • an MMR document is retrieved based on recognition of a paper document.
  • a representation of the paper document is acquired and compared to a fingerprint of the MMR document.
  • the matching MMR document can include media, or can be associated with a particular action. Responsive to the comparison of the paper document and the virtual multimedia document, an action is performed. For example, the media of the matching MMR document can be displayed, or the action associated with the matching MMR document can be performed.
  • Retrieving an MMR document based on recognition of a paper document advantageously allows a user of the paper document to benefit from information supplemental to the paper document.
  • retrieving a virtual multimedia document based on recognition of a paper document advantageously allows a user of the paper document to modify or add content to the virtual multimedia document.
  • data from the MMR document is combined with user-specific information to provide personalized information to the user.
  • user input is solicited to determine which of the plurality of actions associated with the MMR document is to be performed.
  • an MMR document is retrieved based on recognition of a paper document. Responsive to the comparison of the paper document and the virtual multimedia document, an action is performed. For example, the media of the matching MMR document can be displayed, or an action associated with the matching MMR document can be performed.
  • Fig. 57 illustrates a method for accessing a mixed media document, according to one embodiment of the present invention.
  • a first document is acquired 5710.
  • the first document can be acquired 5710 by capturing a representation of the first document using any one of the capture mechanisms 230 described herein with reference to Fig. 2E.
  • the first document can be acquired 5710 in its entirety, or a portion of the first document can be acquired 5710.
  • the first document can be acquired using any of the methods for acquiring 5214 a document described herein with reference to Fig. 52.
  • a second document is retrieved 5712.
  • the second document can be retrieved 5712 from a central repository.
  • the second document is an MMR document such as the MMR document 500 described herein with reference to Fig. 5.
  • the second document can be retrieved 5712 based on the first document and an index, such as the PD index 322.
  • the first and second documents are compared 5714. Comparing 5714 the first and second document can include, for example, analyzing the first and second documents to determine if they are sufficiently similar. In one embodiment, this is done by performing document fingerprint matching, which matches the second document to the first document.
  • retrieving 5712 a second document and comparing 5714 the first and second documents can be combined into a document matching step .
  • a document fingerprint matching operation can be performed on the first document by querying PD index 322.
  • An example of document fingerprint matching is extracting features from the image captured in step 5710, composing descriptors from those features, and looking up the document and patch that contains a percentage of those descriptors.
  • the matching document can then be retrieved 5712. It should be understood that this pattern matching step may be performed a plurality of times, once for each document where the database stores numerous documents to determine if any documents in a library or database match the first document. Actions are displayed 5716 to a user based on the comparison.
  • the actions that are displayed 5716 can depend on the results of the comparison. For example, in one embodiment, a first set of actions is displayed 5716 if the comparison 5714 indicates the documents match, and a second set of actions is displayed 5716 if the comparison 5714 indicates the documents do not match. In another embodiment, the set of actions that is displayed 5716 can depend on which second document matches the first document. For example, a second document can be associated with a predetermined set of actions, and the predetermined set of actions can be displayed 5716. Examples of actions that can be displayed to the user, according to various embodiments, are described herein with reference to Figure 58.
  • a user-selected action can be performed 5718. Responsive to a user selection of one of the actions on the list, the user-selected action can be performed. Examples of actions that can be performed in response to user-selection, according to various embodiments, are described herein with reference to Figure 58.
  • Figure 58 illustrates a user interface for accessing a mixed media document, according to one embodiment of the present invention. Figure 58 illustrates the display of user actions on the display 212 of a capture device 106.
  • a menu 5801 is displayed on the display 212.
  • the menu 5801 includes document information 5802 associated with the retrieved document 5712.
  • the document information 5802 can include the title of the retrieved document 5712.
  • the document information 5802 can include title, page, author, publication date, ISBN number, or any other information related to the retrieved 5712 or acquired 5710 document or portion thereof.
  • the menu 5801 also includes a plurality of actions 5804.
  • the actions 5804 displayed on the menu 5801 are responsive ' to the comparison 5714 of the acquired 5710 and retrieved documents 5712. For example, if a first document is acquired 5710, a first set of actions 5804 are included in the menu 5801. If a second document is acquired 5712, a second set of actions 5804 are included in the menu 5801. The second set of actions 5804 can include actions not included in the first set of actions 5804.
  • the actions 5804 displayed on the menu 5801 can also depend on the particular region or location of the acquired 5710 document.
  • certain actions 5804 are displayed when a first location (or hotspot) of the document is acquired and other actions 5804 are displayed when a second location (or hotspot) of the same document is acquired.
  • multiple hotspots within a document are displayed to a user for selection.
  • the actions 5804 associated with the user-selected hotspot are displayed in the menu 5801.
  • the menu 5801 includes an action 5804A for "grabbing" a document. Responsive to a user selection of the grab action, an identifier of the retrieved 5712 document is stored for immediate or later display of the document, either on the capture device 106 or on another device. According to one embodiment of the present invention, responsive to a user selection of the grab action, the retrieved 5712 document is stored on the capture device 106. Storing an identifier of the document, or the document itself, beneficially makes the document available to the user for future reference.
  • a retrieved document can be one of many formats, such as Microsoft Word, Adobe PDF, Microsoft XML Paper Specification (XPS) , Postscript, PCL, and so on.
  • a user may come across an interesting article while reading a magazine in a dentist's office.
  • the user captures the document, and selects the action to grab the document .
  • the document is recognized, and an identifier of the document is stored on the capture device.
  • the document is available for the user's enjoyment at a later point in time.
  • the menu 5801 includes an action 5804B for scheduling an appointment.
  • a document or a location in a document
  • an activity occurring at particular date and time such as a doctor' s appointment, a concert, and so on
  • scheduling information is stored on the capture device 106 or another device.
  • the capture device 106 includes a digital calendar application, and responsive to the user selection of the schedule action, an appointment for the date and time associated with the document is scheduled on the digital calendar.
  • a remote server stores appointment data, and responsive to the user selection of the schedule action, appointment data associated with the document is stored on the remote server.
  • another computer device contains a digital calendar application, and responsive to the user selection of the schedule action, an appointment for the date and time associated with the document is scheduled on the digital calendar. For example, an appointment can be scheduled on the user's Microsoft® Outlook calendar. Storing scheduling information beneficially allows convenient and efficient appointment scheduling based on documents .
  • a user could see an advertisement for a television show that strikes his interest.
  • the user captures the document, and selects the action to schedule an appointment based on the document. Responsive to the user selection, an appointment is added to the user's calendar including the time, date, and description of the event.
  • the appointment can also or instead be added to other calendars.
  • a first user can use the schedule feature to "recommend" an event associated with a document to a second user, and the appointment is added to the second user's calendar.
  • a user can use the schedule feature to add an event to the calendar of an electronic device, such as a Digital Video Recorder (DVR) or online car share service (such as City CarShare or ZipCar) .
  • DVR Digital Video Recorder
  • online car share service such as City CarShare or ZipCar
  • the appointment data used to schedule the appointment can be obtained in a variety of ways.
  • the appointment data can be associated with the retrieved 5712 document.
  • the appointment data can determined by the Document Parser module 326 as a result of printing the document.
  • the appointment data can be acquired by performing optical character recognition (OCR) on the acquired 5710 document.
  • OCR optical character recognition
  • the appointment data such as description, time, and date can be parsed from the recognized characters.
  • named entity recognition extracts dates and times from the recognized characters.
  • the appointment data can include a combination of associated and/or retrieved data, and data input from the user.
  • the retrieved document 5712 can be associated with a description of the appointment, and the user can input additional appointment data such as time and date.
  • the menu 5801 includes an action 5804C for making a purchase.
  • a document or a location in a document
  • a good or service available for sale such as a document, a media file, a ticket, a magazine subscription, and so on
  • Responsive to a user selection of the purchase action an order for the good or service is placed.
  • a user's account can also be charged responsive to a user selection of the purchase action.
  • the purchased item is scheduled for delivery. Either immediately or at a later point in time, the purchased item can be transferred to the capture device 106 or to another device.
  • the purchased item can be scheduled for transfer to a video-capable portable device at the next synchronization of the portable device.
  • the purchased item can be a copy (either electronic or physical) of the document itself, an item related to the document, or an item suggested on the basis of the document.
  • the acquired document 5710 can be a review of a new television show, and responsive to the selection of the purchase action, an episode of the show can be purchased and made available for download onto a video-capable portable device. Placing an order for a good or service responsive to the user selection beneficially allows a user to conveniently make purchases using paper-based documents.
  • the purchase action can also be used for payments of goods and services.
  • the acquired 5710 document can be a restaurant receipt, and responsive to the selection of the purchase action, funds are transferred from the user' s account to an account for the restaurant or the restaurant's agent, thus paying the user's debt to the restaurant.
  • Figure 59 illustrates a method for labeling a media file, according to one embodiment of the present invention.
  • the media file to be labeled can be, for example, an image, audio, video, text, a portable document, a presentation, and so on.
  • the media file can be acquired, for example, from a camera or microphone on the capture device 106, a file transfer from a local or remote location, and so on.
  • a list of names is captured 5910.
  • a list of names can be captured 5910 from a source file 310.
  • a list of names can be captured from any document, such as a Word document, a web page, an Excel spreadsheet, a PDF file, a paper document, and so on.
  • the list of names can be captured in a variety of ways .
  • a list of names is captured 5910 by the PD capture module 318 or document parser module 326 in response to the printing of the document.
  • a list of names is captured 5910 by the event capture module 324 in response to the viewing, copying, editing, etc. of the document.
  • a list of names is captured 5910 by scanning and performing OCR on a document.
  • Capturing a list of names can include parsing the source file 310 (or other document) in order to locate "named entities" or other interesting information that may populate a multimedia annotation interface.
  • the named entities are, for example, labels which can be applied to multimedia later. For example, titles, authors, times, or locations can be detected in the document and, thus, a list of names captured 5910.
  • a sample source file 310 is illustrated.
  • a document or web page is shown including an agenda for a "San Francisco Walking Tour.”
  • the source file 310 includes a plurality of names, such as proper names, times, locations, and so on which can be captured 5910.
  • the source file 310 can be a web page, and in response to the viewing of the source file 310, the times "9 am”, “10 am”, “noon”, “lpm", and "2 pm” can be captured.
  • Other examples of names that can be captured from a document such as the source document 310 will be apparent to one of skill in the art without departing from the scope of the present invention.
  • the list of names is displayed 5912 to a user.
  • the list of names can be displayed 5912 on any device, such as an MMR computer 112 or a capture device 106.
  • the device that displays 5912 the list of names may or may not be the same device that captures 5910 the list of names.
  • the list of names 5910 is captured on a first device and electronically transferred to a second device.
  • the second device displays 5912 the list of names to a user.
  • a menu 6001 is displayed on the display 212.
  • the menu 6001 includes a plurality of names 6004 as user options.
  • the names 6004 displayed 5912 to the user include at least a subset of the captured 5910 list of names.
  • the names "City Hall”, “Robin Williams”, “McAuliff Park”, “Rose Garden”, and “Bayshore” are presented as user options.
  • the displayed 5912 names can also be captured 5910 from a variety of documents. According to one embodiment of the present invention, the order of the displayed 5912 names is different than the order in which the names were captured 5910.
  • the displayed 5912 names can be reordered based on, for example, the frequency with which the names are selected (such as putting more commonly selected names at the top of the list) , the prominence of the name in the document from which the name was captured 5910, the importance or prominence of the document from which the name was captured 5910, and so on. Furthermore, in the case in which more names are captured 5910 than are displayed 5912, similar metrics can be used to determine which names should be displayed 5912.
  • Displaying 5912 a list of names based on the captured 5910 list of names advantageously presents options to the user that are relevant to the user's activities, for example, based on the documents that the user has recently printed or viewed. Thus a convenient and intelligent user interface is presented.
  • the menu 6001 can also include a title 6002.
  • the title 6002 can include a description of the media file to be labeled.
  • the title 6002 can indicate the time and/or source from which the media file was acquired, and any previous labels applied to the media file.
  • a user selects one of the names 6004 displayed 5912 on the menu 6001. Responsive to the user selection, the media file is associated 5914 with the user-selected name.
  • the media file can be associated 5914 with the user-selected name in a variety of ways.
  • a media file can include or more metadata fields, and the user-selected name can be stored in a metadata field.
  • the user-selected name can be stored separately from the media file, and a pointer or other association can associate the user-selected name with the media file.
  • the user-selected name can be used as a file name for the media file.
  • the user-selected name can be used as a folder name in which the media file is stored.
  • the media file is an image file 6005, storing an image in the form of image data 6008.
  • the user-selected name in this example, "Rose Garden”
  • the label "Rose Garden” is associated with the media file.
  • the user-selected name is available for future organizing, searching, and/or display of the media file.
  • an MMR document is retrieved based on recognition of a paper document.
  • a representation of the paper document is acguired and compared to a fingerprint of the MMR document.
  • Responsive to the comparison of the paper document and the virtual multimedia document a set of actions is displayed to a user. Responsive to a user selection, the user-selected action is performed. For example, a recognized document (or an identifier thereof) can be retrieved and stored for later viewing. As another example, an appointment can be scheduled. As yet another example, a product can be purchased.
  • a captured list of names is used to assist a user with labeling a media file. For example, a list of names is captured from a document. The list of names is displayed to a user. Responsive to a user selection, the media file is associated with the user-selected name.
  • an MMR document is retrieved based on recognition of a paper document. Responsive to a comparison of the paper document and a virtual multimedia document, a set of actions is displayed to a user . Responsive to a user selection, the user-selected action is performed. In another embodiment, a captured list of names is used to assist a user with labeling a media file.
  • Figure 6IA illustrates a flowchart of a method 6100 of using an MMR document 500 and the MMR system 100b in accordance with the present invention.
  • the method is designed to provide MMR users 110 with a way to associate an action with an image.
  • the method 6100 begins by acquiring 6102 an image or a representation of the image and an action.
  • the action is configured to be associated with the image.
  • the image can be included in a printed document or a webpage.
  • the image can include machine-readable marking that is visible to video camera 232 or still camera 234 of capture device 106, but that is invisible or very faint to humans. Examples of the image include an image of a trademark and a logotype.
  • the image can be in one of a number of specifications, such as TIFF, BMP, GIF, and JPEG.
  • Examples of the action include: (1) retrieving information from the document event database 320 (in one particular embodiment, the document event database 320 (including PD index 322) is implemented as database system 3400 as shown in Figure 34A) , the Internet, or elsewhere (e.g., downloading a movie trailer to the capture device 106 or a separate video display device, such as an iPod video) ; (2) writing information to a location verified by the MMR system 100b that is ready to receive the system' s output; (3) looking up information (e.g., conducting a local/global search) ; and (4) displaying information on a client device, such as capture device 106, and conducting an interactive dialog with a user (e.g., performing a survey) .
  • the image can be associated with multiple actions.
  • the image is created by an MMR user 110 and later acquired 6102 by the MMR system 100b.
  • the user can create the image using a software application provided by the MMR service provider 5310 or by a third-party software provider (e.g. , Paint from Microsoft, Photoshop from Adobe) .
  • the image can be acquired using different methods.
  • Example methods of acquiring the image include the following: (1) the image is acquired by capturing automatically, via PD capture module 318, the layout of a printed document within the operating system of MMR computer 112; (2) the image is acquired by capturing automatically the layout of a printed document within printer driver 316 of MMR computer 112; (3) the image is acquired by scanning a paper document via a standard document scanner device 127 that is connected to, for example, MMR computer 112; (4) the image is acquired with image capture device 106 including the capture mechanisms 230 shown in Figure 2E; and (5) the image is acquired by transferring, uploading or downloading, automatically or manually, a file that is a representation of the image to the MMR computer 112.
  • the method 6100 can create it using user input (such as texts and images) .
  • the action can be acquired 6102 using different methods similar to those of the image.
  • an MMR user 110 plans to associate the logotype of Coca-Cola, a trademark of the Coca-Cola Company, with the action of visiting the official website of the Coca-Cola Company (www.cocacola.com).
  • the printed representation of the logotype is acquired by the PD capture module 318.
  • the user inputs the action (visiting www.cocacola.com) in the MMR computer 112 through a UI generated by the printer driver for MM 330.
  • the method 6100 performs 6104 an indexing operation on the image.
  • the indexing operation allows identification of the corresponding electronic representation of the image and the associated action for input that matches the acquired image.
  • indexing is performed in two steps. In the first step, the image content-based retrieval component 414 performs image comparison between the image and the representation of images already stored in the document event database 320.
  • the method 6100 can determine that the image is not unique, notify the MMR user 110 such determination, and end the method 6100. The user can choose to modify the image and restart the process. Assuming the image is determined to be sufficiently unique, the second step of the indexing operation is performed that adds the image and the associated action to the document event database 320. In one implementation, described with respect to Figure 35, the PD index 322 (or equivalently, MMR index table 3404) is updated.
  • Examples of features that can be added to such an index table include the following: (1) the x-y locations of characters in the image; (2) the x-y locations of words in the image; (3) the x-y locations of a portion of the image; (4) an OCR imaging operation is performed, and the x-y locations of characters and/or words are indexed accordingly; and (5) feature extraction from the image is performed, and the x-y locations of the features are indexed.
  • Examples of feature extraction include region segmentation, color analysis, edge detection, face detection, texture analysis, or any of the commonly used methods for feature extraction in content-based retrieval algorithms.
  • the indexing operation 6104 may include any of the above or groups of the above indexing operations depending on application of the present invention.
  • the document event database 320 stores the image in the first media portion of an MMR document 500, the action in the second media portion, along with the result of the indexing operation, which associates the action with the image.
  • the image content-based retrieval component 414 performs image comparison between the Coca*Cola logotype and the images stored in the document event database 320.
  • the component 414 determines that the logotype is unique.
  • the PD capture module 318 updates a PD index 322 (or equivalently the MMR index table module 3404 or some other dedicated module updates the index) for the logotype, and the action is associated with the image as described with respect to Figure 35.
  • An analogous set of steps is performed (as described with respect to Figure 35) if a scanned image of the logotype is input.
  • an MMR document 500 is created in the database 320, the imaged (printed or scanned) representation of the logotype being the first medium, and the action being the second medium.
  • the method 6100 also acquires 6106 a document.
  • the document acquired can be the entire document or just a portion of the document.
  • the document can be acquired by scanning a portion of the document with one or more capture mechanisms 230 of capture device 106.
  • the document being acquired needs not be in a printed form, it can be displayed electronically on a video display device (e.g., the output device 164).
  • the document can be a label on a beverage container.
  • the label includes the image of the Coca*Cola logotype.
  • An MMR user 110 can use a cellular camera phone to take an image of the label, thereby acquiring the image of the logotype.
  • this pattern matching step 6108 is performed by the document fingerprint matching module 226. Because the document image may include multiple sub-images stored in the database 320, it should be understood that this pattern matching step may be performed a plurality of times, once for each sub-image in the document image, to determine if any of the sub-images are included in the database. In another embodiment, this pattern matching step 6108 is performed by the image content based retrieval component 414. A document image or any of its sub-images is determined to be in the database if its associated level of confidence exceeds a predefined threshold.
  • the method performs a document or pattern matching 6108 between the acquired document and documents stored in the document event database 320. This can be done by performing document fingerprint matching of the acquired document to the documents stored in the database 320.
  • the method performs pattern matching between the beverage label and the Coca 'Cola logotype and determines that the label contains the logotype.
  • the method 6100 executes 6110 the action acquired in the acquiring step 6102 based on the result of step 6108 and optionally based on user input. If step 6108 determines that the document includes the image, the method 6100 executes 6110 the action. It should be understood that the pattern matching step 6108 may determine that the document includes other images stored in the database 320. Therefore, the method 6100 may execute multiple actions, each associated with an image included in the document . Once step 6110 has been done, the method 6100 is complete and ends.
  • step 6108 determines that the document includes the Coca'Cola logotype
  • the method 6100 executes 6110 the associated action - visiting the official website of the Coca-Cola Company.
  • the cellular camera phone retrieves the webpage through the Internet from the website www.cocacola.com.
  • FIG 61B illustrates a flowchart of a method 6120 of using an MMR document 500 and the MMR system 100b in accordance with the present invention.
  • the method 6120 is designed to provide MMR users 110 a way to collaboratively add annotations that are readily available to other MMR users.
  • the method 6120 begins by acquiring 6122 a first document or a representation of the first document.
  • the first document is the work the MMR users 110 intend to add annotations to.
  • the first document can be acquired using methods similar to those of the acquiring step 6102 described above with reference to Figure 61A so that description is not repeated here.
  • the publisher of the book HarryPotter and the Sorcerer's Stone can scan the book using the document scanner 127 to acquire 6122 the printed representation of the book.
  • the method 6120 performs 6124 an indexing operation on the first document.
  • the indexing operation 6124 allows identification of the corresponding electronic representation of the first document and associated second media types from input that "matches" the first document (using a document fingerprint matching module 226 further described with respect to Figure 6) or portions thereof.
  • a document indexing operation is performed by the PD capture module 318 that generates the PD index 322. Equivalently, the indexing operation can be performed as described with respect to Figure 35.
  • the indexing operation 6124 may include any of the indexing operations described in the indexing step 6104 with reference to Figure 61A depending on application of the present invention.
  • the system stores the first document in the first media portion of an MMR document 500 along with the result of the indexing step 6124 (e.g., the PD index 322 or equivalently the MMR index table 3404) in the document event database 320.
  • the system 100b determines whether a different edition of the first document is already stored in the database 320.
  • the first document is a paperback copy, and the system 100b may have previously acquired the hardcover copy of the same document.
  • the database 320 may have one or more different editions of the first document.
  • the collaborative document review component 422 can create an intermediate link layer between the editions.
  • the intermediate link layer associates the same section of the different editions together.
  • the intermediate link layer can be created on the fly when an MMR user 110 is accessing one edition of the first document. Alternatively, it can be created when the different editions are acquired.
  • the component 422 can identify the corresponding sections in the other editions (e.g., the first paragraph of the preface of hardcover copy of Harry Potter and the Sorcerer's Stone) .
  • the PD capture module 318 generates a PD index 322 for the paperback edition. Equivalently, the indexing operation can be performed as described with respect to Figure 35.
  • the database 320 stores the printed representation of the book in the first media portion of an MMR document 500 along with the PD index 322. Assuming an MMR document 500 associated with the hardcover Harry Potter and the Sorcerer's Stone is also stored in the database 320, an intermediate link layer would be created between the two editions and stored in the database 320.
  • the method 6120 acquires 6126 relevant data and associates them with the first document.
  • the relevant data can be comments or annotations about the first document or a portion thereof.
  • the relevant data can be made by one or more MMR users 110.
  • the relevant data are contents accessible over the Internet.
  • the entries from a BLOG designated for Harry Potter can be part of the relevant data.
  • Contents provided by users in a community website discussing the book can also be part of the relevant data.
  • an MMR user 110 finds a comment about the preface of Harry Potter and the Sorcerer's Stone interesting. That user can associate the preface of the book and the comment by creating a hotspot 506 including the preface and associating the comment with the hotspot 506.
  • the user can input his comments about a character in the book and associate the input with the relevant sections of the book.
  • the user can create the associations using the document authoring component 442.
  • the user can use the multimedia annotation software 410 to create the associations.
  • These associations and relevant data can be stored in the MMR document 500 created for the first document. It is noted that multiple sources of data can be associated with the same section of the first document, and multiple MMR users 110 can create an association. When there are multiple editions of the first document in the database 320, the MMR users 110 can choose to make the association to any of the editions.
  • the method 6120 acquires 6128 a second document.
  • the second document acquired can be the entire document or just a portion of the second document.
  • the second document can be acquired using methods similar to those of the acquiring step 6106 described above with reference to Figure 6IA so that description is not repeated here.
  • an MMR user interested in knowing others' opinions about the preface of the book HarryPotter and the Sorcerer's Stone can point the camera of his cellular camera phone at the book and take a picture of the preface.
  • the cellular camera phone as a result acquires an image containing a portion of the printed representation of the preface.
  • step 6128 the method 6120 performs 6130 document or pattern matching between the first document and the second document . This step can be done in a manner similar to the pattern matching step 6108 described above with reference to Figure 61A so that the description is not repeated here.
  • the method 6120 also identifies the section of the first document that matches with the acquired portion of the second document .
  • the document fingerprint matching module 226 generates a feature description for the acquired portion of the second document, queries in the database 320 for matching documents (specific implementation of which is provided in Figure 34A) , and determines that the first document matches with the second document. The module 226 further determines that the portion of the second document acquired is the preface of the book. Finally, the method 6120 retrieves 6132 data stored in second media portion of the MMR document 500 matching the second document based on result of step 6130 and optionally based on user input. In one embodiment, the method 6120 identifies hotspots in the section of the first document acquired in step 6128 and retrieves the data of the second media types associated with the identified hotspots.
  • the method 6120 can display the data associated with one or more of the hotspots .
  • the collaborative document review component 422 can retrieve data associated with the hotspots of each edition that corresponds to the portion of the second document acquired and make them ready for the user to review.
  • the method 6120 retrieves annotations associated with hotspots in the preface of a paperback copy of Harry Potter and the Sorcerer's Stone and the preface of the hardcover copy.
  • the method 6120 can prompt the user which hotspot he is interested in and display the annotations accordingly.
  • the method 6120 executes an action based on result of step 6130.
  • the method 6120 can launch a browser to visit a webpage containing comments relevant to the portion of the second document acquired in step 6128.
  • the method 6120 can launch an application that enables the MMR user 110 to input his comments about the portion, associate the comments to the portion, and store the comments in the second media portion of the MMR document 500.
  • step 6132 has been done, the method 6120 is complete and ends.
  • Figure 61C illustrates a flowchart of a method 6140 of using an MMR document 500 and the MMR system 100b in accordance with the present invention.
  • the method 6140 is designed to provide MMR users 110 with tools to cross-reference relevant documents .
  • the method 6140 begins by acquiring 6142 a first document (or a representation of the first document) and a second document (or a representation of the second document) .
  • the first and second documents are related to each other.
  • the first document can be Hamlet written by William Shakespeare, while the second document can be Cliff Notes: Hamlet Book Summary, Monarch Notes - Hamlet, an abridged version of Hamlet, or an exam about Hamlet .
  • the two documents can be acquired using methods similar to those of the acquiring step 6102 described above with reference to Figure 6IA so that description is not repeated here.
  • the publisher of the book Cliff Notes: Hamlet Book Summary can scan the book Hamlet and the corresponding CIiffNotes using the document scanner 127 to acquire 6142 the printed representation of the two documents.
  • the method 6140 performs 6144 an indexing operation on the two documents.
  • the indexing operation allows identification of the corresponding electronic representations of the documents and associated second media types for input that matches either of the documents or portions thereof.
  • the indexing operation 6144 may include any of the indexing operations described in the indexing step 6104 with reference to Figure 61A depending on application of the present invention.
  • the indexing operation 6144 can create hotspots 506 in the relevant sections of the two documents and associate the hotspots 506 with references to the corresponding sections in the other document.
  • the method 6140 can associate the Act I: Scene 4 of Hamlet with a reference to the corresponding scene in the Cliff Notes, and save the reference in the second media portion of the MMR document along with a printed representation of Hamlet.
  • the method 6140 can also create a corresponding reference from the Cliff Notes back to Hamlet.
  • the method 6140 can associate each appearance of a character in Hamlet (e.g., Claudius) with the corresponding Character Analysis in the Cliff Notes.
  • the indexing operation 6144 can be performed automatically or with human intervention.
  • the publishing company of Cliff Notes can provide the cross referencing information between Hamlet and the Cliff Notes.
  • the method 6140 can use a software application to automatically generate cross-referencing information of the two documents. It will be apparent, however, to one skilled in the art that there could be multiple documents associated with each other, for example, a quiz book, a teacher' s guide, and a text book about the same subject.
  • the indexing step 6144 can create references within the same document. For example, a reference to the section where a character is first introduced can be associated with each subsequent appearance of the character in the same document. This can be implemented with a text search for the character' s name on the document text stored in the database 3400 and an insertion of links in the database that implement the cross references.
  • the method 6140 acquires 6146 a third document.
  • the third document acquired can be the entire document or just a portion of the third document.
  • the third document can be acquired using methods similar to those of the acquiring step 6106 described above with reference to Figure 61A so that description is not repeated here.
  • an MMR user 110 who is puzzled by a section of Hamlet and would like to know how the Cliff Notes or Monarch Notes interprets the section can point the camera of his cellular camera phone at the section and take a picture of it.
  • the cellular camera phone as a result acquires an image containing the printed representation of the section.
  • step 6146 the method 6140 performs 6148 document or pattern matching between the third document and the documents acquired in step 6142. This step can be done in a manner similar to the pattern matching step 6108 described above with reference to Figure 61A so that the description is not repeated here. Assuming a matching document is located, the method 6140 also identifies the section of the document that matches with the acquired portion of the third document .
  • the document fingerprint matching module 226 generates a feature representation for the acquired portion of Hamlet, queries in the document event database 320 for matching documents, and determines that the third document is Hamlet by William Shakespeare published by the Washington Square Press, 2003 Edition. The module 226 further determines that the portion of the third document acquired is the portion in Act I: Scene 4 where Hamlet met with the ghost of his father.
  • the method 6140 retrieves 6150 the cross-referencing information stored in the second media portion of the MMR document 500 of the matching document based on result of step 6148 and optionally based on user input .
  • the method 6140 identifies hotspots in the portion of the matching document acquired in step 6146 and acquires the data of the second media types associated with the hotspots.
  • the method 6140 can display the data associated with one or more of the hotspots. For example, the method 6140 retrieves the referencing information associated with the hotspots of the scene where Hamlet met the ghost of his father.
  • the method 6140 can prompt the user for the subject he is interested in (e.g., the historical background, the implications of the scene, related scenes, or the expert comments) , and display references to the CliffNotes and other relevant documents based on the user' s input . Once step 6150 has been done, the method 6140 is complete and ends.
  • the method 6140 can retrieve the text the reference refers to and display the text to the user.
  • Figure 61D illustrates a flowchart of a method 6160 of using an MMR document 500 and the MMR system 100b in accordance with the present invention.
  • the method 6160 is designed to provide MMR users 110 with tools to create multimedia documents on the fly as the contents are captured.
  • the method 6160 begins by creating 6162 a first document.
  • the first document is the document that the MMR user 110 intends to add in contents yet to be captured.
  • the first document can be of any format, such as a PowerPoint document, a Word document, and a PDF document.
  • the first document can be created in the MMR computer 112 or the networked media server 114.
  • the first document can later be transferred to the capture device 106.
  • the MMR user 110 can create the first document in the capture device 106.
  • an MMR user 110 plans to attend a conference, create a PowerPoint document about the conference during the attendance, and then make a presentation using the PowerPoint document.
  • the MMR user 110 creates a PowerPoint document on the MMR computer 112 before leaving for the conference.
  • the document is either empty or contains only brief introduction of the conference.
  • the MMR user 110 then pushes the document to the storage device 216 of the capture device 106 via wire or wireless means.
  • the method 6160 then performs 6164 an acquiring operation on a second document or a representation of the second document.
  • the second document is intended to assist the user to create the first document.
  • the second document can be a schedule for a conference, a plan for a road trip, and the like.
  • the second document can be acquired using methods similar to those of the acquiring step 6102 described above with reference to Figure 61A so that description is not repeated here.
  • the MMR user 110 can print a webpage containing the conference schedule using the printer 116.
  • the PD capture module 318 captures the text layout of the conference schedule within the operating system of MMR computer 112.
  • the method 6160 can optionally process the second document to identify named entities.
  • named entity recognition is well known technology.
  • the document parser module 326 can parse the second document to locate embedded named entities, such as lecture title (e.g. , "An Inconvenient Truth") , keynote speaker name (e.g., "Al Gore"), and location (e.g., "Center Building”).
  • the named entities can later be chosen by the user to describe contents captured.
  • the document parser module 326 can also parse out other relevant information such as the time and duration for each event on the schedule.
  • the located entity names can be stored in the storage device 216 of the capture device 106.
  • the method 6160 can then perform 6166 an indexing operation on the acquired second document.
  • the indexing operation allows identification of the corresponding electronic representation of the second document and associated second media types for input that matches the acquired second document or portions thereof.
  • the indexing operation 6166 may include any of the indexing operations described in the indexing step 6104 with reference to Figure 61A depending on application of the present invention.
  • the method 6160 acquires 6168 contents. These contents can be acquired by any of the capture mechanisms 230 of the capture device 106. For example, while sitting through one lecture of the conference, the MMR user can use the video camera 232 to take a video clip of the speaker, use the video recorder 236 to record a part of the lecture, or use the keypad 214 to input his comments about the lecture.
  • the method 6160 labels the contents acquired in step 6168 and modifies 6170 the first document by adding the labeled contents based on the second document. For example, after the user captures a video clip of a lecture, the capture device can prompt the user to choose from the entity names located earlier from the second document. The user can select the phrases such as "An Inconvenient Truth” and "Al Gore.” As a result, the video clip would be inserted into the previously created PowerPoint document along with the comments "An Inconvenient Truth, Al Gore.” In one embodiment, the method 6160 can use the machine time of the processor 210 and the time listed in the second document to determine the current event.
  • the method 6160 can automatically label the audio clip "audio clip of the lecture the origin of the universe.”
  • the user can use the keypad 214 to type labels and annotations to the contents captured, or use the voice recorder 236 to record his verbal comments about the contents.
  • the method 6160 can also acquire a portion of the second document in a way similar to those of the acquiring step 6106 described above with reference to Figure 61A.
  • the MMR user 110 can point the camera of his cellular camera phone at a section of the printed conference schedule and take a picture of it.
  • the cellular camera phone as a result acquires an image containing the printed representation of a section of the conference schedule.
  • the method 6160 can then perform a pattern matching (using document fingerprint matching module 226) between the acquired printed representation and the second document to determine the content of the section of the second document, and use the content of that section to label the captured contents.
  • the method 6160 avails the modified document to the MMR user 110.
  • the user can then use the document with or without further editing.
  • the user can make the representation using the modified PowerPoint document without further editing. Therefore, the PowerPoint document is authored at least partially on the fly when the user is acquiring the contents for the document.
  • the real-time notification component 424 can post the acquired contents and comments to a webpage (e.g., a BLOG) in real-time.
  • a webpage e.g., a BLOG
  • the method 6160 does not need to create 6162 the first document, nor does it need to acquire 6168 data or modify 6170 the first document. Instead, the method 6160 acquires and indexes the second document, and then acquires a portion of the second document, performs document fingerprint matching to determine the content of the portion acquired, and stores the content for further usage by the user. For example, an MMR user 110 working on an essay about Hamlet can scan a book in the same field. When the user later reads the book, whenever he finds some paragraph useful, he can use his cellular camera phone to take a picture of that section. The cellular camera phone can perform a pattern matching to determine the location of that section in the book and retrieve the content of that section.
  • At least one aspect of one or more embodiments of the present invention provides a method to generate a unique image of which users can associate an action.
  • the method acquires the image, determines that the image is unique, and generates an index for the image. After the image is indexed, the method acquires a document and performs a pattern matching between the document and the indexed image. If the method determines that a portion of the acquired document matches the indexed image, it performs the associated action.
  • At least one aspect of one or more embodiments of the present invention provides a method to facilitate collaborative annotation.
  • the method first acquires and indexes a document. Users collaboratively provide annotation information associated with portions of the document. The method then acquires a portion of the document, identifies ' the portion acquired, and provides the annotation information associated with the portion.
  • At least one aspect of one or more embodiments of the present invention provides a method to provide links between documents.
  • the method acquires two associated documents and associates the related portions together.
  • the method acquires a portion of one of the document, it identifies the portion acquired, and provides the related portion of the other document .
  • At least one aspect of one or more embodiments of the present invention provides a method to author documents on the fly-
  • the method acquires a document, identifies the content of the document, and index the acquired document.
  • the method later acquires data, annotates the acquired data using the content of the document, and authors a document using the annotated data.
  • the MMR system provides a method to associate related documents.
  • the method acquires two associated documents and associates the related portions together.
  • the method acquires a portion of one of the document, it identifies the portion acquired, and provides the related portion of the other document. Another embodiment is described in the following.
  • Figure 62 illustrates a flowchart of a method 6200 of using an MMR document 500 and the MMR system 100b in accordance with the present invention.
  • the method 6200 begins by acquiring 6210 a document or a representation of the document.
  • the document contains some geographical location information. Examples of the document include the following: (1) a HTML file (e.g., a webpage of Google map); (2) a document containing addresses or names of locations (e.g., a PDF document containing driving directions for the National History Museum) ; and (3) a printed document about a specific geographic area (e.g., the Rome City Guide published by the Lonely Planet) .
  • a HTML file e.g., a webpage of Google map
  • a document containing addresses or names of locations e.g., a PDF document containing driving directions for the National History Museum
  • a printed document about a specific geographic area e.g., the Rome City Guide published by the Lonely Planet
  • the document can be acquired using different methods .
  • Example methods of acquiring the document include the following:
  • the document is acquired by capturing automatically, via PD capture module 318 (or equivalently the MMR Printing Architecture described earlier with respect to Figures 37-47) , the text layout of a printed document within the operating system of MMR computer 112; (2) the document is acquired by capturing automatically the text layout of a printed document within printer driver 316 of MMR computer 112; (3) the document is acquired by scanning a paper document via a standard document scanner device 127 that is connected to, for example, MMR computer 112; and (4) the document is acquired by transferring, uploading or downloading, automatically or manually, a file that is a representation of the printed document to the MMR computer 112.
  • PD capture module 318 or equivalently the MMR Printing Architecture described earlier with respect to Figures 37-47
  • the acquiring step has been described as acquiring most or all of the printed document, it should be understood that the acquiring step 6210 could be performed for only the smallest portion of a printed document. Furthermore, while the method is described in terms of acquiring a single document in this step, those skilled in the art will recognize that this step may be performed to acquire a number of documents and create a library of documents. For example, an MMR user 110 plans to have dinner in a restaurant and prints a HTML file containing the menu of the restaurant using the MMR computer 112 and the user printer 116. The PD capture module 318 acquires 6210 the printed representation of the HTML file by capturing the text layout of the printed menu. Once the acquiring step 6210 is performed, the method
  • the 6200 performs 6212 -an indexing operation on the document.
  • the indexing operation allows identification of the corresponding electronic representation of the document and associated second media types for input that matches the acquired first document or portions thereof.
  • a document indexing operation is performed by the PD capture module 318 that generates the PD index 322.
  • Example indexing operations include the following: (1) the x-y locations of characters of a printed document are indexed; (2) the x-y locations of words of a printed document are indexed; (3) the x-y locations of an image or a portion of an image in a printed document are indexed; (4) an OCR imaging operation is performed, and the x-y locations of characters and/or words are indexed accordingly; (4) feature extraction from the image of the rendered page is performed, and the x-y locations of the features are indexed; and (5) the feature extraction on the symbolic version of a page are simulated, and the x-y locations of the features are indexed.
  • the indexing operation 6212 may include any of the above or groups of the above indexing operations depending on application of the present invention.
  • the document event database 320 stores the document (or a representation of the document) along with the result of the indexing operation.
  • the PD capture module 318 performs 6212 the indexing operation on the printed representation of the HTML file and generates a PD index 322 for the printed representation. Both the printed representation of the menu and the PD index 322 are stored in the document event database 320.
  • the method 6200 performs 6214 an extracting operation on the document to identify associated geographic locations.
  • the document parser module 326 parses the document to locate embedded geographic related information, such as addresses and entity names that represent a location, e.g., Hallidie Building.
  • the address does not need to be in the form of mailing address, it can be cross streets or merely a city name.
  • the document parser module 326 can then apply an entity name recognition process to the located entity names to determine the address or the latitude and longitude coordinates of the entity.
  • the document parser module 326 can conduct the entity name recognition process using a commercial database, such as the one used by Google Earth.
  • the geographic related information can then be converted into geographic locations.
  • the addresses and location names can be converted into their corresponding latitude and longitude coordinates using a geographic database, such as the one used by Google Earth.
  • the document parser module 326 can then transmit the geographic location to the capture device 106 of the MMR user 110.
  • the geographic location can be stored in the storage device 216 of the capture device 106.
  • the geographic location can be provided by the MMR user 110.
  • the Lonely Planet Publications can provide the geographic locations including the addresses and/or the latitude and longitude coordinates of the places and maps in its travel books when they are processed by the MMR system 100b.
  • the Lonely Planet Publications can use the document authoring component 442 to create one MMR document 500 for each of the travel books, create hotspots 506 for the places and maps in the travel books, add the geographic location information in the second medium portion of the MMR documents, and associate the geographic location to the corresponding hotspots 506.
  • the document fingerprint matching module 226 When an MMR user 110 points a capture device 106 at a page of a travel book, the document fingerprint matching module 226 performs pattern matching, identifies the MMR document 500 of the travel book along with the hotspots 506 on that page, thereby extracts the associated geographic locations provided by the Lonely Planet Publications.
  • the document fingerprint matching module 226 can also transmit the geographic location information to the capture device 106.
  • the geographic location can be provided in the metadata of the document .
  • the geographic location information can be provided in HTML tags such as SPAN tags. SPAN tags with an attribute "EXECUTE_WHEN_PRINTED" can point to quoted strings containing commands and parameters.
  • the tag When a document containing such a SPAN tag is printed, the tag is not necessarily displayed on the printed document.
  • the command and its parameters e.g., represented by a SPAN tag with the attribute "EXECUTE_WHEN_PRINTED" are parsed by the document parser module 326 and stored in the second medium portion of the MMR document of the HTML file, associated with the tagged section of the printed document.
  • the location sensitive tags specify geographic location information for the associated section and can optionally provide actions that can be triggered based on the location of the capture device 106.
  • HTML> ⁇ BODY> The Corner Restaurant at Main and Cherry Has a special habanero burrito.
  • ⁇ /BODY> ⁇ /HTML>
  • the document parser module 326 can extract the command
  • the document parser module 326 can also transmit the content to the capture device 106 of the MMR user 110.
  • the content is a location-sensitive tag that invokes audio guidance to the Corner
  • the command provided in the HTML tags have applications other than the geographic location application as described in the method 6200.
  • the command can be configured to update the user's calendar by adding an appointment specified in the HTML tags (or elsewhere in the document) .
  • the command can also update the contact manager with contact information, send notice (e.g., email message and/or voice mail) to the user or designated personnel (e.g., the document distribution manager of the relevant entity) advising that the document has been printed and should be shredded.
  • the document parser module 326 extracts geographic location information from the SPAN tags in the HTML file and transmits the information to the cellular camera phone of the MMR user 110.
  • the document parser module 326 also transmits an image representation of the menu to the cellular camera phone.
  • the SPAN tags would be extracted by the MMR Printing Architecture described earlier with respect to
  • Figures 37 - 47 saved in the database 3750 (equivalently MMR database 34A) , and transmitted to capture device 106 by unconscious upload component 446 in response to printing the document .
  • the 6200 performs 6216 an identifying operation to determine the geographic location of the capture device 106.
  • the GPS device 242 of the capture device 106 can determine the geographic location of the capture device 106 in real time by means of triangulation. Alternative methods of determining geographic location are described with respect to 142 of Figure IB and do not require a GPS device on capture device 142.
  • the MMR user 110 drives to the restaurant with his cellular camera phone and the printed menu.
  • the GPS device 242 (or alternative method of determining geographic location) of the cellular camera phone identifies the location of the phone in real time as the MMR user 110 approaches the restaurant. It is noted that the MMR user 110 does not need to bring along the printed menu, because the cellular camera phone has a copy of the image representation of the menu received earlier from the document parser module 326.
  • the method 6200 executes 6218 an action based on the extracted geographic location and the geographic location of the capture device 106 and optionally based on user input.
  • the method 6200 looks up actions that are associated with the extracted geographic location, as for example, stored in the storage device 216 of the capture device 106 together with the associated geographic location.
  • the action can be transmitted to the capture device 106 along with the geographic location by the document parser module 326.
  • the action can be a predetermined action. Examples of predetermined actions include: (1) providing directional information to the associated geographic location; (2) retrieving information from the document event database 320, the Internet, or elsewhere; and (3) executing the action associated with the geographic location.
  • step 6218 Once step 6218 has been done, the method 6200 is complete and ends.
  • the method 6200 executes 6218 the action by transmitting the extracted geographic location to a third-party software module 228 with street navigation capacity.
  • the third-party software module 228 can then guide the MMR user
  • the capture device 106 can transmit the extracted geographic location to an external device (e.g., GPS system in the MMR user's car) via wireless communications link 218, in combination with Wi-Fi technology 134 or Bluetooth® technology 136, or by wired connection to the external device.
  • an external device e.g., GPS system in the MMR user's car
  • the capture device 106 can utilize geographical locations previously used and prompt the MMR user 110 when he is nearby. Alternatively, assuming the MMR user previously visited a Subway restaurant using the MMR navigation service, the capture device 106 can provide the user with location information of the nearby Subway restaurants based on the location of the user, even if the previously visited Subway restaurant is not among them. When there are multiple extracted geographic locations applicable, the capture device 106 can prompt the MMR user 110 to select one through the display 212.
  • the method 6200 executes 6218 the action by providing narrowly targeted advertisements to the MMR user 110 in the display 212 of the capture device 106.
  • the method 6200 can provide the advertisements for businesses geographically located near the extracted geographic location, giving the MMR user 110 a sense of the services and products provided.
  • the method 6200 can provide the advertisements for businesses located between the extracted geographic location and the current position of the MMR user 106.
  • the method 6200 can further tailor the advertisements to be displayed by the preferences of the MMR user 110.
  • the method 6200 can determine the preferences of the MMR user 110 by the documents he previously printed.
  • the method 6200 can retrieve these documents from the document event database 320 and process them to identify the subject matter of the documents (e.g., keywords and subjects of the documents) .
  • the MMR user 110 printed a tour map listing several historic places in the San Francisco area. Instead of displaying an advertisement for a nearby regular restaurant, the method 6200 would display the advertisement for an historic restaurant.
  • Such advertisements can also include timing information (e.g., schedule of movie theaters) and promotional information (e.g., electronic coupons) .
  • Such advertisements can be provided by the cell phone service provider 718 to the capture device 106 through the local cell tower or by advertising company 740.
  • the geographic location information transmitted to the capture device 106 includes the entity names that represent a geographic location.
  • an MMR user 110 printed a trip schedule including Yellow Stone, Golden Gate, and the Grand Canyon.
  • the document parser module 326 also transmits the associated entity names ("Yellow Stone,” "Golden Gate” and "Grand Canyon") to the capture device 106.
  • the entity names can then be used to annotate data captured in these places. For example, the user takes several photos in Grand Canyon, records a wolf growling in Yellow Stone, and captures video of San Francisco downtown on Golden Gate Bridge using the still camera 234, voice recorder 236, and video camera 232 of the capture device 106 respectively.
  • the capture device 106 can determine its real time location through the GPS device 242 (or alternative method of determining geographic location) , the capture device 106 can determine that the photos are taken in Grand Canyon, the audio clip in Yellow Stone, and the video clip on Golden Gate Bridge, and annotate and/or name them accordingly. The capture device 106 can also annotate the photos, audio/video clips with the geographic locations of the capture device 106 when they are captured, and map them to geographic applications (e.g., Google Earth) using the annotated geographic location information.
  • geographic applications e.g., Google Earth
  • the cellular camera phone directs the MMR user 110 to the restaurant using audio guidance.
  • the cellular camera phone can also display advertisements for neighboring restaurants.
  • At least one aspect of one or more embodiments of the present invention provides a method to provide a user with information related to the location of the user.
  • the method acquires a document, extracts location related information from the document, identifies the location of the users, and provides information to the user based on the identified location and the extracted information.
  • the MMR system provides a user with information related to the location of the user.
  • the system acquires a document, extracts location related information from the document, identifies the location of the users, and provides information to the user based on the identified location and the extracted information. Another embodiment is described in the following.
  • FIG 63 illustrates a functional block diagram of an embodiment of an MMR system 6300 including an MMR information device 6301 without optical capture.
  • Figure 64 illustrates a user interface of a menu for an MMR document 500 on an MMR information device of the MMR system of Figure 63.
  • Figure 65 illustrates a user interface of the MMR document 500 and hotspot information displayed on the MMR information device 6301.
  • the user does not have a capture device 106 with optical capture and pattern recognition.
  • the MMR information device 6301 may direct a user to hotspots in the document and provides hotspot information to the user.
  • the MMR information device 6301 stores and displays the MMR document 500 and the hotspots in the MMR document 500.
  • the MMR information device 6301 may communicate with the MMR system 100 in a similar manner as the capture devices 106 described above.
  • the MMR information device 6301 may store MMR information including text and pictures of the MMR document 500, hotspot identifiers within the MMR document 500, and hotspot information for the MMR document 500.
  • the hotspot identifiers may be, for example, an icon or a link.
  • the user selects hotspots in the document using a user interface on the MMR information device 6301.
  • the MMR information device 6301 provides the hotspot information to the user either as text, images, audio, or video.
  • a user may view the user interface of Figure 64 and select the article entitled "Prime Minister Koizumi Visits Graceland".
  • the MMR information device 6301 may display a video or text or play audio of the Prime Minister's visit to Graceland.
  • the MMR information device 6301 includes a system interface 6310 for downloading the MMR information and hotspot information through the network 128 from a networked media server 114 or MMR media storage 162.
  • the MMR information may include text, images, audio, or video, or any combination thereof, and may be in the form of a podcast.
  • the hotspot information may provide information for purchasing products or services related to the hotspot.
  • the MMR information and hotspot information may be formatted as an MMR database 320.
  • the MMR information device 6301 caches the MMR information and hotspot information in a memory 6313 for user retrieval using a user interface 6311.
  • the MMR information device 6301 downloads MMR information and hotspot information for catalogs, magazines, newspapers and journals that the user subscribes to.
  • the user may select the information for download on the MMR information device 6301 or through an MMR computer 112.
  • the MMR information device 6301 may download the information as the user selects the information, or may download the information at a later time, such as if the MMR information device 6301 is docked with a MMR computer 112.
  • the MMR information device 6301 includes a display 6312 for displaying a menu of selectable portions of the MMR document 500 and text of the hotspot information in response to a user selection of a menu item corresponding to the hotspot.
  • the menu includes articles in the newspaper that include hotspots.
  • the selectable portions may include full or partial text of portions of the MMR document 500, and may include indicators of hotspots in these portions.
  • Figure 65 illustrates a user interface displaying the full text of an article in the MMR document and hotspot indicators 6501, which may be similar to the hotspot 506 (see Figure 5) in the document. The user may select the hotspot to retrieve the associated hotspot information.
  • Selecting the upper hotspot which is related to the paragraph on the mansion tour, causes the MMR information device 6301 to play audio or video of a portion of the Prime Minister' s visit to Graceland as he was being escorted on the tour.
  • Selecting the lower hotspot which is related to the paragraph on the Prime Minister singing, causes the MMR information device 6301 to play audio or video of the Prime Minister singing.
  • the user interface 6311 and the display 6312 are the same.
  • the MMR information device 6301 may include, for example, an audio player 6315 or a video player 6316 or both.
  • the audio player 6315 plays audio of the hotspot information in response to a user selection of a menu item corresponding to the hotspot.
  • the MMR document 500 may include entertainment, such as museums or movies, and the hotspot information may be audio of the opening times, directions or phone numbers.
  • the video player 6316 plays video of the hotspot information in response to a user selection of a menu item corresponding to the hotspot.
  • the MMR document 500 may include movie listings, and the hotspot information may be movie trailers for selected movies.
  • the MMR information device 6301 includes an audio to digital converter 6317 that converts an audio command received from a user through a microphone 6318 into a user command.
  • the MMR information device 6301 controls the selection of menu items or portions of MMR documents in response to the converted user command.
  • the user reads text from the MMR document 500.
  • the MMR information device 6301 converts the audio into text, and compares the text to the stored MMR information.
  • Figure 66 illustrates a flow chart of the operation of the MMR information device 6301.
  • the MMR information and hotspot information is stored 6602 in the memory 6313.
  • the processor 6314 displays 6604 portions of the MMR document 500 with hotspots indicated on the display 6312, such as shown in Figure 65.
  • the processor 6314 provides 6608 the hotspot information as text or video on the display 6312, or as audio.
  • Figure 67 illustrates a functional block diagram of an embodiment of an MMR system 6700 including a capture device
  • the MMR system 6700 is similar to the MMR system 6300, but further includes a capture device 106 that receives information from the MMR information device 6301 for assisting a user in locating the hotspots in the MMR document 500.
  • the capture device 106 and the MMR information device 6301 communicate directly with each other, such as by wireless communication, infrared communication or inaudible audio. In an alternative embodiment, only one of the capture device 106 and the MMR information device 6301 communicates with the MMR system 100, and forward information to the other device.
  • the capture device 106 and the MMR information device 6301 are formed as an integrated device.
  • the capture device 106 detects the hotspot and sends commands to the MMR information device 6301 for the device 6301 to retrieve the associated hotspot information.
  • the MMR information device 6301 may provide the hotspot information as described above in conjunction with Figure 63.
  • the MMR information device 6301 may send the hotspot information to the capture device 106 for providing to the user.
  • the MMR information device 6301 may delay performing a command derived from a hotspot (e.g., a command to purchase a product shown in
  • the capture device 106 may identify the MMR document
  • the MMR information device 6301 sends information to the capture device 106 to assist the user in locating hotspots in the MMR document 500.
  • the information may include graphical images of the document optionally including graphical representations for the locations of hotspots (e.g. red transparent overlays) .
  • a textual representation for the locations and contents of the hotspots may also be provided.
  • the memory may be partitioned between the MMR information device 6301 and the capture device 106 for storing the MMR document information and hotspot information.
  • either the capture device 106 or the MMR information device 6301 does not include a display for presenting the MMR document information and the hotspot information.
  • the devices 106 and 6301 communicate with each other to provide the information for display.
  • Figure 68 illustrates a flow chart of the operation of the MMR system 6700.
  • the processor 6314 stores 6802 the MMR information and hotspot information in the memory 6313.
  • the MMR information device 6301 provides 6804 locations of hotspots to the capture device 106.
  • the capture device 106 detects hotspots. If the user selects 6806 a hotspot on the capture device 106, the capture device 106 transmits 6808 a retrieval signal to the MMR information device 6301 for retrieval of the requested hotspot information.
  • the MMR information device 6301 provides 6810 the hotspot information either on the display 6312 as text, images or video, or as audio, or provides the hotspot information to the capture device 106.
  • At least one aspect of one or more embodiments of the present invention provides a Mixed Media Reality (MMR) system and associated methods.
  • the MMR system of the present invention provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and text or data in electronic form, a digital picture, a digital photograph, digital movie, digital audio file, or web link as a second medium.
  • the MMR system of the present invention facilitates business methods that take advantage of the combination of a portable electronic device, such as a portable video or audio player, and a paper document.
  • the MMR system of the present invention includes an MMR processor, a capture device, a communication mechanism and a memory including MMR software.
  • the MMR processor may also be coupled to a storage or source of media types, an input device and an output device.
  • the MMR software includes routines executable by the MMR processor for accessing MMR documents with additional digital content, creating or modifying MMR documents, and using a document to perform other operations such business transactions, data queries, reporting, etc.
  • the MMR system includes an MMR information device for storing downloaded MMR information related to the MMR document for retrieval in response to user selections inputted into the MMR information device or provided from a capture device.
  • a Mixed Media Reality (MMR) system provides mechanisms for forming a mixed media document that includes media of at least two types (e.g., printed paper as a first medium and digital content and/or web link as a second medium) .
  • the MMR system provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and a digital photograph, digital movie, digital audio file, or web link as a second medium.
  • the MMR system facilitates business methods that take advantage of the combination of a portable electronic device, such as a portable video player or a portable audio player, and a paper document for the portable electronic device to provide information.
  • Voice Mail Figure 69 illustrates a block diagram of an MMR system
  • the voice mail server 6902 provides hotspot information related to the MMR document 500 to users in the form of voice mails.
  • the MMR system 100 may provide voice mail content to the voice mail server 6902.
  • a user also may provide voice mail content to update hotspot information.
  • the MMR system 100 may be the MMR system 100a or 100b.
  • the user may leave a comment such as a compliment or complaint, related to the particular item in a hot spot, such as a restaurant, museum or film.
  • the MMR system 6900 may charge the user a fee to leave a message in the voice mail box.
  • the MMR document 500 may be a personal ad that provides a hot spot link to a voice mail box but does not include a phone number. This allows a user to place personal ads without publishing their phone number but allow respondents the ability to leave voice mails.
  • MMR document 500 may include an ad with a hot spot for placing an order. The user leaves the order details in a voice mail and the entity placing the ad able to retrieve the message for handling the order.
  • the MMR system 6900 controls the updating of hotspot information using voice mails placed by the user.
  • the voice mail server 6902 stores hotspot information related to MMR documents 500 in a voice mail memory 6904.
  • each hotspot has an associated voice mail box.
  • the voice mail server 6902 may provide the voice mails to a voice mail box of the user.
  • the MMR system 100 may transcribe the voice mail and store the transcription as updated hotspot information.
  • a variety of technologies may be used for transcription including automatic voice recognition software such as the IBM Via Voice system, or manual transcription by a human operator, or a combination of automatic and manual techniques.
  • Figure 70 illustrates a flow chart of the methodology of updating hotspot information in the MMR system 6900.
  • the MMR system 6900 receives 7002 a user selection of a hotspot on the MMR document 500.
  • the MMR system 6900 receives 7004 a user request to update hotspot information from the capture device 106 to the voice mail server 6902.
  • the MMR system 6900 connects 7006 to the voice mail server 6902 and prompts 7008 the user to leave a voice mail in the voice mail server 6902. By using the hotspot and prompt, the user accesses the voice mail box without dialing a phone number or voice mail box number.
  • the MMR system 6900 may prompt the user to categorize the voice mail.
  • the MMR system 6900 may prompt the user to enter a code on the capture device 106 to indicate whether the review is favorable, unfavorable, or indifferent.
  • the MMR system 6900 may also prompt the user to authorize payment for leaving a voice mail. After authorization, the MMR system 6900 accepts the voice mail. This feature is useful in some applications that are pay for use, such as personal ads. This feature is also useful to discourage frivolous or mischievous use of voice mails.
  • the MMR system 6900 receives 7010 a voice mail from the user via the capture device 106, and provides 7012 the voice mail to the voice mail server 6902 to update the hotspot information.
  • the MMR system 6900 updates 7014 index information for the associated hotspot.
  • Figure 71 illustrates a flow chart of the methodology of retrieving hotspot information in the MMR system 6900.
  • the MMR system 100 controls the user retrieval of voice mail hotspot information.
  • the MMR system 100 receives 7102 a user selection of a hotspot on the MMR document 500.
  • the MMR system 100 provides 7104 the capture device 106 with a menu of voice mail hotspots.
  • the menu may be displayed on the capture device 106 or may be an audio menu .
  • the menu may include categories of voice mails, such as favorable comments.
  • the MMR system 100 retrieves 7106 a voice mail corresponding to a hotspot in response to a user selection of one of hotspots from the menu, and provides 7108 the voice mail to the capture device 106 for the user to listen to.
  • the MMR system 6900 selects the voice mails to provide to the user.
  • the MMR system 6900 may also prompt the user to authorize payment for receiving a voice mail. After authorization, the MMR system 6900 provides the menu of voice mail .
  • the user may read an MMR document 500 that is a newspaper listing of movies.
  • the user may select a movie hotspot with the capture device 106 and request reviews of the movie, which may be provided as voice messages. After listening to the reviews, the user decides to watch the movie. After the movie, the user wants to update the hotspot information by leaving a voice mail .
  • the user again uses the newspaper listing of the movies to access the hotspot, but this time, the user sends a hotspot update request and leaves a review of the movie.
  • Email uses the newspaper listing of the movies to access the hotspot, but this time, the user sends a hotspot update request and leaves a review of the movie.
  • Figure 72 illustrates a block diagram of an MMR system 7200 that includes an email message server 7204 for processing hotspot information.
  • the email message server 7204 may provide hotspot information to users in the form of email messages that are delivered in real time to the capture device 106 or a user computer 7206, or delivered asynchronously to the user computer 7206.
  • the communication channel between the MMR system 100 and the delivery site of the email is different than the communication channel between the MMR system 100 and the capture device 106.
  • the MMR system 100 may provide the email message content to the email message server 7204.
  • a user also may provide email message content to update hotspot information.
  • the MMR system 7200 controls the downloading of hotspot information using email messages sent to the user.
  • the email message server 7204 stores hotspot information related to MMR documents 500.
  • the email server 7204 may send the email to, for example, a telephone, a user selected email account, such as personal or business email address, or a cable television or satellite television for recording on a digital video recorder.
  • the MMR system 100 may index the emails for searching in response to a query using conventional search tools
  • the user is reading a travel guide and requests more information.
  • the user selects the hotspot to receive the hotspot information. If the size of the hotspot information is large, the user selects to receive the hotspot information in an email that the user will later read either on a computer with a larger screen or print out the document for reading.
  • Figure 73 illustrates a flow chart of methodology of retrieving hot spot information in the MMR system 7200.
  • the MMR system 7200 receives 7302 a user selection of a hot spot in the MMR document 500.
  • the MMR system 7200 connects 7304 to the email message server 7204 and prompts 7306 the user to select a destination of the email from the email message server 7204. By the using the prompt, the user may direct the email to the capture device 106 or the user computer 7206.
  • the MMR system 7200 sends 7308 the email to the reguested address and sends 7310 a confirmation email to the capture device 106 if the user has selected that the email be sent to the user computer 7206 or a destination other than the capture device 106.
  • the MMR system 7200 sets a high priority flag on the email.
  • the capture device 106 may be temporarily disconnected from the MMR system 100. During the disconnection, the capture device 106 stores the hot spot selections for later transmission. When the capture device 106 is reconnected to the MMR system 100, the capture device 106 transmits the requests to the MMR system 100 for processing.
  • Figure 74 illustrates a block diagram of an MMR system including a document database 7404.
  • the MMR system 7400 is similar to the MMR system 7200, but further comprises the document database 7404.
  • the document database 7404 stores MMR documents 500 that are read by the user and stores the hotspots information that are selected by the user.
  • the document data base 7404 may be indexed and searchable by the user.
  • the document database 7404 stores the readings for the user.
  • Figure 75 is a block diagram of an MMR system 7500 including a document shipping database 7504.
  • the MMR system 7500 is similar to the MMR system 7200, but includes a document shipping database 7504.
  • the document shipping database 7504 stores MMR information of sellers of products or services.
  • the MMR system 100 provides the user access to the document shipping database 7504.
  • the document database may be a travel book publisher providing a database of all MMR-enabled travel guides.
  • the user requests the MMR system 100 to retrieve from the document shipping database 7504 documents that will be provided to the user that may be sent asynchronously.
  • the document provider sends the hotspot information to the user by email.
  • the document shipping database 7504 is not accessible via the Internet by or by Internet search engines.
  • the document shipping database 7504 is accessed through the MMR system 100.
  • the document may use a unique electronic product code (EPC) or a similar code to identify each page uniquely to identify the document and find the document in the document shipping database 7504.
  • EPC electronic product code
  • the entire page or a portion thereof of a printed document is used to create the unique identifier for the printed document.
  • the unique identifier may be transmitted to the document shipping database 7504 instead of the image for determining the requested hotspot information.
  • the MMR systems 7200, 7400 and 7500 further include a voice mail server 6902 for processing hotspot information as voice mail in addition to emails.
  • the MMR system of the present invention provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and text or data in electronic form, a digital picture, a digital photograph, digital movie, digital audio file, or web link as a second medium. Furthermore, the MMR system of the present invention facilitates business methods that take advantage of the combination of a portable electronic device, such as a cellular camera phone, and a paper document.
  • the MMR system of the present invention includes an MMR processor, a capture device, a communication mechanism and a memory including MMR software.
  • the MMR processor may also be coupled to a storage or source of media types, an input device and an output device.
  • the MMR software includes routines executable by the MMR processor for accessing MMR documents with additional digital content, creating or modifying MMR documents, and using a document to perform other operations such business transactions, data queries, reporting, etc.
  • the MMR system includes a voice mail server or an email server for using voice mail or email, respectively, for providing information related to a printed document.
  • a mixed media reality (MMR) system includes an MMR user, a MMR computer, a user printer that produces a printed document, a networked media server, an office portal, a service provider server, an electronic display that is electrically connected to a set-top box, a document scanner, a network, a capture device, a cellular infrastructure, wireless fidelity (Wi-Fi) technology, Bluetooth® technology, infrared (IR) technology, wired technology, and a geo location mechanism.
  • the MMR system provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and a digital photograph, digital movie, digital audio file, or web link as a second medium.
  • the MMR system facilitates business methods that take advantage of the combination of a portable electronic device, voice mail or email, and a paper document.
  • Figure 76 illustrates a functional block diagram of one embodiment of the MMR system in accordance with the invention for use in ordering goods or services using MMR-individualized documents.
  • the MMR system 7600 is configured for ordering and processing goods or services from a fulfillment house using a MMR-individualized commercially printed document 7601.
  • FIG. 76 illustrates the example of using the MMR-individualized document 7601 with the MMR system 7600 for ordering goods or services, note that the MMR-individualized document 7601 may be used for any other types of business transaction.
  • the MMR system 7600 is substantially same as the MMR system 100a illustrated in Figure IA, except that it additionally includes the fulfillment house software 7602 and the order process database (DB) 7604 for use with the MMR-individualized printed document 7601.
  • DB order process database
  • the MMR-individualized printed document 7601 is a MMR document printed in accordance with the MMR system and method as illustrated in, for example, Figures IA, IB, 4, and 52.
  • the MMR document 7601 includes one or more hotspots or portions of the document that uniquely identify an individual or a user of the document 7601 as well as other hotspots identifying the document 7601.
  • the hotspots are indexed and stored in the PD index 322 (or equivalently MMR database 3400) similar to other MMR documents as described herein.
  • the MMR document 7601 is a printed catalogue for ordering goods or services (a book, grocery, a travel package, home repair services, etc.) and includes hotspot text or images that identify the document (catalogue) as well as hotspots that identify one or more users or individuals associated with the catalogue.
  • the MMR documents 7601 are "individualized" in the sense that the hotspots contain textual or image identifiers that identify one or more users or individuals associated with the document.
  • the document 7601 may include the name and address of the recipient of the document 7601 which can be recognized as a hotspot for identification of the user.
  • the document 7601 may include bar codes or other identification numbers or images which can be recognized as a hotspot for identification of the user.
  • the user identification information can appear as a mailing label on the document.
  • the user can be identified by OCR (Optical Character Recognition) of the label or recognition of the postal bar code (known as the POSTNET bar code in the United States) .
  • the mailing label can also contain a bar code or other information (e.g., printed text) that identifies the specific edition of the catalog, e.g., the Victoria Secrets Nov. 2006 catalog for the San Francisco Bay area.
  • the mailing label contains information that identifies the individual user in the database 7622 who was sent the catalog and the catalog itself. This is sufficient to retrieve the user' s identifying information and a list of hotspots in the catalog.
  • the hotspot data would include identification for items in the catalog, the pages on which they appear, and information needed to order the items.
  • the user interface on the capture device 106 could use this information to provide the ability to order goods and services .
  • the hotspot information could include information about the image features that correspond to each hotspot that could be used in a subsequent comparison step by the MDMR recognition system.
  • the document 7601 does not include separate text or image for identification of the user, but includes minor variations in the appearance of the original text in the document itself, e.g., the shape, font size, orientation, color, etc. of the text and images that are originally included in the document 7601, which can be recognized as hotspots for identification of the user.
  • minor variations in the appearance of the original text in the document itself e.g., the shape, font size, orientation, color, etc. of the text and images that are originally included in the document 7601, which can be recognized as hotspots for identification of the user.
  • An example is to have the descriptions of the items on the catalogue to include minor variations in the appearance, shape, font size, orientation, color, etc. , so that the users would not easily recognize the differences in the individualized MMR document 7601 but the MMR system 7600 may recognize the user by matching the hotspots with the fingerprints of the documents.
  • combinations of image characteristics are associated with user identification information in database 7622.
  • a catalog might be printed with hotspots in an OCR-A font with blue #F86A ink. That font-color combination is assigned to the user in database 7622 who is sent the corresponding catalog.
  • the MMR recognition software preprocesses every image for the font-color combination and sends the identity of the font and color to the order processing database 7604 that uses the font-color combination to look up the user identification information.
  • a unique combination of image characteristics can be assigned to each user. This has the advantage that each hotspot uniquely identifies the intended recipient of the catalog. The same capability can be provided by shifting the positions of characters or words by small amounts horizontally or vertically.
  • the shift amounts can encode digital information (e.g. , user identification and hot spots) in a text such that it's almost imperceptible to the reader but easily decoded by a recognition algorithm.
  • digital information e.g. , user identification and hot spots
  • a combination of image characteristics is chosen from a limited set and assigned to each user in the database 7622.
  • the MMR recognition software still recognizes the presence of those image characteristics and sends their identities to the order processing database (e.g., it might find OCR-A font in blue #F86A or certain character or word position shifts in the input image) .
  • the MMR device 106 also sends secondary user identification information from the MMR device 106, such as the registered owner of the device, as determined from a profile stored on the device, its telephone number, or the registered owner of the device as provided by the cell phone service provider 5318, service provider 5336, cable TV provider 5334, or other provider of an MMR-related service.
  • the order processing database 7604 verifies that those image characteristics recognized by the MMR recognition system correspond with the secondary user identification information.
  • the capture device 106 can be any one of the capture devices illustrated in Figures IA, IB, and 2A-2E.
  • the capture device 106 for the application described in Figures 76 and 77 is a camera phone that includes both digital camera capabilities as well as cellular telephone capabilities.
  • the third-party software module 228 running on the capture device 106 includes a calendar application such as that included in Microsoft OutlookTM to keep track of various schedules.
  • a user may point the capture device 106 over the MMR-individualized document 7601 over hotspots to scan the hotspot images.
  • the MMR document 7601 is a book catalogue listing a variety of books for an intended user of the catalogue. MMR hotspots identifying the book catalogue itself are included in the catalogue. In addition, hotspot (s) uniquely identifying the user are also included in the catalogue.
  • the document fingerprint matching module 226 of the capture device 106 extracts hotspot features from the captured hotspot images.
  • the document fingerprint matching module 226, as further described with reference to Figures 6-33, accesses the document indices stored in the document event database 320 and matches the extracted features of the captured image and the indices to identify the particular MMR-individualized document 7601 from a database of documents as well as the user or individual associated with the document. In other words, the identities of the document (catalogue) 7601 and the user associated with the document are confirmed.
  • the fulfillment house software 7602 includes software applications run by the computers of a fulfillment house 5332.
  • the MMR-individualized document 7601 is a book catalogue and the fulfillment house 5332 is a book company selling books using the book catalogue.
  • the fulfillment house software 7602 includes order processing software 7610 and calendar synchronization software 7612.
  • the order processing software 7610 accesses the user information database 7622 to retrieve user information associated with the identified user.
  • User information may include the user' s name, address, telephone number, credit card information, and any other information that can be associated with the individual user.
  • the order processing software 7610 causes an order form (not shown) to be displayed on the display 212 of the capture device 106 remotely through the communication mechanism 104.
  • the order form is displayed using known techniques for causing an application to run on remote devices through the communication mechanism 104, for example using JavaTM applets.
  • the capture device 106 can be accessed using known wireless communication techniques using, for example, the telephone number of the camera phone capture device 106.
  • the order processing software 7610 causes the order form to be pre-populated with the user information retrieved from the user information DB 7622 so that the user does not have to enter the user information to complete the order . This allows for a much faster and more convenient purchase experience for the consumer.
  • order processing information such as expected or actual shipping date and expected or actual delivery date are stored in the shipping information database 7624.
  • the order processing information is stored in the shipping information database 7624 associated with the identified user.
  • the calendar synchronization software 7612 accesses the shipping information database 7624 and retrieves the order processing information.
  • the calendar synchronization software 7612 causes the order processing information to be added to the calendar application 228 running on the capture device 106. If there is any change in the order processing information (such as expected shipping or expected delivery date) , the calendar synchronization software 7612 causes the calendar application 228 to be updated and to reflect such change as well. In this manner, the user may effectively track the processing and shipping of his order in real time.
  • Figure 77 illustrates a flow diagram of a method 7700 for ordering goods or services using an MMR-individualized document, such as a product or service catalogue embedded with hotspot images identifying the document and the user of the document.
  • the capture device 106 captures 7702 hotspot images of the MMR-individualized document 7601.
  • the MMR system 7600 identifies 7704 the particular document and the user associated with the document.
  • the order processing software 7610 remotely causes an order form for goods or services to be displayed 7706 on the capture device 106 through the communication mechanism 104, with the order form pre-populated with the user information retrieved based on the user identity information obtained in step 7704.
  • the user fills out the order form to complete 7708 the order transaction.
  • the calendar synchronization software 7612 tracks 7710 the processing of the order (e.g. , estimated and actual shipping dates or estimated and actual delivery dates) , and adds or updates such processing dates to the calendar application 228 running on the identified user's capture device 106 so that the information in the calendar application 228 is synchronized 7712 with the order processing information stored in the shipping information DB 7624.
  • Figures 76 and 77 illustrate use of the MMR-individualized document in the context of purchasing goods or services
  • the MMR-individualized documents may be used for other purposes as well.
  • publishers who want to control illegal distribution of copyrighted materials may embed information (e.g., stenographic codes) of authorized users who have appropriately purchased the copyrighted materials in the printed MMR documents.
  • the embedded user information may be used to identify authorized users, and thus will allow the publishers to track how their documents are used and to potentially identify those who illegally distribute or copy the copyrighted material without permission.
  • the mixed media reality document is embedded with hotspot images that uniquely identify a user associated with the document as well as hotspots that identify the document.
  • hotspot images that uniquely identify a user associated with the document as well as hotspots that identify the document.
  • Such "MMR-individualized" documents are used to identify a user associated with the document and retrieve user information associated with the identity of the user.
  • the hotspots can be used to identify a user and retrieve user information associated with the identified user.
  • On-line order forms displayed on the user's capturing device may be pre-populated with the retrieved user information.
  • processing information of the order can be tracked, and a calendar application running on the capturing device of the identified user may be updated to include up-to-date processing information corresponding to the order.
  • the mixed media document may also include hotspot images that uniquely identify a user associated with the mixed media document.
  • Such individualized mixed media documents are used to identify users of the mixed media document, when orders for products or services are made using the mixed media documents through the MMR system.
  • MMR a Universal Trigger for an Action
  • the MMR document 500 in certain embodiments includes an associated action or second media 504, in addition to the representation 502 of a portion of the printed document 118, the index or hotspot 506, and the electronic representation 508 of the entire document 118.
  • the MMR document 500 structure is particularly advantageous because the ability to specify different actions for different MMR documents 500, combined with the ability to create any number of MMR documents 500 for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, additional processing or actions can be triggered or initiated based on MMR recognition.
  • the additional processing can also advantageously be customized to consider: 1) the document identified by MMR recognition, 2) the page identified by MMR recognition, 3) the location on the page identified by MMR recognition, 4) the context of use of the capture device 106, including its geographic location, 5) external factors known to the MMR system or stored in the database 3400, 6) historical execution of the action by prior users, 7) the state or availability of MMR system components, 7) the state or availability of third party systems and resources, and 8) the identity to of the current user, and 9) the identity and location of the MMR database (s) that are interrogated and satisfy a given query
  • MMR system architecture 7800 for use as a universal trigger is shown.
  • the description of this architecture is provided as one example of an operational context of the present invention where MMR recognition is used as a universal trigger, and to convey the general principles of operation for MMR as universal trigger.
  • MMR recognition could also be used as a universal trigger in a variety of other MMR architectures and configurations from the description that follows.
  • the exemplary MMR system architecture 7800 includes the rendered document 118, the user 110, the capture device 106, the database 3400, the MMR recognition module or software 226 or 610 ( , and the action processor 7802.
  • the rendered document 118 and the user 110 have been described above and are the same in this exemplary context.
  • the rendered document 118 is given. This could be a paper printout or it could be an electronically rendered version as shown on a PC screen or an electronic book.
  • the user interacts with the MMR system 7800 using the capture device 106, and the capture device 106 generates an image from the rendered document 118 as represented by the dashed lines in Figure 78.
  • Numerous examples for the capture device 106 have been fully described above, any one of which can be used in this example.
  • the capture device 106 is a phone with a camera.
  • the capture device 106 is coupled for communication with the MMR recognition module 226/610 and the action processor 7802 by signal lines 7808 and 7804, respectively.
  • the database 3400 is similar to that described above with reference to Figures 34A-36.
  • the database 3400 is coupled for communication by signal line 7806 to the MMR recognition module 226 and by signal line 7814 to the action processor 7802.
  • the action processor 7802 is shown as separate and apart from the database 3400. In other embodiments the action processor 7802 may be part of the database 3400 as shown in Figure 34A.
  • the database 3400 is described in more detail below with reference to Figure 79.
  • the MMR recognition software 226/610 receives an image of a patch of text from that document 118 and MMR recognition software 226/610 identifies the MMR document 500 that contains it (doc. i), the page within that document (page j), and the x-y location within that page where the patch occurred.
  • MMR recognition software 226/610 communicates with the MMR database 3400 that stores the relationships between images and text patches as well as "actions" attached to those patches.
  • the action processor 7802 is coupled to the MMR recognition software 226/610 by signal line 7810, the capture device 106 by signal line 7804 and the database 3400 by signal line 7814.
  • the action processor 7802 has the functionality that has been described above with reference to action processor 3413, and that will be described below with reference to Figures 80-85.
  • the action processor 7802 is coupled to capture device 106 to send and receive data and commands for generation of user interfaces that allow the user 110 to interact with the MMR system 7800 for controlling how actions are performed, receive data produced by actions, and input data need for actions. Such user interfaces are populated with information from the action specification.
  • the action specification is preferably one or more commands and associated parameters that are sub-parts or tasks that need to be completed to perform the action.
  • the user 110 can enter data that enables the execution of the action.
  • Information about the result of that action is stored in the MMR database 3400 and presented to the user 110.
  • the MMR system 7800 stores historical information about an action such as when it was previously executed with an x-y location in a block of text.
  • the MMR system architecture 7800 is advantageous because an action can be executed by pointing the capture device 106, a camera phone, at a block of text. For example, the action is manually clicking on the link to a portion of the text in a web version of that document, thereby retrieving the text in XML form to the capture device 106.
  • the action is manually clicking on the link to retrieve a specification for an action to a portion of text in a web version of that document, thereby retrieving the specification for the action.
  • the action processor 7802 is advantageous because it stores historical information about actions in the database 3400 or other storage device. The historical information about actions is stored in association with the x-y location in a block of text, and document and page. This information can then later be retrieved, searched and analyzed in the event the same block of text is captured. Referring now to Figure 79, a portion of one embodiment of the MMR database 3400 relating to the performance of actions is described in more detail.
  • the MMR database 3400 stores document images 7902, actions 7904, and associations 7905 between x-y locations on document images and actions, in other words, MMR documents 500.
  • the MMR database 3400 is dynamically updatable so that user applications can add actions on-the-fly.
  • the MMR database 3400 allows for the attachment of actions to arbitrary x-y locations within text passages. Entries in the MMR database 3400 are comprised of pages linked to actions. The "page side" of a link is registered to a specific x-y location. The "action side” can comprise a nearly arbitrary description of data or an interaction.
  • the MMR database 3400 includes an index table 7908 that maps MMR features onto their x-y locations 7906 within documents. This allows the MMR recognition software 226/610 to input the features it detects in an image and receive output that shows the x-y locations within documents where those features occur. An embodiment of such a data structure has been fully described above with reference to Figure 34A.
  • the MMR system 7800 may also include multiple databases 3400a, 3400b.
  • the MMR system 7800 includes at least two databases: a shared database and a personal database.
  • the shared database includes information that is accessible to all the users who have access rights to it.
  • the personal database is accessible to an individual user and includes private information linked to x-y locations on pages in documents that the owner does not wish to share with anyone else.
  • Those skilled in the art will understand that there might also be other databases that are shared on an ad-hoc basis between groups of users . While the MMR database 3400 is show generally as a single database, these databases could be portions of the same database or entirely separate databases although not shown.
  • FIG 80 is a flowchart of one embodiment of a method for executing actions of MMR documents 500 in accordance with the present invention.
  • the process begins by obtaining 8002 an image of the rendered document 118 with the capture device 106. While the process is now described as beginning with the capturing of a particular image, those skilled in the art will understand that the process may begin with the user 110 in putting any information using the capture device 106 or another device, and that the capturing of images is only provided by way of example.
  • the MMR system 7800 performs 8004 recognition on the input received by the system 7800 in step 8002.
  • Next MMR system 7800 determines 8006 whether the MMR recognition process has returned a matching document, and whether the matching document includes an action to be performed.
  • the MMR system 7800 In order for the MMR system 7800 to execute an action, the MMR system 7800 must identify an action that the user 110 has specified for execution. This requires that MMR system 7800 identifies both a document and the action within or associated with that document. If the method determined in step 8006 that a matching document to the image captured in step 8002 could not be found, the system 7800 generates 8008 a message indicating that no match could be found and displays it to the user 110, such as on the display of the image capture device 106. Similarly, if the method determined in step 8006 that while there was a matching document, there is no action associated with that matching document; the system 7800 generates 8008 a message indicating that there is no action associated with the matching document and displays it to the user 110.
  • step 8008 the method loops back to the beginning of the method to capture additional images.
  • the method proceeds from step 8006 to step 8010.
  • step 8010 the method determines whether the action should be executed automatically.
  • each action stored in the MMR system 7800 may have a number of associated settings. One such associated setting may be whether the action is performed without additional user input, or "automatically.”
  • the method determines 8010 whether the setting for this action to be executed is set for automatic execution or not. If the action is to be performed automatically, the method continues from step 8010 directly to step 8018.
  • the method proceeds to step 8012.
  • the MMR system 7800 then generates a message for display on the capture device 106 and notifies 8012 the user that an action is being performed by the MMR system 7800.
  • the method receives 8014 information from the user. If no additional input is required from the user, the message only notifies the user of the action's execution. In some instances, execution of a particular action by the MMR system 7800 may require additional input from the user 110, such as confirmation. In those cases, the MMR system 7800 sends messages to the capture device 106 for presentation to the user 110, and the capture device 106 receives additional information from the user 110 that is input to the MMR system 7800.
  • Such information can be identification or selection of different parameters used for execution of the action, or input of data needed for execution of the action.
  • the interaction between the user 110 and the MMR system 7800 has been described above and this process can be used interactively to allow the user 110 to input additional information needed for the execution of the action using the GUIs of the present invention.
  • a final message asking the user to confirm that the action should be executed is sent by the system 7800 to the capture device 106 for presentation to the user.
  • the method determines 8016 whether the user 110 confirmed that the action should be executed. If the user 110 has selected not to execute the action, the method is complete and ends. If the user 110 has selected to execute the action, the method proceeds to step 8018 and determines 8018 the action specified by the MMR document 500. Then the method performs 8020 the action specified by the MMR document 500.
  • the MMR document 500 may include one or more actions that each has one or more commands and parameters. Examples of these commands and parameters will be described below, with reference to Figures 82A and 82B.
  • the MMR document 500 may include one or more parameters necessary for execution of a command or alternatively, the parameters may be directly input by the user 110 and are received by the method in step 8014.
  • an MMR document 500 may include several commands. As will be appreciated by those skilled in the art, this provides an MMR programming language in which complex transactions and user interactions may be performed by the MMR system 7800 - with only an MMR recognition being the trigger to their execution. Examples of such complex transactions and user interactions are described below. Once the execution of the action has been completed, the MMR system 7800 stores 8022 historical information about the action.
  • historical information about the action may include: the user that executed the action, the time when the action was executed, the MMR system components used to perform the action, the context in which the action was executed (including the geographic location of the capture device 106) , external resources utilized to perform the action (including business entities 5300) , an execution trace for the action that includes the commands executed, as well as the time, date, parameters for each command, and their completion status (including success, failure, and various degrees of partial success) .
  • the MMR architecture 7800 is used for creating action triggers based on text passages.
  • the user 110 can point a capture device 106 at a passage of text in a paper document 118 and an action is retrieved and executed that was previously linked to that text passage.
  • the user 110 can create an action, such as using the capture device 106 like a cell phone, and link the action to a passage of text in an electronic document by pointing the capture device 106 at the passage of text in a printed paper version of the electronic document.
  • the action can be static where the action processor 7802 executes a specified command using input parameters, or it can be dynamic and include a series of commands with the user 110 instructed to take a series of steps and the outcome is unknown. For example, a set of linked menus with choices and results attached to each choice may be presented to the user 110.
  • Pointing the capture device 106 at a document means the image the capture device 106 obtains is recognized by the MMR system 7800. This identifies the x-y location within a page in the document at which the capture device 106 is being pointed. It should be note that the text in a document is not included in order to identify the document.
  • MMR recognition derives features from a configuration of text that allow us to identify it as a side-effect of its two-dimensional layout on a printed page as has been fully described above with regard to patch matching. This distinguishes MMR recognition from bar code recognition or serial number recognition where the bar code or number is explicitly included to identify the document .
  • the present invention is particularly advantageous because no additional markings to a printed document are added or required for the MMR system to be able to identify and recognize a location in a document.
  • Another notable aspect of the present invention is that action triggers are provided for non-document images as well text documents. This is similar to augmented reality in that it combines a captured image with a digital or electronic version of the same scene.
  • the MMR architecture 7800 a whole scene can be identified from an image of a subset, or the scene can be identified from some substantial or significant subsets (visually distinct or unique arrangement of subsets) similar to the way in which MMR identifies a document from any text patch but not from the blank areas or the images within the document.
  • the MMR architecture 7800 can identify the unique car from the license plate or VIN tags. Considering an analogy to a text document, this would be like identifying a document from a bar code attached to it.
  • the MMR architecture 7800 also identifies a unique car from an image of the tread wear pattern of its tires. Furthermore, one application is the identification of people from their images.
  • the MMR analysis of non-document input can include video as well as audio. People can be identified by the MMR architecture 7800 from comparison of images of their fingertips, images of their face, DNA from their hair, images of the configuration of their teeth, video of their gait while walking, etc.
  • the MMR architecture 7800 can assign individualized actions to specific fingers. For example, when the right index finger is imaged, the system 7800 could retrieve the list of phone numbers you dialed with that finger. Similarly, for music and other sounds, a group of notes can be used to identify an MMR document 500 in the same way a listener is able to identify a song from a sequence of notes.
  • the method for performing actions triggered by the MMR recognition of non-document images begins by creating or providing a database 3400 that associates images of .objects and x-y locations within those objects to actions. Alternatively for music or sound, the database 3400 would associate waveforms of sounds and time locations in those waveforms to actions. The database 3400 in both cases is dynamically updatable and actions can be added on the fly.
  • a capture device 106 is next provided that includes storage and an optional communications channel. The capture device 106 is used to capture a still image, a video clip or a sound recording. The captured object is analyzed either at the capture device 106 or the MMR processor 102. Next an MMR object and the position in the object is identified.
  • the method begins by obtaining 8002 an image with the capture device 106, and performing 8004 MMR recognition to determine the document and a location. These steps have been described above with reference to Figure 80 and a variety of other figures above, therefore, that description will not be repeated here.
  • the method searches 8106 the database 3400 for information about actions related to the location.
  • the output of the recognition process is a document and a location within that document. This output is used as a basis to generate a query to search the database 3400.
  • the database 3400 includes historical data as to when particular actions associated with particular MMR documents were performed.
  • the database 3400 stores other information or metadata such as but not limited to the time an action was executed, the number of times an action was executed, the user that performed the action, the resources that were used to execute the action, etc.
  • the results for the query of the database 3400 that was performed in step 8106 can then be analyzed to produce certain conclusions with regard to the historical information stored about the action. In certain instances, this step may be omitted with the action processor 7802 just sending the results of the query to the capture device 106 for display.
  • the MMR system 7800 presents the historical information about actions related to the location to the user 110 and the method is complete and ends.
  • an action specifies commands and parameters that include an identifier for a document, a page within the document, and x-y locations within the page. The parameters specified depend on the particular command, and every parameter xs not necessarily pertinent to every command.
  • the method for performing commands associated with actions begins by determining the type of action being performed in steps 8202, 8204, 8206, 8208, 8210, 8212, 8250 and 8252; then performs the steps particular to that command.
  • the method begins by determining 8202 whether the action is the "RETRIEVE" command.
  • the "RETRIEVE” command retrieves data linked to the recognized x-y location with the document. That data can include menus that specify subsequent steps to be performed on the capture device 106. It could also be static data that will be displayed on the capture device 106. If so, the method retrieves 8214 data from the MMR document 500 or other source. In one embodiment, the retrieve data is stored as part of the MMR document 500. In another embodiment, the retrieve data is stored in the database 3400, and the MMR document 500 includes a reference to the location within the MMR database 3400, where the data is stored.
  • the retrieve data is stored at a remote location outside the MMR system 7800, and the action processor 7802 performs the steps necessary to retrieve the data from the remote location.
  • the remote location may be a web page stored on a web server outside the MMR system 7800, or a location within another proprietary system (not shown) that allows interconnection with the MMR system 7800 through conventional connection mechanism such as a network connection, a VPN connection, or a secure Web interface.
  • the action processor 7802 performs the steps necessary to present menus, receive data and interact with the user 110.
  • the method then sends 8216 the retrieved data to the capture device 106 for presentation to the user 110. After step 8216, the method transitions to step 824, which will be described below.
  • the method determines 8204 whether the action is the "INSERT-. TO" command.
  • the INSERT-. TO command inserts data at the x-y location specified by the image patch.
  • the conference guide is an example in which the user adds image files such as JPEG files captured on the capture device 106 to x-y locations within the electronic originals for the paper documents. If so, the method identifies 8218 the data for the command. For example, the data to be inserted may be text input using the capture device 106 or an image or video clip obtained by the capture device. Then, the method identifies 8220 a location at which the received data should be inserted.
  • the location at which the received data should be inserted could be within the MMR document 500, at a location such as in database 3400 in the MMR system 7800, or in a remote location of a system coupled to the MMR system 7800.
  • the data is then inserted 8222 at the location identified in step 8220. After step 8222, the method transitions to step 8242 that is described below.
  • step 8204 determines 8204 whether the action was not the "INSERT-.JTO" command.
  • the "INSERT_FROM” command inserts data from an x-y location determined by an image patch into another document. For example, the user can select text phrases in a printout and add them to a PowerPoint file.
  • action is the "INSERT-,_FROM” command
  • the method identifies 8218 a data source for the command. As in the retrieving step described above, the data source may be within the MMR document 500, at a location within the MMR system 7800 or external to the MMR system 7800.
  • this step may also include the step of retrieving the identified data. This is similar to step 8214 discussed above.
  • the method continues to steps 8220 and 8222, to identify a location at which the data is to be inserted and performs the insertion, respectively. Again, the location at which the data is to be inserted may be within this or another MMR document 500, at a location within the MMR system 7800, or in a remote location in a system coupled to the MMR 7800.
  • step 8222 the method transitions to step 8242 that is described below.
  • the method determines 8208 whether the action is the "TRANSFER” command.
  • the "TRANSFER” command transfers data linked to an x-y location from a source to a destination. Either the source or the destination could be the MMR client device. An example is the document grabber application in which the PDF for a given paper document is retrieves and transferred to the captured device 106. If the action is the "TRANSFER” command, the method identifies 8226 data and the source for the transfer, and then identifies 8228 a destination for the data. These identification steps 8226, 8228 are similar to the other identification steps 8218, 8220 and 8224 described above.
  • step 8230 the method sends 8230 the data to the destination.
  • the transfer of the data in step 8230 may be done in any of variety of ways such as but not limited to through server to server communication, through a file transfer protocol, or through the e-mail.
  • step 8230 the method transitions to step 8242 that is described below.
  • step 8208 determines 8210 whether the action was not the "TRANSFER” command.
  • the "PURCHASE” command performs purchasing of merchandise linked to an x-y location in a document. If the action is the "PURCHASE” command, the method identifies 8226 the item being purchased the seller. In one embodiment, this step may not be necessary where the purchaser and the item are specified or coded as a parameter to the action. In other words, the actions are predefined to purchase a specified item from specified sellers.
  • the method determines 8212 whether the action is the "AUTHOR” command.
  • the "AUTHOR” command creates a new action and adds it to the x-y location specified by the image patch. For example, a user could create a voice annotation and add it to an arbitrary x-y location within a document.
  • the method identifies 8228 the present MMR document 500. If the user is creating a new MMR document, this step of identifying is replaced by the step of creating an MMR document 500. Then the MMR system 7800 identifies a new action and parameters for that new action using input received from the user 110 via the capture device 106.
  • the step is shown as being a single step, those skilled in the art will recognize that this step may include the presentation of GUIs to the user 110 and receipt from the user 110 of information via the capture device 106 repetitively.
  • the MMR system 7800 provides the user with the ability to perform on-the-fly modification or creation of actions associated with a particular MMR document 500.
  • the action is created and added to the MMR document 500, whether it is an existing MMR document 500 or one that was created in this process.
  • this step is accomplished by storing a new action and parameters in the database 3400 and linking the action to the NMR document 500 stored in the database 3400.
  • step 8240 the method transitions to step 8242 that is described below.
  • step 8212 determines whether the action was not the "AUTHOR” command.
  • the "PRISTINEJPATCH” command retrieves an electronic representation for the specified document and extracts an image patch centered at x-y with predefined radius. If the action is the "PRISTINE_PATCH” command, the method identifies 8254 the MMR document 500. Since MMR document 500 an electronic representation of the document or a reference to it, the information from the MMR document 500 is used to retrieve the electronic representation of the document and extract 8256 an image patch generated directly from electronic representation. After step 8256, the method transitions to step 8242 that is described below.
  • step 8250 determines 8252 whether the action was not the "PRISTINE_PATCH" command.
  • the "ACCESS_DATABASE” command modifies the access controls to any given database to allow the user 110 to access the database using his capture device 106. If the action is the "ACCESS_DATABASE” command, the method identifies 8259 the database 3400 to which access is being granted, and then the MMR system 780 modifies the access for the identified database so that the user can access it. After step 8256, the method transitions to step 8242 that is described below. Finally, the method determines 8242 whether there are additional actions or commands associated with the MMR document
  • the MMR document 500 may include any number of actions, commands and parameters. As an analogy to computer programming, actions may be considered to be subroutines, commands can be thought of as individual instructions, and the parameters can be thought of as variables or data used by the instructions.
  • the method determines whether there are any additional actions or additional commands for the MMR document 500 that was matched. If not the method is complete and ends. On the other hand, if the MMR document 500 includes any additional actions or commands, the method retrieves 8244 the next command and its parameters and returns to step 8202 to process the next command.
  • the action processor 7802 or the MMR server 8302 includes a MMR Action Execution Queue in one embodiment for ordering performance of actions.
  • the execution of actions in an MMR system 7800 is controlled by an ordered queue.
  • an action is entered in the queue it is associated with a priority and the resources required for performing the action.
  • the queue ordering function repeatedly inspects the queue and determines the highest priority action waiting for execution for which all the required resources are available.
  • An action in the queue can expire if its resources do not become available in a suitable period of time.
  • An example action is a RETRIEVE command issued by a user interface application that provides up-to-the-minute information about stock prices linked to an image of text from a page of stock market listings.
  • the MMR architecture 7800 can insert this in the action execution queue with an IMMEDIATE priority. If the link to current stock prices is available, the action can executed as soon as it is received. If the link to current stock prices is not available, the action can be inserted in the queue with a timeout value. For something as volatile as stock prices, the timeout might be as little as 30 seconds. If the required resources are not available within that time, the action would be expired (i.e., never executed).
  • Another example of ordering the action execution queue would be the addition of an action that inserts a video clip at an x-y location in an electronic document determined by an image of a patch of text. That could be assigned a priority WHEN_CONNECTED that would include a specification for the database that's needed. This could be the MMR database on the user's PC that might only be connected to the capture device 106 at some future time. The timeout value could be unlimited since it could be as valid to perform the action years in the future as it is to perform the action in the next five minutes.
  • a unique aspect of the MMR Action Execution architecture is its ability to be suspended by the MMR Document Fingerprint Matching system as shown in Figures 6 and 7.
  • the control structure 714 constantly monitors input from the quality assessment module 712. When it detects a video frame that could be recognized (e.g., it contains an image that appears to be machine-printed text) , it can send an interrupt signal to the processor 210 that suspends execution of a currently running MMR action. This is done to maximize the computational resources available to the document fingerprint matching system. The previously suspended MMR action can be resumed later.
  • Conference Guide In this usage scenario, the user 110 captures a multimedia file such as a video clip using a phone 106 and attaches it to the electronic original for a document by pointing at a text patch in the conference guide.
  • the action of adding multimedia to a patch of text is performed using the INSERT Command to add data and the multimedia file at the location of the patch of text in the corresponding MMR document 500.
  • the user 110 retrieves a multimedia file by pointing at a passage of text.
  • the multimedia file could be a clip about a new exhibit at a particular place described by the text, or the multimedia file can be updated text indicating the opening and closing times of an establishment.
  • the action of retrieving a multimedia file linked to a patch is performed using the RETRIEVE command at the location of the patch of text in the corresponding MMR document 500.
  • the user 110 retrieves up-to-date information about a stock by pointing at the stock page in a newspaper.
  • Data in the MMR document 500 points back to personalized information about the user including his brokerage account and holdings. This is derived from another application (e.g., Quicken®) on the user's desktop PC, MMR computer 112.
  • the action of data retrieval (stock holdings) and financial transaction (stock purchase) is initiated or triggered by the RETRIEVE command at the location of the patch of text from a shared database that includes stock ticker information.
  • advertisements are MMR-linked to products associated with the advertisement.
  • a movie advertisement in a printed magazine can be linked to the Fandango web site where one can purchase tickets.
  • the actions are retrieving information linked to advertisement and charging the user 110 for that benefit.
  • the action is initiated or triggered by the RETRIEVE command at the location of the patch of text in the corresponding MMR document 500, where the MMR document is the movie advertisement.
  • Multimedia Tagging In this usage scenario, phrases extracted from a printed document are chosen and attached to newly captured multimedia. The action is selecting text phrases from an MMR-ready document and attaching them to multimedia captured by the capture device 106. The action is triggered by the INSERT_FROM command to insert data at the location of the patch of text into a MMR document 500 along with the multimedia captured on capture device 106.
  • MMR Document Grabber In this usage scenario, the user 110 uses the MMR architecture 7800 to select a document and transfer it to the capture device 106.
  • the action is identifying and transferring electronic version of the document from the server 114 to the capture device 106.
  • the action is performed with the TRANSFER command to send data at the location of the patch of text from the server 114 to the MMR client on the capture device 106.
  • MMR Front End for Scheduling Applications In this usage scenario, the user captures a date, selects it from an MMR-ready document and adds the date to a calendar manager application. The action is selecting "dates" from an MMR-ready document and inserting them in another software application on the capture device 106. The action is initiated by the INSERT_FROM command on data at the location of the patch of text into calendar manager application on the capture device 106.
  • MMR as a UI for Purchasing Media Files; In this scenario, the scanning of a story about a television programs such as "Desperate Housewives" in a magazine such as "People Magazine” triggers the presentation to the user 110 of the option to purchase episodes of the series.
  • the action is the purchasing of episode and the downloading to a user account (TiVo, iPOD, or online iTunes account) .
  • Collaborative Annotation for MMR In this scenario, multiple users 110 add annotations to a blog about a given document or book (e.g., kids trade their commentaries about sections of Harry Potter) . The same mechanism could be used to share test questions and answers. Exercises at the end of a chapter are linked to their answers. The answers could be contributed by others or they could be the official answers from the book' s author. The action is retrieving and/or adding multimedia to a shared MMR database 3400 for a publication. The commands used to perform this action are the RETRIEVE command to retrieve data and the INSERTJTO command to put the data at the location of the patch of text.
  • MMR for On-The-Fly Document Authoring In this scenario, phrases from MMR-ready documents are chosen and added to another document (e.g., a PowerPoint file) that' s being drafted on the spot. The action is adding data to another document, add is accomplished with the INSERT_FROM command using data and storing at the location of the patch of text in a PowerPoint file.
  • another document e.g., a PowerPoint file
  • MMR for Location-Aware Applications In this scenario, by scanning an ad for a restaurant chain you' re provided a list of those restaurants that are close by to the user' s location. The action is retrieve information based on the MMR result and the capture device 106' s location. The action is triggered by a RETRIEVE command for data matching text patch and in close proximity to capture device 106' s current location.
  • MMR for MP3 Players When an MMR user 110 points their capture device 106 at a document their associated MP3 player plays a recording that' s been pre-cached on their MP3 player. The capture device 106 communicates with the MP3 player wirelessly by Bluetooth. The action is to initiate an action on another device that's not the capture device 106 or part of the MRR architecture 7800. The command used to accomplish this is the RETRIEVE command.
  • Voice mail is the underlying server for the data provided by MMR.
  • the capture device 106 or other MMR client device retrieves its multimedia by dialing a voice mail box and playing the messages stored there. This is advantageous because not separate server infrastructure is required for MMR, and it can use other computing resources already available to many companies.
  • the action is automated interaction with voice mail system to dial-in and retrieve the multimedia associated with a hot spot. Users 110 could also add audio to a voice mail box.
  • the command used to accomplish this is the AUTHOR command.
  • MMR Integrated with E-mail The result of an MMR action is the initiation of steps that cause an email to be delivered to the user's email address. The action is initiating steps that result in the sending of an email message.
  • a user 110 captures and the system 7800 recognizes an advertisement and orders merchandise from a non-MMR-database entity. That occurs and a reminder about the expected completion of that transaction is entered in the user's calendar.
  • the action is insertion of time-sensitive information into a user's calendar application. The action can be initiated or triggered by the PURCHASE command, after which the additional processing in invisible to the user.
  • Personalized Ads in Commercially Printed Document In a catalog example, individual advertisements are printed in a way that personal information (e.g., credit card number) is steganographically encoded in the ad. In another case, it is the identification of the publication (e.g., number of the catalog) . That data is extracted by the MMR process and transmitted to the server together with the user' s id as provided by the capture device 106. This guarantees that the MMR request is from the user for whom the catalog was printed. The action is identity verification and transaction (purchase catalog merchandise) , and is triggered by the PURCHASE command.
  • personal information e.g., credit card number
  • identification of the publication e.g., number of the catalog
  • That data is extracted by the MMR process and transmitted to the server together with the user' s id as provided by the capture device 106. This guarantees that the MMR request is from the user for whom the catalog was printed.
  • the action is identity verification and transaction (purchase catalog merchandise) , and is triggered
  • the distributed MMR system architecture 8300 includes some of the same components with the same functionality as described above with reference to Figure 78. For ease of understanding and clarity of description, like terms and reference numbers are used to denote like devices as those above ing Figure 78.
  • the distributed MMR system 8300 includes the rendered document 118, the user 110, the capture device 106, the database 3400, the MMR recognition module or software 226/610, and the action processor 7802 as part of an MMR server 8302.
  • the components 106, 3400 and 7802 of the distributed MMR system 8300 include software suite 222a-c and all the functionality it provides as has been described above.
  • each instance of the software suite 222a-n may be a full version of the software suite 222 with all its functionality, only those parts of the software suite 222 relevant to the operations that are capable of being performed on the particular component, or any portion in between.
  • the MMR server 8302 is any one of the servers that have been described above and can include any portion or all of their functionality.
  • the MMR server 8302 includes additional logic and functionality as has been described above to couple to and interact with other systems.
  • the MMR server 8302 can be coupled to the cellular infrastructure 132, the wireless fidelity (Wi-Fi) technology 134, Bluetooth technology 136, and/or infrared (IR) technology 138.
  • Wi-Fi wireless fidelity
  • IR infrared
  • the MMR server 8302 is coupled for communication with the user computer 112, the media server 114, the service provider 122, the set-top box 126, the office portal 120, a first third party (TP) server 8306 and an nth third party server 8308.
  • the user computer 112, the media server 114, the service provider 122, the set-top box 126, the office portal 120, a first third-party (TP) server 8306 and an nth third-party server 8308 each include the MMR software suite 222d-n.
  • each instance of the software suite 222d-n may be a full version of the software suite 222 with all its functionality or only those parts of the software suite 222 relevant to the operations that are capable of being performed on the particular component.
  • TP server 8306 and an nth third party server 8308 each have similar functionality as has been described above.
  • first third party (TP) server 8306 through nth third party servers 8308 represent other systems to which the MMR system 8300 may be coupled for interoperability.
  • the third party servers 8306, 8308 may be a system of a bank, a cable company, a corporation, etc.
  • the distributed MMR system 8300 is particularly advantageous for a number of reasons.
  • distributed MMR system 8300 enables use of capabilities of other system 114, 122, 126, 120, 8306 and 6838 to perform actions and commands that the distributed MMR system 8300 would not otherwise be able to perform alone.
  • the MMR matching can be used as a trigger to start processes which are performed on other systems 114, 122, 126, 120, 8306 and 6608.
  • One application for this distributed architecture is to perform more computational functions on the capture device 106. For example, automatically translate a document when it's copied by a server such as multifunction printer, but deposit the copied document on the capture device. Similarly, any one of the MMR servers could also translate and apply text-to-speech to the copied document . This could be an output for assistive technology on the copier that does not require people to stand in front of the copier while they use it. Then the user interface for the copier is exported and displayed on the capture device 106. Handicapped users could plug in their cell phone headset and use that to interact with the copier. It could reply with voice prompts or beeps and vibrations. Users could also practice using the copier on the camera phone before they are standing in front of the copier.
  • Figure 84 is a flowchart of one embodiment of a method for using the MMR system 8300 for as an input control and output of another third-party system 8306, 8308 in accordance with the present invention.
  • the method begins by obtaining 8002 an image and performing 8004 MMR recognition as described above.
  • a method establishes 8402 a connection between the MMR system 8300, in particular the action processor 7802, and a third-party server 8306.
  • the method presents 8404 data to the user. In one embodiment, this is performed by sending data to the GUI of the capture device 106. In another embodiment, this is accomplished by having the third-party server 8306 present data to the user.
  • the data may be presented to the user by the third-party server 8306 sending data to the set-top box 126 for presentation to the user on the electronic display 124.
  • the third-party server 8306 can present the data to the user.
  • the MMR system 8300 next receives 8406 input at the capture of device 106.
  • the MMR system 8300 receives processes and sends the input to the third-party server 8306.
  • the third-party system 8306 receives the input from the MMR system 8300 and performs 8408 the task associated with the input. Next, the method determines 8410 whether the interaction with the third-party system 8306 is completed. If so the method is complete and ends. On the other hand, if the interaction with the third-party server 8306 is not complete, the method returns to step 8404 to present data to the user, or present a request to the user.
  • MMR with a cable television infrastructure could enable a cell phone with a camera to be the control device to the cable TV system. For example, data can be input from the capture device 106 to the MMR system 8300, then to the third party system 8306 (cable television infrastructure) .
  • the third party system 8306 can then use is infrastructure, the set-top box 126 to communicate with the user 110, or communicate back through the MMR system 8300 and the capture device 106.
  • the user 100 could order products shown on the television, control the operation of the set-top box 126, pay bills, perform banking, order movies or any number of other operations .
  • This is only the use of the capture device 106, the MMR system 8300 and a third party system 8306.
  • Those skilled in the art will understand the possibilities where multiple third party systems 8306, 8308 are used together with the MMR system 8300.
  • the method begins with a request being input 8502 to the MMR system 8300. This request is for access to the office environment functionality provided by the MMR system 8300. Since the MMR system 8300 is coupled to the MMR computer 112, and the office portal 120, it is capable of providing additional information and documents that are related to a given document such as by its context. Moreover, additional actions can be initiated that related to the office environment in which a rendered document is used.
  • the MMR system 8300 presents 8504 to the user 110 the MMR document processing options that are available with the system 8300.
  • Such options include, but are not limited to: 1) retrieve the original editable form of a document (e.g. Word file) with MMR; 2) retrieve the path to the editable form of the document; 3) retrieve the edit history for a document; 4) retrieve other documents in the same directory as the editable form of the document; 5) add a voice annotation to the original editable form of the document; 6) view "events" associated with the document such as captured by the office portal; 7) physically locate other versions of a given document; 8) listen to conversations that occurred when this document was on top of your desk; 9) determine other people who printed a given document or versions of it; 10) determine who has read a given section of a document on or off-line; 11) communicate with others who have recently read a given section of a document; 12) perform collaborative document review; or 13) other special operations.
  • the method next receives 8506 input from the user 110.
  • the method continues by determining 8508 whether the user 110 has input a request to obtain the history of a document. If the user 110 has requested the history of a document, the method continues to find 8510 the document history and present it to the user 110. For example, by pointing at a section of a document, the user 110 can see on the capture device 106 or other system 8300 display when, where, and who created or modified the document.
  • the user 110 may also retrieve the original editable form of a document (e.g. Word file) with MMR.
  • a document e.g. Word file
  • Other history information and operations include: retrieving other documents in the same directory as the editable form of the document; viewing "events" associated with the document (e.g., the conversations that occurred near the user' s PC 112 when the document was printed -- these events may be captured by another device, e.g., the office pl20, different from the one that printed the document) ; viewing the history of creating the document that includes the PC events that occurred when the document was open such as the web pages browsed, videos viewed, etc.; viewing other documents that were physically adjacent to the present document at some time which implies the use of some other device to capture images of a desktop or identify documents - it could use RFID and apply MMR recognition to those images.
  • the retrieval system provides images of those documents and the events and history attached to them. In this way, a graph of a document' s physical lifecycle could be generated. The method then continues to step 8524.
  • the method continues by determining 8512 whether the user 110 has an add annotation to the document request. If the user 110 has input a request to add an annotation to the document, the method captures 8514 the annotation and adds it to the MMR document 500. For example, the user 110 can add a voice annotation, or a picture or a video clip to the original editable form of the document. The method then continues to step 8524.
  • the method continues by determining 8516 whether the user 110 has selected a contact others request. If the user 110 has input a contact others request, the method determines 8518 others that have accessed the MMR document 500 and contacts them so that the user 110 can communicate with others who have recently read a given section of a document. For example, by pointing a capture device 106 at a paragraph, the user 110 gets a list of people who recently read a section of the MMR document 500 and can immediately initiate a conversation with them. This could be done by triggering a cell phone call or starting an IM session with a selected person on the list. Alternatively, an MMR document may include an action such that others are notified in real-time when a particular document is read or accessed. The method then continues to step 8524 .
  • the method continues by determining 8520 whether the user 110 has selected a special operation to be performed. If the user 110 selected that a special operation be performed, the method proceeds and performs 8522 that special operation.
  • the MMR system 8300 is able to perform a number of special operations that are useful in an office environment. A few examples are described here by way of example to illustrate the capabilities of the MMR system 8300.
  • one special operation is to physically locate other versions of a given document. As above, this operation uses a separate image capture system such as a PTZ camera to watch other users' desktops and applies MMR recognition to the images it captures. The presence of documents is logged into a shared database system.
  • a second special operation is listening to conversations that occurred when this document was on top of your desk. This operation uses a camera-based document tracker plus an audio capture system that attaches recordings to documents the camera captures.
  • a third special operation is determining other people who printed a given document or versions of it, when they printed it and what printers were used. This utilizes a shared database and a version matching program with logic that determines how similar documents are to one another.
  • a fourth special operation determines who has read a given section of a document online. This operation uses screen monitoring software that matches the text written on a PC screen to a database on an ongoing basis. The matching process uses either the MMR recognition algorithms or text-based matching.
  • the screen text can be acquired from the GDI engine we' re currently using to capture printed documents since it often generates the text shown on the screen.
  • a fifth special operation determines who has read a given section of a document offline . This operation uses a desktop video monitoring system that capture images of what a user 110 reads. The MMR recognition algorithms identify documents and sections within them, and store the information in a shared database.
  • a sixth special operation is adding the reading history of a document (either online or offline) as meta data to a web browser. This provides a Windows-application-independent method of storing and representing this data.
  • a seventh special operation generates one's reading history (both online and offline) as a timeline.
  • an eighth special operation is collaborative document review where more than one reader of different versions of the same paper document reviews comments applied by others by pointing their capture device 106 at any section of the document.
  • the annotations are displayed as overlays on top of a document image thumbnail.
  • the MMR system 8300 is able to executed.
  • the method determines 8524 whether the interaction with a third party server 8306 is complete. If the interaction is not complete, the method returns to step 8506 to receive further input from the user. If however, the interaction is complete, the method is finished and the process ends.
  • Yet another application of the MMR system 8300 is to provide a unique way of interacting with a personal computer 112 or other computing environment.
  • the MMR recognition is used as a mechanism to trigger or initiate activities that are executed on the personal computer 112.
  • MMR recognition is used to initiate video replay on the personal computer 112.
  • the user 110 By pointing the capture device 106 at a section of a paper document, the user 110 is shown video clips that show changes in the personal computer 112' s display while that section was visible. This combines capture of the desktop video with the indexing of the text displayed on the screen.
  • MMR recognition is used as a web page reminder. By panning a video camera over a document, the user 110 is presented with the traces of the web pages that were viewed while the corresponding section of the document were shown on the personal computer 112' s display.
  • the web pages could be shown in the browser, overlaid on the camera phone's screen, etc.
  • the MMR recognition is used to review how a form has been completed. By pointing at a blank form, a user is shown the history of everything they've entered on that form in the past. This could be used with online forms displayed in web browsers. The history of the data entered on those documents could be captured with our screen capture system.
  • the MMR recognition is used for retrieving version of a document independent of time . MMR is used to retrieve source files and printed representations for past and future (printed after the document in hand) versions of a document.
  • the MMR system includes an action processor and methods, and MMR documents with an associated action.
  • the MMR document structure is particularly advantageous because the ability to specify different actions for different MMR documents, combined with the ability to create any number of MMR documents for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, addition processing or actions can be triggered or initiated based on MMR recognition.
  • the action processor receives the output of the MMR recognition process which yields an MMR document including at least one action.
  • the action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system.
  • the MMR system architecture is advantageous because an action can be executed by pointing the capture device at a block of text, and the action is performed.
  • the action may be retrieving the text in electronic form to the capture device, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions.
  • the action processor stores historical information about actions in the database. The historical information about actions is stored in association with the x-y location in a block of text, and document and page. This information can then later be retrieved, searched and analyzed in the event the same block of text is captured.
  • a Mixed Media Reality (MMR) system and associated techniques provide mechanisms for forming a mixed media document that includes media of at least two types (e.g., printed paper as a first medium and digital content and/or web link as a second medium) .
  • the MMR system includes an action processor and methods, and an MMR document with having an associated action.
  • the MMR document specifies different actions for different MMR documents, and creates any number of MMR documents for a particular location on any media, thereby allowing the MMR architecture to serve as a universal trigger or initiator for additional processing.
  • the action processor receives the output of the MMR recognition process which yields an MMR document including at least one action.
  • the action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system.
  • the MMR system architecture can perform action such as retrieving the electronic form of the document to the capture device, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information
  • the MMR system includes an action processor and method, and MMR documents with an associated action.
  • the MMR document structure is particularly advantageous because the ability to specify different actions for different MMR documents, combined with the ability to create any number of MMR documents for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, addition processing or actions can be triggered or initiated based on MMR recognition.
  • the action processor receives the output of the MMR recognition process which yields an MMR document including at least one action.
  • the action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system.
  • the MMR system architecture is advantageous because an action can be executed by pointing the capture device at a block of text, and the action is performed.
  • Example actions include retrieving the text in electronic form to the capture device, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions.
  • the MMR system includes a variety of user applications (one or more actions) initiated by the MMR recognition of a text patch such as information retrieval for a travel guide book, stock listings or advertisements; information capture such as recording content from a conference, recording and storing multimedia associated with the document, capturing information for a calendar and on the fly authoring; purchasing media files for storage on any part of an MMR document.
  • the MMR system includes an action processor and method, and MMR documents with an associated action.
  • the MMR document structure is particularly advantageous because the ability to specify different actions for different MMR documents, combined with the ability to create any number of MMR documents for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, addition processing or actions can be triggered or initiated based on MMR recognition.
  • the action processor receives the output of the MMR recognition process which yields an MMR document including at least one action.
  • the action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system.
  • the MMR system architecture is advantageous because an action can be executed by pointing the capture device at a block of text, and the action is performed.
  • Example actions include retrieving the text in electronic form to the capture device, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions.
  • the MMR system includes a variety of user applications (one or more actions) initiated by the MMR recognition of a text patch such as information retrieval for a travel guide book, stock listings or advertisements; information capture such as recording content from a conference, recording and storing multimedia associated with the document, capturing information for a calendar and on the fly authoring; purchasing media files for storage on any part of an MMR document .
  • the MMR system includes an action processor and method, and MMR documents with an associated action.
  • the MMR document structure is particularly advantageous because the ability to specify different actions for different MMR documents combined with the ability to create any number of MMR documents for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, addition processing or actions can be triggered or initiated based on MMR recognition.
  • the action processor receives the output of the MMR recognition process which yields an MMR document including at least one action.
  • the action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system.
  • the MMR system architecture is advantageous because an action can be executed by pointing the capture device at a rendered document, and the action is performed.
  • Example actions include retrieving the electronic form of the rendered document, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions.
  • the MMR system executes the action using other system and the MMR software is distributed among the MMR system and these other systems.
  • the MMR system in particular MMR recognition and the input/output capabilities of the capture device are used as a control mechanism for a third party system.
  • the MMR system includes an action processor and method, and MMR documents with an associated action.
  • the MMR document structure specifies different actions for different MMR documents combined with the ability to create any number of MMR documents for a particular location on any media, which allows the MMR architecture to serve as a universal trigger or initiator for additional processing.
  • the action processor receives the output of the MMR recognition process which yields an MMR document including at least one action.
  • the action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system.
  • the MMR system executes the action using other system and the MMR software is distributed among the MMR system and these other systems.
  • the MMR system architecture is advantageous because an action can be executed by pointing the capture device at a rendered document, and the action is performed.
  • Example actions include retrieving the electronic form of the rendered document, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions.
  • the MMR system in particular MMR recognition and the input/output capabilities of the capture device, are used as a control mechanism for a third party system.
  • the algorithms presented herein are not inherently related to any particular computer or other apparatus. Various general-purpose and/or special purpose systems may be programmed or otherwise configured in accordance with embodiments of the present invention.
  • embodiments of the present invention can operate on or work in conjunction with an information system or network.
  • the invention can operate on a stand alone multifunction printer or a networked printer with functionality varying depending on the configuration.
  • the present invention is capable of operating with any information system from those with minimal functionality to those providing all the functionality disclosed herein.
  • modules, routines, features, attributes, methodologies and other aspects of the present invention can be implemented as software, hardware, firmware or any combination of the three.
  • a component, an example of which is a module, of the present invention is implemented as software
  • the component can be implemented as a standalone program, as part of a larger program, as a plurality of separate programs, as a statically or dynamically linked library, as a kernel loadable module, as a device driver, and/or in every and any other way known now or in the future to those of ordinary skill in the art of computer programming.
  • the present invention is in no way limited to implementation in any specific programming language, or for any specific operating system or environment. Accordingly, the disclosure of the present invention is intended to be illustrative, but not limiting, of the scope of the present invention, which is set forth in the following claims.
  • the present invention is based on United States priority applications S.N. 11/461,017 filed July 31, 2006, S.N. 11/461,024 filed July 31, 2006, S.N. 11/461,032 filed July 31, 2006, S.N. 11/461,049 filed July 31, 2006, S.N. 11/461,064 filed July 31, 2006, S.N.11/461, 075 filed July 31, 2006, S.N.11/461,090 filed July 31, 2006, S.N. 11/461,126 filed July 31, 2006, S.N. 11/461,143 filed July 31, 2006, S.N. 11/461,268 filed July 31, 2006, S.N. 11/461,272 filed July 31, 2006, S.N. 60/710,767 filed August 23, 2005, S.N. 60/792,912 filed April 17, 2006, S.N. 60/807,654 filed July 18, 2006, the entire contents of which are hereby incorporated by reference.

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Abstract

A Mixed Media Reality (MMR) system and associated techniques are disclosed. The MMR system of the present invention provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and a digital photograph, digital movie, digital audio file, or web link as a second medium. Furthermore, the MMR system of the present invention facilitates business methods that take advantage of the combination of a portable electronic device, such as a cellular camera phone, and a paper document.

Description

DESCRIPTION
SYSTEM AND METHODS FOR CREATION AND USE OF A MIXED MEDIA
ENVIRONMENT
TECHNICAL FIELD
The invention relates to techniques for producing a mixed media document that is formed from at least two media types, and more particularly, to a Mixed Media Reality (MMR) system that uses printed media in combination with electronic media to produce mixed media documents.
BACKGROUND ART
Document printing and copying technology has been used for many years in many contexts. By way of example, printers and copiers are used in private and commercial office environments, in home environments with personal computers, and in document printing and publishing service environments . However, printing and copying technology has not been thought of previously as a means to bridge the gap between static printed media (i.e. , paper documents) , and the "virtual world" of interactivity that includes the likes of digital communication, networking, information provision, advertising, entertainment, and electronic commerce. Printed media has been the primary source of communicating information, such as news and advertising information, for centuries. The advent and ever-increasing popularity of personal computers and personal electronic devices, such as personal digital assistant (PDA) devices and cellular telephones (e.g., cellular camera phones) , over the past few years has expanded the concept of printed media by making it available in an electronically readable and searchable form and by introducing interactive multimedia capabilities, which are unparalleled by traditional printed media.
Unfortunately, a gap exists between the virtual multimedia-based world that is accessible electronically and the physical world of print media. For example, although almost everyone in the developed world has access to printed media and to electronic information on a daily basis, users of printed media and of personal electronic devices do not possess the tools and technology required to form a link between the two (i.e., for facilitating a mixed media document) .
Moreover, there are particular advantageous attributes that conventional printed media provides such as tactile feel, no power requirements, and permanency for organization and storage, which are not provided with virtual or digital media. Likewise, there are particular advantageous attributes that conventional digital media provides such as portability (e.g., carried in storage of cell phone or laptop) and ease of transmission (e.g., email). For these reasons, a need exists for techniques that enable exploitation of the benefits associated with both printed and virtual media.
DISCLOSURE OF INVENTION At least one aspect of one or more embodiments of the present invention provides a Mixed Media Reality (MMR) system and associated methods. The MMR system of the present invention provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and text or data in electronic form, a digital picture, a digital photograph, digital movie, digital audio file, or web link as a second medium. Furthermore, the MMR system of the present invention facilitates business methods that take advantage of the combination of a portable electronic device, such as a cellular camera phone, and a paper document. The MMR system of the present invention includes an MMR processor, a capture device, a communication mechanism and a memory including MMR software. The MMR processor may also be coupled to a storage or source of media types, an input device and an output device. The MMR software includes routines executable by the MMR processor for accessing MMR documents with additional digital content, creating or modifying MMR documents, and using a document to perform other operations such business transactions, data queries, reporting, etc. The present invention also includes a number of novel methods including: a method for creating a mixed media reality document, a method for using a mixed media reality document and a method for modifying or deleting a mixed media reality document .
At least one other aspect of one or more embodiments of the present invention provide a machine-readable medium (e.g. , one or more compact disks, diskettes, servers, memory sticks, or hard drives, ROMs, RAMs, or any type of media suitable for storing electronic instructions) encoded with instructions, that when executed by one or more processors, cause the processor to carry out a process for accessing information in a mixed media document system. This process can be, for example, similar to or a variation of the method described here.
The features and advantages described herein are not all-inclusive and, in particular, many additional features and advantages will be apparent to one of ordinary skill in the art in view of the figures and description. Moreover, it should be noted that the language used in the specification has been principally selected for readability and instructional purposes, and not to limit the scope of the inventive subject matter.
BRIEF DESCRIPTION OF DRAWINGS
The invention is illustrated by way of example, and not by way of limitation in the figures of the accompanying drawings in which like reference numerals are used to refer to similar elements. Figure IA illustrates a functional block diagram of a Mixed Media Reality (MMR) system configured in accordance with an embodiment of the present invention.
Figure IB illustrates a functional block diagram of an MMR system configured in accordance with another embodiment of the present invention.
Figures 2A, 2B, 2C, and 2D illustrate capture devices in accordance with embodiments of the present invention.
Figure 2E illustrates a functional block diagram of a capture device configured in accordance with an embodiment of the present invention.
Figure 3 illustrates a functional block diagram of a MMR computer configured in accordance with an embodiment of the present invention. Figure 4 illustrates a set of software components included in an MMR software suite configured in accordance with an embodiment of the present invention.
Figure 5 illustrates a diagram representing an embodiment of an MMR document configured in accordance with an embodiment of the present invention.
Figure 6 illustrates a document fingerprint matching methodology in accordance with an embodiment of the present invention.
Figure 7 illustrates a document fingerprint matching system configured in accordance with an embodiment of the present invention.
Figure 8 illustrates a flow process for text/non-text discrimination in accordance with an embodiment of the present invention. Figure 9 illustrates an example of text/non-text discrimination in accordance with an embodiment of the present invention.
Figure 10 illustrates a flow process for estimating the point size of text in an image patch in accordance with an embodiment of the present invention.
Figure 11 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 12 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 13 illustrates an example of interactive image analysis in accordance with an embodiment of the present invention. Figure 14 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 15 illustrates an example of word bounding box detection in accordance with an embodiment of the present invention. Figure 16 illustrates a feature extraction technique in accordance with an embodiment of the present invention.
Figure 17 illustrates a feature extraction technique in accordance with another embodiment of the present invention. Figure 18 illustrates a feature extraction technique in accordance with another embodiment of the present invention.
Figure 19 illustrates a feature extraction technique in accordance with another embodiment of the present invention.
Figure 20 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 21 illustrates multi-classifier feature extraction for document fingerprint matching in accordance with an embodiment of the present invention. Figures 22 and 23 illustrate an example of a document fingerprint matching technique in accordance with an embodiment of the present invention.
Figure 24 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 25 illustrates a flow process for database-driven feedback in accordance with an embodiment of the present invention.
Figure 26 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 27 illustrates a flow process for database-driven classification in accordance with an embodiment of the present invention. Figure 28 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 29 illustrates a flow process for database-driven multiple classification in accordance with an embodiment of the present invention.
Figure 30 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 31 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention.
Figure 32 illustrates a document fingerprint matching technique in accordance with another embodiment of the present invention. Figure 33 shows a flow process for multi-tier recognition in accordance with an embodiment of the present invention.
Figure 34A illustrates a functional block diagram of an MMR database system configured in accordance with an embodiment of the present invention. Figure 34B illustrates an example of MMR feature extraction for an OCR-based technique in accordance with an embodiment of the present invention.
Figure 34C illustrates an example index table organization in accordance with an embodiment of the present invention.
Figure 35 illustrates a method for generating an MMR index table in accordance with an embodiment of the present invention. Figure 36 illustrates a method for computing a ranked set of document, page, and location hypotheses for a target document, in accordance with an embodiment of the present invention.
Figure 37A illustrates a functional block diagram of MMR components configured in accordance with another embodiment of the present invention.
Figure 37B illustrates a set of software components included in MMR printing software in accordance with an embodiment of the invention. Figure 38 illustrates a flowchart of a method of embedding a hot spot in a document in accordance with an embodiment of the present invention.
Figure 39A illustrates an example of an HTML file in accordance with an embodiment of the present invention Figure 39B illustrates an example of a marked-up version of the HTML file of Figure 39A.
Figure 4OA illustrates an example of the HTML file of Figure 39A displayed in a browser in accordance with an embodiment of the present invention. Figure 4OB illustrates an example of a printed version of the HTML file of Figure 4OA, in accordance with an embodiment of the present invention.
Figure 41 illustrates a symbolic hotspot description in accordance with an embodiment of the present invention. Figures 42Aand 42B show an example page_desc. xml file for the HTML file of Figure 39A, in accordance with an embodiment of the present invention.
Figure 43 illustrates a hotspot. xml file corresponding to Figures, 41, 42A, and 42B, in accordance with an embodiment of the present invention.
Figure 44 illustrates a flowchart of the process used by a forwarding DLL in accordance with an embodiment of the present invention.
Figure 45 illustrates a flowchart of a method of transforming characters corresponding to a hotspot in a document in accordance with an embodiment of the present invention.
Figure 46 illustrates an example of an electronic version of a document according to an embodiment of the present invention. Figure 47 illustrates an example of a printed modified document according to an embodiment of the present invention.
Figure 48 illustrates a flowchart of a method of shared document annotation in accordance with an embodiment of the present invention. Figure 49A illustrates a sample source web page in a browser according to an embodiment of the present invention.
Figure 49B illustrates a sample modified web page in a browser according to an embodiment of the present invention.
Figure 49C illustrates a sample printed web page according to an embodiment of the present invention.
Figure 5OA illustrates a flowchart of a method of adding a hotspot to an imaged document in accordance with an embodiment of the present invention.
Figure 5OB illustrates a flowchart of a method of defining a hotspot for addition to an imaged document in accordance with an embodiment of the present invention.
Figure 51A illustrates an example of a user interface showing a portion of a newspaper page that has been scanned according to an embodiment. Figure 51B illustrates a user interface for defining the data or interaction to associate with a selected hotspot.
Figure 51C illustrates the user interface of Figure 51B including an assign box in accordance with an embodiment of the present invention. Figure 51D illustrates a user interface for displaying hotspots within a document in accordance with an embodiment of the present invention.
Figure 52 illustrates a flowchart of a method of using an MMR document and the MMR system in accordance with an embodiment of the present invention.
Figure 53 illustrates a block diagram of an exemplary set of business entities associated with the MMR system, in accordance with an embodiment of the present invention.
Figure 54 illustrates a flowchart of a method, which is a generalized business method that is facilitated by use of the MMR system, in accordance with an embodiment of the present invention.
Figure 55 illustrates a flow chart of a method for accessing a mixed media document, according to one embodiment of the present invention.
Figures 56A, 56B, and 56C illustrate various examples of methods and uses for accessing mixed media documents, according to various embodiments of the present invention.
Figure 57 illustrates a flow chart of a method for a accessing a mixed media document, according to one embodiment of the present invention.
Figure 58 illustrates a user interface for accessing a mixed media document, according to one embodiment of the present invention. Figure 59 illustrates a method for labeling a media file, according to one embodiment of the present invention.
Figure 60 illustrates a user interface for labeling a media file, according to one embodiment of the present invention.
Figures 61A, 61B, 61C, and 61D illustrate flowcharts of methods of using an MMR document and the MMR system in accordance with the present invention.
Figure 62 illustrates a flowchart of a method of using an MMR document and the MMR system in accordance with the present invention. Figure 63 illustrates a functional block diagram of an embodiment of an MMR system including an MMR information device without optical capture.
Figure 64 illustrates a user interface of a menu of a MMR document on an MMR information device of the MMR system of Figure 63.
Figure 65 illustrates a user interface of the MMR document and hotspot information displayed on the MMR information device .
Figure 66 illustrates a flow chart of the operation of the MMR information device of Figure 63.
Figure 67 illustrates a functional block diagram of an embodiment of an MMR system including a capture device and an MMR information device without optical capture.
Figure 68 illustrates a flow chart of the operation of the MMR information device of Figure 67. Figure 69 illustrates a block diagram of an MMR system including a voice mail server for processing hotspot information.
Figure 70 illustrates a flow chart of the methodology of updating hotspot information in the MMR system of Figure 69. Figure 71 illustrates a flow chart of the methodology of retrieving hotspot information in the MMR system of Figure 69.
Figure 72 illustrates a block diagram of an MMR system including an email message server for processing hot spot information. Figure 73 illustrates a flow chart of the methodology of retrieving hot spot information in a MMR system of Figure 72.
Figure 74 illustrates a block diagram of an MMR system including a document database.
Figure 75 illustrates a block diagram of an MMR system including a shipping database.
Figure 76 illustrates a functional block diagram of one embodiment of the MMR system in accordance with the invention for use in ordering goods or services using MMR-individualized documents . Figure 77 illustrates a flow diagram of a method for ordering goods or services using MMR-individualized documents.
Figure 78 illustrates a block diagram of a MMR system architecture for performing actions of MMR documents in accordance with another embodiment of the present invention. Figure 79 illustrates a block diagram of a portion of the database relating to the performance of actions in accordance with one embodiment of the present invention.
Figure 80 illustrates a flowchart of a method for executing actions of MMR documents in accordance with one embodiment of the present invention.
Figure -81 illustrates a flowchart of a method for viewing historical information about actions in accordance with one embodiment of the present invention.
Figures 82A & 82B illustrate a flowchart of a method for performing commands associated with the actions in accordance with one embodiment of the present invention.
Figure 83 illustrates a block diagram of a distributed MMR system architecture according to one embodiment of the present invention. Figure 84 illustrates a flowchart of a method for using the MMR system as an input control and output device of a third-party system in accordance with one embodiment of the present invention.
Figure 85 illustrates a flowchart of a method for using the MMR system in an office environment in accordance with one embodiment of the present invention.
BEST MODE FOR CARRYING OUT THE INVENTION
A Mixed Media Reality (MMR) system and associated methods are described. The MMR system provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and a digital photograph, digital movie, digital audio file, digital text file, or web link as a second medium. The MMR system and/or techniques can be further used to facilitate various business models that take advantage of the combination of a portable electronic device
(e.g., a PDA or cellular camera phone) and a paper document to provide mixed media documents.
In one particular embodiment, the MMR system includes a content-based retrieval database that represents two-dimensional geometric relationships between objects extracted from a printed document in a way that allows look-up using a text-based index. Evidence accumulation techniques combine the frequency of occurrence of a feature with the likelihood of its location in a two-dimensional zone. In one such embodiment, an MMR database system includes an index table that receives a description computed by an MMR feature extraction algorithm. The index table identifies the documents, pages, and x-y locations within those pages where each feature occurs. An evidence accumulation algorithm computes a ranked set of document, page and location hypotheses given the data from the index table. A relational database (or other suitable storage facility) can be used to store additional characteristics about each document, page, and location, as desired. The MMR database system may include other components as well, such as an MMR processor, a capture device, a communication mechanism and a memory including MMR software . The MMR processor may also be coupled to a storage or source of media types, an input device and an output device. In one such configuration, the MMR software includes routines executable by the MMR processor for accessing MMR documents with additional digital content, creating or modifying MMR documents, and using a document to perform other operations such business transactions, data queries, reporting, etc. MMR System Overview
Referring now to Figure IA, a Mixed Media Reality (MMR) system 100a in accordance with an embodiment of the present invention is shown. The MMR system 100a comprises a MMR processor 102; a communication mechanism 104; a capture device 106 having a portable input device 168 and a portable output device 170; a memory including MMR software 108; a base media storage 160; an MMR media storage 162; an output device 164; and an input device 166. The MMR system 100a creates a mixed media environment by providing a way to use information from an existing printed document (a first media type) as an index to a second media type (s) such as audio, video, text, updated information and services.
The capture device 106 is able to generate a representation of a printed document (e.g., an image, drawing, or other such representation) , and the representation is sent to the MMR processor 102. The MMR system 100a then matches the representation to an MMR document and other second media types. The MMR system 100a is also responsible for taking an action in response to input and recognition of a representation. The actions taken by the MMR system 100a can be any type including, for example, retrieving information, placing an order, retrieving a video or sound, storing information, creating a new document, printing a document, displaying a document or image, etc. By use of content-based retrieval database technology described herein, the MMR system 100a provides mechanisms that render printed text into a dynamic medium that provides an entry point to electronic content or services of interest or value to the user.
The MMR processor 102 processes data signals and may comprise various computing architectures including a complex instruction set computer (CISC) architecture, a reduced instruction set computer (RISC) architecture, or an architecture implementing a combination of instruction sets. In one particular embodiment, the MMR processor 102 comprises an arithmetic logic unit, a microprocessor, a general purpose computer, or some other information appliance equipped to perform the operations of the present invention. In another embodiment, MMR processor 102 comprises a general purpose computer having a graphical user interface, which may be generated by, for example, a program written in Java running on top of an operating system like WINDOWS or UNIX based operating systems. Although only a single processor is shown in Figure IA, multiple processors may be included. The processor is coupled to the MMR memory 108 and executes instructions stored therein.
The communication mechanism 104 is any device or system for coupling the capture device 106 to the MMR processor 102. For example, the communication mechanism 104 can be implemented using a network (e.g., WAN and/or LAN) , a wired link (e.g., USB, RS232, or Ethernet) , a wireless link (e.g., infrared, Bluetooth, or 802.11), a mobile device communication link (e.g., GPRS or GSM), a public switched telephone network (PSTN) link, or any combination of these. Numerous communication architectures and protocols can be used here.
The capture device 106 includes a means such as a transceiver to interface with the communication mechanism 104, and is any device that is capable of capturing an image or data digitally via an input device 168. The capture device 106 can optionally include an output device 170 and is optionally portable. For example, the capture device 106 is a standard cellular camera phone; a PDA device; a digital camera; a barcode reader; a radio frequency identification (RFID) reader; a computer peripheral, such as a standard webcam; or a built-in device, such as the video card of a PC. Several examples of capture devices 106a-d are described in more detail with reference to Figures 2A-2D, respectively. Additionally, capture device 106 may include a software application that enables content-based retrieval and that links capture device 106 to the infrastructure of MMR system lOOa/lOOb. More functional details of capture device 106 are found in reference to Figure 2E. Numerous conventional and customized capture devices 106, and their respective functionalities and architectures, will be apparent in light of this disclosure.
The memory 108 stores instructions and/or data that may be executed by processor 102. The instructions and/or data may comprise code for performing any and/or all of techniques described herein. The memory 108 may be a dynamic random access memory (DRAM) device, a static random access memory (SRAM) device, or any other suitable memory device. The memory 108 is described in more detail below with reference to Figure 4. In one particular embodiment, the memory 108 includes the MMR software suite, an operating system and other application programs (e.g., word processing applications, electronic mail applications, financial applications, and web browser applications) .
The base media storage 160 is for storing second media types in their original form, and MMR media storage 162 is for storing MMR documents, databases and other information as detailed herein to create the MMR environment. While shown as being separate, in another embodiment, the base media storage 160 and the MMR media storage 162 maybe portions of the same storage device or otherwise integrated. The data storage 160, 162 further stores data and instructions for MMR processor 102 and comprises one or more devices including, for example, a hard disk drive, a floppy disk drive, a CD ROM device, a DVD ROM device, a DVD RAM device, a DVD RW device, a flash memory device, or any other suitable mass storage device.
The output device 164 is operatively coupled the MMR processor 102 and represents any device equipped to output data such as those that display, sound, or otherwise present content. For instance, the output device 164 can be any one of a variety of types such as a printer, a display device, and/or speakers. Example display output devices 164 include a cathode ray tube (CRT) , liquid crystal display (LCD) , or any other similarly equipped display device, screen, ormonitor. In one embodiment, the output device 164 is equipped with a touch screen in which a touch sensitive, transparent panel covers the screen of the output device 164. The input device 166 is operatively coupled the MMR processor 102 and is any one of a variety of types such as a keyboard and cursor controller, a scanner, a multifunction printer, a still or video camera, a keypad, a touch screen, a detector, an RFID tag reader, a switch, or any mechanism that allows a user to interact with system 100a. In one embodiment the input device 166 is a keyboard and cursor controller. Cursor control may include, for example, a mouse, a trackball, a stylus, a pen, a touch screen and/or pad, cursor direction keys, or other mechanisms to cause movement of a cursor. In another embodiment, the input device 166 is a microphone, audio add in/expansion card designed for use within a general purpose computer system, analog to digital converters, and digital signal processors to facilitate voice recognition and/or audio processing.
Figure IB illustrates a functional block diagram of an MMR system 100b configured in accordance with another embodiment of the present invention. In this embodiment, the MMR system 100b includes a MMR computer 112 (operated by user 110) , a networked media server 114, and a printer 116 that produces a printed document 118. The MMR system 100b further includes an office portal 120, a service provider server 122, an electronic display 124 that is electrically connected to a set-top box 126, and a document scanner 127. A communication link between the MMR computer 112, networked media server 114, printer 116, office portal 120, service provider server 122, set-top box 126, and document scanner 127 is provided via a network 128, which can be a LAN (e.g., office or home network), WAN (e.g., Internet or corporate network) , LAN/WAN combination, or any other data path across which multiple computing devices may communicate.
The MMR system 100b further includes a capture device 106 that is capable of communicating wirelessly to one or more computers 112, networked media server 114, user printer 116, office portal 120, service provider server 122, electronic display 124, set-top box 126, and document scanner 127 via a cellular infrastructure 132, wireless fidelity (Wi-Fi) technology 134, Bluetooth technology 136, and/or infrared (IR) technology 138. Alternatively, or in addition to, capture device 106 is capable of communicating in a wired fashion to MMR computer 112, networked media server 114, user printer 116, office portal 120, service provider server 122, electronic display 124, set-top box 126, and document scanner 127 via wired technology 140. Although Wi-Fi technology 134, Bluetooth technology 136, IR technology 138, and wired technology 140 are shown as separate elements in Figure IB, such technology can be integrated into the processing environments (e.g., MMR computer 112, networked media server 114, capture device 106, etc) as well. Additionally, MMR system 100b further includes a geo location mechanism 142 that is in wireless or wired communication with the service provider server 122 or network 128. This could also be integrated into the capture device 106.
The MMR user 110 is any individual who is using MMR system 100b. MMR computer 112 is any desktop, laptop, networked computer, or other such processing environment. User printer 116 is any home, office, or commercial printer that can produce printed document 118, which is a paper document that is formed of one or more printed pages. Networked media server 114 is a networked computer that holds information and/or applications to be accessed by users of MMR system 100b via network 128. In one particular embodiment, networked media server 114 is a centralized computer, upon which is stored a variety of media files, such as text source files, web pages, audio and/or video files, image files (e.g., still photos) , and the like. Networked media server 114 is, for example, the Comcast Video-on-Demand servers of Comcast Corporation, the Ricoh Document Mall of Ricoh Innovations Inc. , or the Google Image and/or Video servers of Google Inc. Generally stated, networked media server 114 provides access to any data that may be attached to, integrated with, or otherwise associated with printed document 118 via capture device 106.
Office portal 120 is an optional mechanism for capturing events that occur in the environment of MMR user 110, such as events that occur in the office of MMR user 110. Office portal 120 is, for example, a computer that is separate from MMR computer 112. In this case, office portal 120 is connected directly to MMR computer 112 or connected to MMR computer 112 via network 128. Alternatively, office portal 120 is built into MMR computer 112. For example, office portal 120 is constructed from a conventional personal computer (PC) and then augmented with the appropriate hardware that supports any associated capture devices 106. Office portal 120 may include capture devices, such as a video camera and an audio recorder. Additionally, office portal 120 may capture and store data from MMR computer 112. For example, office portal 120 is able to receive and monitor functions and events that occur on MMR computer 112. As a result, office portal 120 is able to record all audio and video in the physical environment of MMR user 110 and record all events that occur on MMR computer 112. In one particular embodiment, office portal 120 captures events, e.g. , a video screen capture while a document is being edited, from MMR computer 112. In doing so, office portal 120 captures which websites that were browsed and other documents that were consulted while a given document was created. That information may be made available later to MMR user 110 through his/her MMR computer 112 or capture device 106. Additionally, office portal 120 may be used as the multimedia server for clips that users add to their documents. Furthermore, office portal 120 may capture other office events, such as conversations (e.g., telephone or in-office) that occur while paper documents are on a desktop, discussions on the phone, and small meetings in the office. A video camera (not shown) on office portal 120 may identify paper documents on the physical desktop of MMR user 110, by use of the same content-based retrieval technologies developed for capture device 106.
Service provider server 122 is any commercial server that holds information or applications that can be accessed by MMR user 110 of MMR system 100b via network 128. In particular, service provider server 122 is representative of any service provider that is associated with MMR system 100b. Service provider server 122 is, for example, but is not limited to, a commercial server of a cable TV provider, such as Comcast Corporation; a cell phone service provider, such as Verizon Wireless; an Internet service provider, such as Adelphia Communications; an online music service provider, such as Sony Corporation; and the like.
Electronic display 124 is any display device, such as, but not limited to, a standard analog or digital television (TV) , a flat screen TV, a flat panel display, or a projection system. Set-top box 126 is a receiver device that processes an incoming signal from a satellite dish, aerial, cable, network, or telephone line, as is known. An example manufacturer of set-top boxes is Advanced Digital Broadcast. Set-top box 126 is electrically connected to the video input of electronic display 124. Document scanner 127 is a commercially available document scanner device, such as the KV-S2026C full-color scanner, by Panasonic Corporation. Document scanner 127 is used in the conversion of existing printed documents into MMR-ready documents . Cellular infrastructure 132 is representative of a plurality of cell towers and other cellular network interconnections. In particular, by use of cellular infrastructure 132, two-way voice and data communications are provided to handheld, portable, and car-mounted phones via wireless modems incorporated into devices, such as into capture device 106.
Wi-Fi technology 134, Bluetooth technology 136, and IR technology 138 are representative of technologies that facilitate wireless communication between electronic devices. Wi-Fi technology 134 is technology that is associated with wireless local area network (WLAN) products that are based on 802.11 standards, as is known. Bluetooth technology 136 is a telecommunications industry specification that describes how cellular phones, computers, and PDAs are interconnected by use of a short-range wireless connection, as is known. IR technology 138 allows electronic devices to communicate via short-range wireless signals. For example, IR technology 138 is a line-of-sight wireless communications medium used by television remote controls, laptop computers, PDAs, and other devices. IR technology 138 operates in the spectrum from mid-microwave to below visible light. Further, in one or more other embodiments, wireless communication may be supported using IEEE 802.15 (UWB) and/or 802.16 (WiMAX) standards.
Wired technology 140 is any wired communications mechanism, such as a standard Ethernet connection or universal serial bus (USB) connection. By use of cellular infrastructure 132, Wi-Fi technology 134, Bluetooth technology 136, IR technology 138, and/or wired technology 140, capture device 106 is able to communicate bi-directionally with any or all electronic devices of MMR system 100b.
Geo-location mechanism 142 is any mechanism suitable for determining geographic location. Geo-location mechanism 142 is, for example, GPS satellites which provide position data to terrestrial GPS receiver devices, as is known. In the example, embodiment shown in Figure IB, position data is provided by GPS satellites to users of MMR system 100b via service provider server 122 that is connected to network 128 in combination with a GPS receiver (not shown) . Alternatively, geo-location mechanism 142 is a set of cell towers (e.g., a subset of cellular infrastructure 132) that provide a triangulation mechanism, cell tower identification (ID) mechanism, and/or enhanced 911 service as a means to determine geographic location. Alternatively, geo-location mechanism 142 is provided by signal strength measurements from known locations of WiFi access points or BlueTooth devices.
In operation, capture device 106 serves as a client that is in the possession of MMR user 110. Software applications exist thereon that enable a content-based retrieval operation and links capture device 106 to the infrastructure of MMR system 100b via cellular infrastructure 132, Wi-Fi technology 134, Bluetooth technology 136, IR technology 138, and/or wired technology 140. Additionally, software applications exist on MMR computer 112 that perform several operations, such as but not limited to, a print capture operation, an event capture operation (e.g. , save the edit history of a document) , a server operation (e.g., data and events saved on MMR computer 112 for later serving to others ) , or a printer management operation (e.g., printer 116 may be set up to queue the data needed for MMR such as document layout and multimedia clips) . Networked media server 114 provides access to the data attached to a printed document, such as printed document 118 that is printed via MMR computer 112, belonging to MMR user 110. In doing so, a second medium, such as video or audio, is associated with a first medium, such as a paper document. More details of the software applications and/or mechanisms for forming the association of a second medium to a first medium are described in reference to Figures 2E, 3, 4, and 5 below. Capture Device
Figures 2A, 2B, 2C, and 2D illustrate example capture devices 106 in accordance with embodiments of the present invention. More specifically, Figure 2A shows a capture device 106a that is a cellular camera phone. Figure 2B shows a capture device 106b that is a PDA device. Figure 2C shows a capture device 106c that is a computer peripheral device. One example of a computer peripheral device is any standard webcam. Figure 2D shows a capture device 106d that is built into a computing device (e.g., such as MMR computer 112). For example, capture device 106d is a computer graphics card. Example details of capture device 106 are found in reference to Figure 2E.
In the case of capture devices 106a and 106b, the capture device 106 may be in the possession of MMR user 110, and the physical location thereof may be tracked by geo location mechanism 142 or by the ID numbers of each cell tower within cellular infrastructure 132.
Referring now to Figure 2E, a functional block diagram for one embodiment of the capture device 106 in accordance with the present invention is shown. The capture device 106 includes a processor 210, a display 212, a keypad 214, a storage device 216, a wireless communications link 218, a wired communications link 220, an MMR software suite 222, a capture device user interface (UI) 224, a document fingerprint matching module 226, a third-party software module 228, and at least one of a variety of capture mechanisms 230. Example capture mechanisms 230 include, but are not limited to, a video camera 232, a still camera 234, a voice recorder 236, an electronic highlighter 238, a laser 240, a GPS device 242, and an RFID reader 244.
Processor 210 is a central processing unit (CPU) , such as, but not limited to, the Pentium microprocessor, manufactured by Intel Corporation. Display 212 is any standard video display mechanism, such those used in handheld electronic devices. More particularly, display 212 is, for example, any digital display, such as a liquid crystal display (LCD) or an organic light-emitting diode (OLED) display. Keypad 214 is any standard alphanumeric entry mechanism, such as a keypad that is used in standard computing devices and handheld electronic devices, such as cellular phones. Storage device 216 is any volatile or non-volatile memory device, such as a hard disk drive or a random access memory (RAM) device, as is well known.
Wireless communications link 218 is a wireless data communications mechanism that provides direct point-to-point communication or wireless communication via access points (not shown) and a LAN (e.g., IEEE 802.11 Wi-Fi or Bluetooth technology) as is well known. Wired communications link 220 is a wired data communications mechanism that provides direct communication, for example, via standard Ethernet and/or USB connections. MMR software suite 222 is the overall management software that performs the MMR operations, such as merging one type of media with a second type. More details of MMR software suite 222 are found with reference to Figure 4.
Capture device User Interface (UI) 224 is the user interface for operating capture device 106. By use of capture device UI 224, various menus are presented to MMR user 110 for the selection of functions thereon. More specifically, the menus of capture device UI 224 allow MMR user 110 to manage tasks, such as, but not limited to, interacting with paper documents, reading data from existing documents, writing data into existing documents, viewing and interacting with the augmented reality associated with those documents, and viewing and interacting with the augmented reality associated with documents displayed on his/her MMR computer 112. The document fingerprint matching module 226 is a software module for extracting features from a text image captured via at least one capture mechanism 230 of capture device 106. The document fingerprint matching module 226 can also perform pattern matching between the captured image and a database of documents. At the most basic level, and in accordance with one embodiment, the document fingerprint matching module 226 determines the position of an image patch within a larger page image wherein that page image is selected from a large collection of documents. The document fingerprint matching module 226 includes routines or programs to receive captured data, to extract a representation of the image from the captured data, to perform patch recognition and motion analysis within documents, to perform decision combinations, and to output a list of x-y locations within pages where the input images are located. For example, the document fingerprint matching module 226 may be an algorithm that combines horizontal and vertical features that are extracted from an image of a fragment of text, in order to identify the document and the section within the document from which it was extracted. Once the features are extracted, a printed document index (not shown) , which resides, for example, on MMR computer 112 or networked media server 114 , is queried, in order to identify the symbolic document . Under the control of capture device UI 224, document fingerprint matching module 226 has access to the printed document index. The printed document index is described in more detail with reference to MMR computer 112 of Figure 3. Note that in an alternate embodiment, the document fingerprint matching module 226 could be part of the MMR computer 112 and not located within the capture device 106. In such an embodiment, the capture device 106 sends raw captured data to the MMR computer 112 for image extraction, pattern matching, and document and position recognition. In yet another embodiment, the document fingerprint matching module 226 only performs feature extraction, and the extracted features are sent to the MMR computer 112 for pattern matching and recognition.
Third-party software module 228 is representative of any third-party software module for enhancing any operation that may occur on capture device 106. Example third-party software includes security software, image sensing software, image processing software, and MMR database software.
As noted above, the capture device 106 may include any number of capture mechanisms 230, examples of which will now be described.
Video camera 232 is a digital video recording device, such as is found in standard digital cameras or some cell phones.
Still camera 234 is any standard digital camera device that is capable of capturing digital images.
Voice recorder 236 is any standard audio recording device (microphone and associated hardware) that is capable of capturing audio signals and outputting it in digital form.
Electronic highlighter 238 is an electronic highlighter that provides the ability to scan, store and transfer printed text, barcodes, and small images to a PC, laptop computer, or PDA device. Electronic highlighter 238 is, for example, the Quicklink Pen Handheld Scanner, by Wizcom Technologies, which allows information to be stored on the pen or transferred directly to a computer application via a serial port, infrared Communications, or USB adapter.
Laser 240 is a light source that produces, through stimulated emission, coherent, near-monochromatic light, as is well known. Laser 240 is, for example, a standard laser diode, which is a semiconductor device that emits coherent light when forward biased. Associated with and included in the laser 240 is a detector that measures the amount of light reflected by the image at which the laser 240 is directed.
GPS device 242 is any portable GPS receiver device that supplies position data, e.g., digital latitude and longitude data. Examples of portable GPS devices 242 are the NV-U70 Portable Satellite Navigation System, from Sony Corporation, and the Magellan brand RoadMate Series GPS devices, Meridian Series GPS devices, and eXplorist Series GPS devices, from Thales North America, Inc. GPS device 242 provides a way of determining the location of capture device 106, in real time, in part, by means of triangulation, to a plurality of geo location mechanisms 142, as is well known.
RFID reader 244 is a commercially available RFID tag reader system, such as the TI RFID system, manufactured by Texas Instruments. An RFID tag is a wireless device for identifying unique items by use of radio waves. An RFID tag is formed of a microchip that is attached to an antenna and upon which is stored a unique digital identification number, as is well known. In one particular embodiment, capture device 106 includes processor 210, display 212, keypad, 214, storage device 216, wireless communications link 218, wired communications link 220, MMR software suite 222, capture device UI 224, document fingerprint matching module 226, third-party software module 228, and at least one of the capture mechanisms 230. In doing so, capture device 106 is a full-function device. Alternatively, capture device 106 may have lesser functionality and, thus, may include a limited set of functional components. For example, MMR software suite 222 and document fingerprint matching module 226 may reside remotely at, for example, MMR computer 112 or networked media server 114 of MMR system 100b and are accessed by capture device 106 via wireless communications link 218 or wired communications link 220. MMR Computer Referring now to Figure 3, the MMR computer 112 configured in accordance with an embodiment of the present invention is shown. As can be seen, MMR computer 112 is connected to networked media server 114 that includes one or more multimedia (MM) files 336, the user printer 116 that produces printed document 118, the document scanner 127, and the capture device 106 that includes capture device UI 224 and a first instance of document fingerprint matching module 226. The communications link between these components may be a direct link or via a network. Additionally, document scanner 127 includes a second instance of document fingerprint matching module 226' . The MMR computer 112 of this example embodiment includes one or more source files 310, a first source document (SD) browser 312, a second SD browser 314, a printer driver 316, a printed document (PD) capture module 318, a document event database 320 storing a PD index 322, an event capture module 324, a document parser module 326, a multimedia (MM) clips browser/editor module 328, a printer driver for MM 330, a document-to-video paper (DVP) printing system 332, and video paper document 334. Source files 310 are representative of any source files that are an electronic representation of a document (or a portion thereof) . Example source files 310 include hypertext markup language (HTML) files, Microsoft Word files, Microsoft PowerPoint files, simple text files, portable document format (PDF) files, and the like, that are stored on the hard drive (or other suitable storage) of MMR computer 112.
The first SD browser 312 and the second SD browser 314 are either stand-alone PC applications or plug-ins for existing PC applications that provide access to the data that has been associated with source files 310. The first and second SD browser 312, 314 may be used to retrieve an original HTML file or MM clips for display on MMR computer 112.
Printer driver 316 is printer driver software that controls the communication link between applications and the page-description language or printer control language that is used by any particular printer, as is well known. In particular, whenever a document, such as printed document 118, is printed, printer driver 316 feeds data that has the correct control commands to printer 116, such as those provided by Ricoh Corporation for their printing devices. In one embodiment, the printer driver 316 is different from conventional print drivers in that it captures automatically a representation of the x-y coordinates, font, and point size of every character on every printed page. In other words, it captures information about the content of every document printed and feeds back that data to the PD capture module 318.
The PD capture module 318 is a software application that captures the printed representation of documents, so that the layout of characters and graphics on the printed pages can be retrieved. Additionally, by use of PD capture module 318, the printed representation of a document is captured automatically, in real-time, at the time of printing. More specifically, the PD capture module 318 is the software routine that captures the two-dimensional arrangement of text on the printed page and transmits this information to PD index 322. In one embodiment, the PD capture module 318 operates by trapping the Windows text layout commands of every character on the printed page. The text layout commands indicate to the operating system (OS) the x-y location of every character on the printed page, as well as font, point size, and so on. In essence, PD capture module 318 eavesdrops on the print data that is transmitted to printer 116. In the example shown, the PD capture module 318 is coupled to the output of the first SD browser 312 for capture of data. Alternatively, the functions of PD capture module 318 may be implemented directly within printer driver 316. Various configurations will be apparent in light of this disclosure.
Document event database 320 is any standard database modified to store relationships between printed documents and events, in accordance with an embodiment of the present invention. (Document event database 320 is further described below as MMR database with reference to Figure 34A. ) For example, document event database 320 stores bi-directional links from source files 310 (e.g., Word, HTML, PDF files) to events that are associated with printed document 118. Example events include the capture of multimedia clips on capture device 106 immediately after a Word document is printed, the addition of multimedia to a document with the client application of capture device 106, or annotations for multimedia clips. Additionally, other events that are associated with source files 310, which may be stored in document event database 320, include logging when a given source file 310 is opened, closed, or removed; logging when a given source file 310 is in an active application on the desktop of MMR computer 112, logging times and destinations of document "copy" and "move" operations; and logging the edit history of a given source file 310. Such events are captured by event capture module 324 and stored in document event database 320. The document event database 320 is coupled to receive the source files 310, the outputs of the event capture module 324, PD capture module 318 and scanner 127, and is also coupled to capture devices 106 to receive queries and data, and provide output.
The document event database 320 also stores a PD index 322. The PD index 322 is a software application that maps features that are extracted from images of printed documents onto their symbolic forms (e.g. , scanned image to Word) . In one embodiment, the PD capture module 318 provides to the PD index 322 the x-y location of every character on the printed page, as well as font, point size, and so on. The PD index 322 is constructed at the time that a given document is printed. However, all print data is captured and saved in the PD index 322 in a manner that can be interrogated at a later time. For example, if printed document 118 contains the word "garden" positioned physically on the page one line above the word "rose," the PD index 322 supports such a query (i.e., the word "garden" above the word "rose") . The PD index 322 contains a record of which document, which pages, and which location within those pages upon which the word "garden" appears above the word "rose." Thus, PD index 322 is organized to support a feature-based or text-based query. The contents of PD index 322, which are electronic representations of printed documents, are generated by use of PD capture module 318 during a print operation and/or by use of document fingerprint matching module 226' of document scanner 127 during a scan operation. Additional architecture and functionality of database 320 and PD index 322 will be described below with reference to Figures 34A-C, 35, and 36. The event capture module 324 is a software application that captures on MMR- computer 112 events that are associated with a given printed document 118 and/or source file 310. These events are captured during the lifecycle of a given source file 310 and saved in document event database 320. In a specific example, by use of event capture module 324, events are captured that relate to an HTML file that is active in a browser, such as the first SD browser 312, of MMR computer 112. These events might include the time that the HTML file was displayed on MMR computer 112 or the file name of other documents that are open at the same time that the HTML file was displayed or printed. This event information is useful, for example, if MMR user 110 wants to know (at a later time) what documents he/she was viewing or working on at the time that the HTML file was displayed or printed. Example events that are captured by the event capture module 324 include a document edit history; video from office meetings that occurred near the time when a given source file 310 was on the desktop (e.g. , as captured by office portal 120) ; and telephone calls that occurred when a given source file 310 was open (e.g., as captured by office portal 120) . Example functions of event capture module 324 include: 1) tracking - tracking active files and applications; 2) key stroke capturing - key stroke capture and association with the active application; 3) frame buffer capturing and indexing - each frame buffer image is indexed with the optical character recognition (OCR) result of the frame buffer data, so that a section of a printed document can be matched to the time it was displayed on the screen. Alternatively, text can be captured with a graphical display interface (GDI) shadow dll that traps text drawing commands for the PC desktop that are issued by the PC operating system. MMR user 110 may point the capture device 106 at a document and determine when it was active on the desktop of the MMR computer 112); and 4) reading history capture - data of the frame buffer capturing and indexing operation is linked with an analysis of the times at which the documents were active on the desktop of his/her MMR computer 112, in order to track how long, and which parts of a particular document, were visible to MMR user 110. In doing so, correlation may occur with other events, such as keystrokes or mouse movements, in order to infer whether MMR user 110 was reading the document. The combination of document event database 320, PD index 322, and event capture module 324 is implemented locally on MMR computer 112 or, alternatively, is implemented as a shared database. If implemented locally, less security is required, as compared with implementing in a shared fashion. The document parser module 326 is a software application that parses source files 310 that are related to respective printed documents 118 , to locate useful objects therein, such as uniform resource locators (URLs) , addresses, titles, authors, times, or phrases that represent locations, e.g., Hallidie Building. In doing so, the location of those objects in the printed versions of source files 310 is determined. The output of the document parser module 326 can then be used by the receiving device to augment the presentation of the document 118 with additional information, and improve the accuracy of pattern matching. Furthermore, the receiving device could also take an action using the locations, such as in the case of a URL, retrieving the web pages associated with the URL. The document parser module 326 is coupled to receive source files 310 and provides its output to the document fingerprint matching module 226. Although only shown as being coupled to the document fingerprint matching module 226 of the capture device, the output of document parser module 326 could be coupled to all or any number of document fingerprint matching modules 226 wherever they are located. Furthermore, the output of the document parser module 326 could also be stored in the document event database 320 for later use
The MM clips browser/editor module 328 is a software application that provides an authoring function. The MM clips browser/editor module 328 is a standalone software application or, alternatively, a plug-in running on a document browser (represented by dashed line to second SD browser 314) . The MM clips browser/editor module 328 displays multimedia files to the user and is coupled to the networked media server to receive multimedia files 336. Additionally, when MMR user 110 is authoring a document (e.g. , attaching multimedia clips to a paper document) , the MM clips browser/editor module 328 is a support tool for this function. The MM clips browser/editor module 328 is the application that shows the metadata, such as the information parsed from documents that are printed near the time when the multimedia wa's captured. The printer driver for MM 330 provides the ability to author MMR documents. For example, MMR user 110 may highlight text in a UI generated by the printer driver for MM 330 and add actions to the text that include retrieving multimedia data or executing some other process on network 128 or on MMR computer 112. The combination of printer driver for MM 330 and DVP printing system 332 provides an alternative output format that uses barcodes. This format does not necessarily require a content-based retrieval technology. The printer driver for MM 330 is a printer driver for supporting the video paper technology, i.e., video paper 334. The printer driver for MM 330 creates a paper representation that includes barcodes as a way to access the multimedia. By contrast, printer driver 316 creates a paper representation that includes MMR technology as a way to access the multimedia. The authoring technology embodied in the combination of MM clips browser/editor 328 and SD browser 314 can create the same output format as SD browser 312 thus enabling the creation of MMR documents ready for content-based retrieval. The DVP printing system 332 performs the linking operation of any data in document event database 320 that is associated with a document to its printed representation, either with explicit or implicit bar codes. Implicit bar codes refer to the pattern of text features used like a bar code.
Video paper 334 is a technology for presenting audio-visual information on a printable medium, such as paper. In video paper, bar codes are used as indices to electronic content stored or accessible in a computer. The user scans the bar code and a video clip or other multimedia content related to the text is output by the system. There exist systems for printing audio or video paper, and these systems in essence provide a paper-based interface for multimedia information.
MM files 336 of the networked media server 114 are representative of a collection of any of a variety of file types and file formats . For example, MM files 336 are text source files, web pages, audio files, video files, audio/video files, and image files (e.g., still photos).
As described in Figure IB, the document scanner 127 is used in the conversion of existing printed documents into MMR-ready documents. However, with continuing reference to Figure 3, the document scanner 127 is used to MMR-enable existing documents by applying the feature extraction operation of the document fingerprint matching module 226' to every page of a document that is scanned. Subsequently, PD index 322 is populated with the results of the scanning and feature extraction operation, and thus, an electronic representation of the scanned document is stored in the document event database 320. The information in the PD index 322 can then be used to author MMR documents. With continuing reference to Figure 3, note that the software functions of MMR computer 112 are not limited to MMR computer 112 only. Alternatively, the software functions shown in Figure 3 may be distributed in any user-defined configuration between MMR computer 112, networked media server 114, service provider server 122 and capture device 106 of MMR system 100b. For example, source files 310, SD browser 312, SD browser 314, printer driver 316, PD capture module 318, document event database 320, PD index 322, event capture module 324 , document parser module 326, MM clips browser/editor module 328, printer driver for MM 330, and DVP printing system 332, may reside fully within capture device 106, and thereby, provide enhanced functionality to capture device 106. MMR Software Suite
Figure 4 illustrates a set of software components that are included in the MMR software suite 222 in accordance with one embodiment of the present invention. It should be understood that all or some of the MMR software suite 222 may be included in the MMR computer 112, the capture device 106, the networked media server 114 and other servers. In addition, other embodiments of MMR software suite 222 could have any number of the illustrated components from one to all of them. The MMR software suite 222 of this example includes: multimedia annotation software 410 that includes a text content-based retrieval component 412, an image content-based retrieval component 414, and a steganographic modification component 416; a paper reading history log 418; an online reading history log 420; a collaborative document review component 422, a real-time notification component 424, a multimedia retrieval component 426; a desktop video reminder component 428; a web page reminder component 430, a physical history log 432; a completed form reviewer component 434; a time transportation component 436, a location awareness component 438, a PC authoring component 440; a document authoring component 442; a capture device authoring component 444; an unconscious upload component 446; a document version retrieval component 448; a PC document metadata component 450; a capture device UI component 452; and a domain-specific component 454.
The multimedia annotation software 410 in combination with the organization of document event database 320 form the basic technologies of MMR system 100b, in accordance with one particular embodiment. More specifically, multimedia annotation software 410 is for managing the multimedia annotation for paper documents. For example, MMR user 110 points capture device 106 at any section of a paper document and then uses at least one capture mechanism 230 of capture device 106 to add an annotation to that section. In a specific example, a lawyer dictates notes (create an audio file) about a section of a contract. The multimedia data (the audio file) is attached automatically to the original electronic version of the document. Subsequent printouts of the document optionally include indications of the existence of those annotations.
The text content-based retrieval component 412 is a software application that retrieves content-based information from text. For example, by use of text content-based retrieval component 412, content is retrieved from a patch of text, the original document and section within document is identified, or other information linked to that patch is identified. The text content-based retrieval component 412 may utilize OCR-based techniques. Alternatively, non-OCR-based techniques for performing the content-based retrieval from text operation include the two-dimensional arrangement of word lengths in a patch of text. One example of text content-based retrieval component 412 is an algorithm that combines horizontal and vertical features that are extracted from an image of a fragment of text, to identify the document and the section within the document from which it was extracted. The horizontal and vertical features can be used serially, in parallel, or otherwise simultaneously. Such a non-OCR-based feature set is used that provides a high-speed implementation and robustness in the presence of noise. The image content-based retrieval component 414 is a software application that retrieves content-based information from images. The image content-based retrieval component 414 performs image comparison between captured data and images in the database 320 to generate a list of possible image matches and associated levels of confidence. Additionally, each image match may have associated data or actions that are performed in response to user input. In one example, the image content-based retrieval component 414 retrieves content based on, for example, raster images (e.g., maps) by converting the image to a vector representation that can be used to query an image database for images with the same arrangement of features. Alternative embodiments use the color content of an image or the geometric arrangement of objects within an image to look up matching images in a database.
Steganographic modification component 416 is a software application that performs steganographic modifications prior to printing. In order to better enable MMR applications, digital information is added to text and images before they are printed. In an alternate embodiment, the steganographic modification component 416 generates and stores an MMR document that includes: 1) original base content such as text, audio, or video information; 2) additional content in any form such as text, audio, video, applets, hypertext links, etc. Steganographic modifications can include the embedding of a watermark in color or grayscale images, the printing of a dot pattern on the background of a document, or the subtle modification of the outline of printed characters to encode digital information.
Paper reading history log 418 is the reading history log of paper documents. Paper reading history log 418 resides, for example, in document event database 320. Paper reading history log 418 is based on a document identification-from-video technology developed by Ricoh Innovations, which is used to produce a history of the documents read by MMR user 110. Paper reading history log 418 is useful, for example, for reminding MMR user 110 of documents read and/or of any associated events.
Online reading history log 420 is the reading history log of online documents. Online reading history log 420 is based on an analysis of operating system events, and resides, for example, in document event database 320. Online reading history log 420 is a record of the online documents that were read by MMR user 110 and of which parts of the documents were read. Entries in online reading history log 420 may be printed onto any subsequent printouts in many ways, such as by providing a note at the bottom of each page or by highlighting text with different colors that are based on the amount of time spent reading each passage. Additionally, multimedia annotation software 410 may index this data in PD index 322. Optionally, online reading history log 420 may be aided by a MMR computer 112 that is instrumented with devices, such as a face detection system that monitors MMR computer 112. The collaborative document review component 422 is a software application that allows more than one reader of different versions of the same paper document to review comments applied by other readers by pointing his/her capture device 106 at any section of the document. For example, the annotations may be displayed on capture device 106 as overlays on top of a document thumbnail. The collaborative document review component 422 may be implemented with or otherwise cooperate with any type of existing collaboration software. The real-time notification component 424 is a software application that performs a real-time notification of a document being read. For example, while MMR user 110 reads a document, his/her reading trace is posted on a blog or on an online bulletin board. As a result, other people interested in the same topic may drop-in and chat about the document.
Multimedia retrieval component 426 is a software application that retrieves multimedia from an arbitrary paper document. For example, MMR user 110 may retrieve all the conversations that took place while an arbitrary paper document was present on the desk of MMR user 110 by pointing capture device 106 at the document. This assumes the existence of office portal 120 in the office of MMR user 110 (or other suitable mechanism) that captures multimedia data.
The desktop video reminder component 428 is a software application that reminds the MMR user 110 of events that occur on MMR computer 112. For example, by pointing capture device 106 at a section of a paper document, the MMR user 110 may see video clips that show changes in the desktop of MMR computer 112 that occurred while that section was visible. Additionally, the desktop video reminder component 428 may be used to retrieve other multimedia recorded by MMR computer 112, such as audio that is present in the vicinity of MMR computer 112.
The web page reminder component 430 is a software application that reminds the MMR user 110 of web pages viewed on his/her MMR computer 112. For example, by panning capture device 106 over a paper document, the MMR user 110 may see a trace of the web pages that were viewed while the corresponding section of the document was shown on the desktop of MMR computer 112. The web pages may be shown in a browser, such as SD browser 312, 314, or on display 212 of capture device 106. Alternatively, the web pages are presented as raw URLs on display 212 of capture device 106 or on the MMR computer 112.
The physical history log 432 resides, for example, in document event database 320. The physical history log 432 is the physical history log of paper documents. For example, MMR user 110 points his/her capture device 106 at a paper document, and by use of information stored in physical history log 432, other documents that were adjacent to the document of interest at some time in the past are determined. This operation is facilitated by, for example, an RFID-like tracking system. In this case, capture device 106 includes an RFID reader 244.
The completed form reviewer component 434 is a software application that retrieves previously acquired information used for completing a form. For example, MMR user 110 points his/her capture device 106 at a blank form (e.g., a medical claim form printed from a website) and is provided a history of previously entered information. Subsequently, the form is filled in automatically with this previously entered information by this completed form reviewer component 434. The time transportation component 436 is a software application that retrieves source files for past and future versions of a document, and retrieves and displays a list of events that are associated with those versions. This operation compensates for the fact that the printed document in hand may have been generated from a version of the document that was created months after the most significant external events (e.g., discussions or meetings) associated therewith.
The location awareness component 438 is a software application that manages location-aware paper documents. The management of location-aware paper documents is facilitated by, for example, an RFID-like tracking system. For example, capture device 106 captures a trace of the geographic location of MMR user 110 throughout the day and scans the RFID tags attached to documents or folders that contain documents. The RFID scanning operation is performed by an RFID reader 244 of capture device 106, to detect any RFID tags within its range. The geographic location of MMR user 110 may be tracked by the identification numbers of each cell tower within cellular infrastructure 132 or, alternatively, via a GPS device 242 of capture device 106, in combination with geo location mechanism 142. Alternatively, document identification may be accomplished with "always-on video" or a video camera 232 of capture device 106. The location data provides "geo-referenced" documents, which enables a map-based interface that shows, throughout the day, where documents are located. An application would be a lawyer who carries files on visits to remote clients. In an alternate embodiment, the document 118 includes a sensing mechanism attached thereto that can sense when the document is moved and perform some rudimentary face detection operation. The sensing function is via a set of gyroscopes or similar device that is attached to paper documents. Based on position information, the MMR system 100b indicates when to "call" the owner' s cellular phone to tell him/her that the document is moving. The cellular phone may add that document to its virtual brief case. Additionally, this is the concept of an "invisible" barcode, which is a machine-readable marking that is visible to a video camera 232 or still camera 234 of capture device 106, but that is invisible or very faint to humans . Various inks and steganography or, a printed-image watermarking technique that may be decoded on capture device 106, may be considered to determine position. The PC authoring component 440 is a software application that performs an authoring operation on a PC, such as on MMR computer 112. The PC authoring component 440 is supplied as plug-ins for existing authoring applications, such as Microsoft Word, PowerPoint, and web page authoring packages. The PC authoring component 440 allows MMR user 110 to prepare paper documents that have links to events from his/her MMR computer 112 or to events in his/her environment; allows paper documents that have links to be generated automatically, such as printed document 118 being linked automatically to the Word file from which it was generated; or allows MMR user 110 to retrieve a Word file and give it to someone else. Paper documents that have links are heretofore referred to as MMR documents. More details of MMR documents are further described with reference to Figure 5. The document authoring component 442 is a software application that performs an authoring operation for existing documents. The document authoring component 442 can be implemented, for example, either as a personal edition or as an enterprise edition. In a personal edition, MMR user 110 scans documents and adds them to an MMR document database (e.g., the document event database 320) . In an enterprise edition, a publisher (or a third party) creates MMR documents from the original electronic source (or electronic galley proofs) . This functionality may be embedded in high-end publishing packages (e.g., Adobe Reader) and linked with a backend service provided by another entity.
The capture device authoring component 444 is a software application that performs an authoring operation directly on capture device 106. Using the capture device authoring component 444, the MMR user 110 extracts key phrases from the paper documents in his/her hands and stores the key phrases along with additional content captured on-the-fly to create a temporary MMR document. Additionally, by use of capture device authoring component 444, the MMR user 110 may return to his/her MMR computer 112 and download the temporary MMR document that he/she created into an existing document application, such as PowerPoint, then edit it to a final version of an MMR document or other standard type of document for another application. In doing so, images and text are inserted automatically in the pages of the existing document, such as into the pages of a PowerPoint document .
Unconscious upload component 446 is a software application that uploads unconsciously (automatically, without user intervention) printed documents to capture device 106. Because capture device 106 is in the possession of the MMR user 110 at most times, including when the MMR user 110 is at his/her MMR computer 112, the printer driver 316 in addition to sending documents to the printer 116, may also push those same documents to a storage device 216 of capture device 106 via a wireless communications link 218 of capture device 106, in combination with Wi-Fi technology 134 or Bluetooth technology 136, or by wired connection if the capture device 106 is coupled to/docked with the MMR computer 112. In this way, the MMR user 110 never forgets to pick up a document after it is printed because it is automatically uploaded to the capture device 106.
The document version retrieval component 448 is a software application that retrieves past and future versions of a given source file 310. For example, the MMR user 110 points capture device 106 at a printed document and then the document version retrieval component 448 locates the current source file 310 (e.g., a Word file) and other past and future versions of source file 310. In one particular embodiment, this operation uses Windows file tracking software that keeps track of the locations to which source files 310 are copied and moved. Other such file tracking software can be used here as well. For example, Google Desktop Search or the Microsoft Windows Search Companion can find the current version of a file with queries composed from words chosen from source file 310.
The PC document metadata component 450 is a software application that retrieves metadata of a document. For example, the MMR user 110 points capture device 106 at a printed document, and the PC document metadata component 450 determines who printed the document, when the document was printed, where the document was printed, and the file path for a given source file 310 at the time of printing. The capture device UI component 452 is a software application that manages the operation of UI of capture device 106, which allows the MMR user 110 to interact with paper documents . A combination of capture device UI component 452 and capture device UI 224 allow the MMR user 110 to read data from existing documents and write data into existing documents, view and interact with the augmented reality associated with those documents (i.e., via capture device 106, the MMR user 110 is able to view what happened when the document was created or while it was edited) , and view and interact with the augmented reality that is associated with documents displayed on his/her capture device 106.
Domain-specific component 454 is a software application that manages domain-specific functions. For example, in a music application, domain-specific component 454 is a software application that matches the music that is detected via, for example, a voice recorder 236 of capture device 106, to a title, an artist, or a composer. In this way, items of interest, such as sheet music or music CDs related to the detected music, may be presented to the MMR user 110. Similarly, the domain-specific component 454 is adapted to operate in a similar manner for video content, video games, and any entertainment information. The device specific component 454 may also be adapted for electronic versions of any mass media content.
With continuing reference to Figures 3 and 4, note that the software components of MMR software suite 222 may reside fully or in part on one or more MMR computers 112 , networked servers 114, service provider servers 122, and capture devices 106 of MMR system 100b. In other words, the operations of MMR system 100b, such as any performed by MMR software suite 222 , may be distributed in any user-defined configuration between MMR computer 112, networked server 11~4, service provider server 122, and capture device 106 (or other such processing environments included in the system 100b) .
In will be apparent in light of this disclosure that the base functionality of the MMR system 100a/100b can be performed with certain combinations of software components of the MMR software suite 222. For example, the base functionality of one embodiment of the MMR system 100a/100b includes:
• creating or adding to an MMR document that includes a first media portion and a second media portion;
• use of the first media portion (e.g., a paper document) of the MMR document to access information in the second media portion;
• use of the first media portion (e.g., a paper document) of the MMR document to trigger or initiate a process in the electronic domain;
• use of the first media portion (e.g. , a paper document) of the MMR document to create or add to the second media portion;
• use of the second media portion of the MMR document to create or add to the first media portion; • use of the second media portion of the MMR document to trigger or initiate a process in the electronic domain or related to the first media portion. MMR Document
Figure 5 illustrates a diagram of an MMR document 500 in accordance with one embodiment of the present invention. More specifically, Figure 5 shows an MMR document 500 including a representation 502 of a portion of the printed document 118, an action or second media 504, an index or hotspot 506, and an electronic representation 508 of the entire document 118. While the MMR document 500 typically is stored at the document event database 320, it could also be stored in the capture device or any other devices coupled to the network 128. In one embodiment, multiple MMR documents may correspond to a printed document. In another embodiment, the structure shown in Figure 5 is replicated to create multiple hotspots 506 in a single printed document. In one particular embodiment, the MMR document 500 includes the representation 502 and hotspot 506 with page and location within a page; the second media 504 and the electronic representation 508 are optional and delineated as such by dashed lines. Note that the second media 504 and the electronic representation 508 could be added later after the MMR document has been created, if so desired. This basic embodiment can be used to locate a document or particular location in a document that correspond to the representation . The representation 502 of a portion of the printed document 118 can be in any form (images, vectors, pixels, text, codes, etc.) usable for pattern matching and that identifies at least one location in the document. It is preferable that the representation 502 uniquely identify a location in the printed document. In one embodiment, the representation 502 is a text fingerprint as shown in Figure 5. The text fingerprint 502 is captured automatically via PD capture module 318 and stored in PD index 322 during a print operation. Alternatively, the text fingerprint 502 is captured automatically via document fingerprint matching module 226' of document scanner 127 and stored in PD index 322 during a scan operation. The representation 502 could alternatively be the entire document, a patch of text, a single word if it is a unique instance in the document, a section of an image, a unique attribute or any other representation of a matchable portion of a document.
The action or second media 504 is preferably a digital file or data structure of any type. The second media 504 in the most basic embodiment may be text to be presented or one or more commands to be executed. The second media type 504 more typically is a text file, audio file, or video file related to the portion of the document identified by the representation 502. The second media type 504 could be a data structure or file referencing or including multiple different media types, and multiple files of the same type. For example, the second media 504 can be text, a command, an image, a PDF file, a video file, an audio file, an application file (e.g. spreadsheet or word processing document) , etc.
The index or hotspot 506 is a link between the representation 502 and the action or second media 504. The hotspot 506 associates the representation 502 and the second media 504. In one embodiment, the index or hotspot 506 includes position information such as x and y coordinates within the document . The hotspot 506 maybe a point, an area or even the entire document. In one embodiment, the hotspot is a data structure with a pointer to the representation 502, a pointer to the second media 504, and a location within the document. It should be understood that the MMR document 500 could have multiple hotspots 506, and in such a case the data structure creates links between multiple representations, multiple second media files, and multiple locations within the printed document 118.
In an alternate embodiment, the MMR document 500 includes an electronic representation 508 of the entire document 118. This electronic representation can be used in determining position of the hotspot 506 and also by the user interface for displaying the document on capture device 106 or the MMR computer 112.
Example use of the MMR document 500 is as follows. By analyzing text fingerprint or representation 502, a captured text fragment is identified via document fingerprint matching module 226 of capture device 106. For example, MMR user 110 points a video camera 232 or still camera 234 of his/her capture device 106 at printed document 118 and captures an image. Subsequently, document fingerprint matching module 226 performs its analysis upon the captured image, to determine whether an associated entry exists within the PD index 322. If a match is found, the existence of a hot spot 506 is highlighted to MMR user 110 on the display 212 of his/her capture device 106. For example, a word or phrase is highlighted, as shown in Figure 5. Each hot spot 506 within printed document 118 serves as a link to other user-defined or predetermined data, such as one of MM files 336 that reside upon networked media server 114. Access to text fingerprints or representations 502 that are stored in PD index 322 allows electronic data to be added to any MMR document 500 or any hotspot 506 within a document. As described with reference to Figure 4, a paper document that includes at least one hot spot 506 (e.g., link) is referred to as an MMR document 500.
With continuing reference to Figures IB, 2A through 2D, 3, 4, and 5, example operation of MMR system 100b is as follows . MMR user 110 or any other entity, such as a publishing company, opens a given source file 310 and initiates a printing operation to produce a paper document, such as printed document 118. During the printing operation, certain actions are performed automatically, such as: (1) capturing automatically the printed format, via PD capture module 318, at the time of printing and transferring it to capture device 106. The electronic representation 508 of a document is captured automatically at the time of printing, by use of PD capture module 318 at the output of, for example, SD browser 312. For example, MMR user 110 prints content from SD browser 312 and the content is filtered through PD capture module 318. As previously discussed, the two-dimensional arrangement of text on a page can be determined when the document is laid out for printing; (2) capturing automatically, via PD capture module 318, the given source file 310 at the time of printing; and (3) parsing, via document parser module 326, the printed format and/or source file 310, in order to locate "named entities" or other interesting information that may populate a multimedia annotation interface on capture device 106. The named entities are, for example, "anchors" for adding multimedia later, i.e., automatically generated hot spots 506. Document parser module 326 receives as input source files 310 that are related to a given printed document 118. Document parser module 326 is the application that identifies representations 502 for use with hot spots 506, such as titles, authors, times, or locations, in a paper document 118 and, thus, prompts information to be received on capture device 106; (4) indexing automatically the printed format and/or source file 310 for content-based retrieval, i.e., building PD index 322; (5) making entries in document event database 320 for documents and events associated with source file 310, e.g., edit history and current location; and (6) performing an interactive dialog within printer driver 316, which allows MMR user 110 to add hot spots 506 to documents before they are printed and, thus, an MMR document 500 is formed. The associated data is stored on MMR computer 112 or uploaded to networked media server 114. Exemplary Alternate Embodiments
The MMR system 100 (100a or 100b) is not limited to the configurations shown in Figures 1A-1B, 2A-2D, and 3-5. The MMR Software may be distributed in whole or in part between the capture device 106 and the MMR computer 112, and significantly fewer than all the modules described above with reference to Figures 3 and 4 are required. Multiple configurations are possible including the following:
A first alternate embodiment of the MMR system 100 includes the capture device 106 and capture device software. The capture device software is the capture device UI 224 and the document fingerprint matching module 226 (e.g., shown in Figure 3) . The capture device software is executed on capture device 106, or alternatively, on an external server, such as networked media server 114 or service provider server 122, that is accessible to capture device 106. In this embodiment, a networked service is available that supplies the data that is linked to the publications. A hierarchical recognition scheme may be used, in which a publication is first identified and then the page and section within the publication are identified. A second alternate embodiment of the MMR system 100 includes capture device 106, capture device software and document use software. The second alternate embodiment includes software, such as is shown and described with reference to Figure 4, that captures and indexes printed documents and links basic document events, such as the edit history of a document. This allows MMR user 110 to point his/her capture device 106 at any printed document and determine the name and location of the source file 310 that generated the document, as well as determine the time and place of printing. A third alternate embodiment of the MMR system 100 includes capture device 106, capture device software, document use software, and event capture module 324. The event capture module 324 is added to MMR computer 112 that captures events that are associated with documents, such as the times when they were visible on the desktop of MMR computer 112 (determined by monitoring the GDI character generator) , URLs that were accessed while the documents were open, or characters typed on the keyboard while the documents were open.
A fourth alternate embodiment of the MMR system 100 includes capture device 106, capture device software, and the printer 116. In this fourth alternate embodiment the printer 116 is equipped with a Bluetooth transceiver or similar communication link that communicates with capture device 106 of any MMR user 110 that is in close proximity. Whenever any MMR user 110 picks up a document from the printer 116, the printer 116 pushes the MMR data (document layout and multimedia clips) to that user's capture device 106. User printer 116 includes a keypad, by which a user logs in and enters a code, in order to obtain the multimedia data that is associated with a specific document. The document may include a printed representation of a code in its footer, which may be inserted by printer driver 316.
A fifth alternate embodiment of the MMR system 100 includes capture device 106, capture device software, and office portal 120. The office portal device is preferably a personalized version of office portal 120. The office portal 120 captures events in the office, such as conversations, conference/telephone calls, and meetings. The office portal 120 identifies and tracks specific paper documents on the physical desktop. The office portal 120 additionally executes the document identification software (i.e., document fingerprint matching module 226 and hosts document event database 320) . This fifth alternate embodiment serves to off-load the computing workload from MMR computer 112 and provides a convenient way to package MMR system 100b as a consumer device (e.g., MMR system 100b is sold as a hardware and software product that is executing on a Mac Mini computer, by Apple Computer, Inc.).
A sixth alternate embodiment of the MMR system 100 includes capture device 106, capture device software, and the networked media server 114. In this embodiment, the multimedia data is resident on the networked media server 114, such as the Comcast Video-on-Demand server. When MMR user 110 scans a patch of document text by use of his/her capture device 106, the resultant lookup command is transmitted either to the set-top box 126 that is associated with cable TV of MMR user 110 (wirelessly, over the Internet, or by calling set-top box 126 on the phone) or to the Comcast server. In both cases, the multimedia is streamed from the Comcast server to set-top box 126. The system 100 knows where to send the data, because MMR user 110 registered previously his/her phone. Thus, the capture device 106 can be used for access and control of the set-top box 126.
A seventh alternate embodiment of the MMR system 100 includes capture device 106, capture device software, the networked media server 114 and a location service. In this embodiment, the location-aware service discriminates between multiple destinations for the output from the Comcast system (or other suitable communication system) . This function is performed either by discriminating automatically between cellular phone tower IDs or by a keypad interface that lets MMR user 110 choose the location where the data is to be displayed. Thus, the user can access programming and other cable TV features provided by their cable operator while visiting another location so long as that other location has cable access.
Document Fingerprint Matching ("Image-Based Patch Recognition") As previously described, document fingerprint matching involves uniquely identifying a portion, or "patch", of an MMR document. Referring to Figure 6, a document fingerprint matching module/system 610 receives a captured image 612. The document fingerprint matching system 610 then queries a collection of pages in a document database 3400 (further described below with reference to, for example, Figure 34A) and returns a list of the pages and documents that contain them within which the captured image 612 is contained. Each result is an x-y location where the captured input image 612 occurs. Those skilled in the art will note that the database 3400 can be external to the document fingerprint matching module 610 (e.g. , as shown in Figure 6) , but can also be internal to the document fingerprint matching module 610 (e.g., as shown in Figures 7, 11, 12, 14, 20, 24, 26, 28, and 30-32, where the document fingerprint matching module 610 includes database 3400) .
Figure 7 shows a block diagram of a document fingerprint matching system 610 in accordance with an embodiment of the present invention. A capture device 106 captures an image. The captured image is sent to a quality assessment module 712, which effectively makes a preliminary judgment about the content of the captured image based on the needs and capabilities of downstream processing. For example, if the captured image is of such quality that it cannot be processed downstream in the document fingerprint matching system 610, the quality assessment module 712 causes the capture device 106 to recapture the image at a higher resolution. Further, the quality assessment module 712 may detect many other relevant characteristics of the captured image such as, for example, the sharpness of the text contained in the captured image, which is an indication of whether the captured image is "in focus." Further, the quality assessment module 712 may determine whether the captured image contains something that could be part of a document. For example, an image patch that contains a non-document image (e.g., a desk, an outdoor scene) indicates that the user is transitioning the view of the capture device 106 to a new document.
Further, in one or more embodiments, the quality assessment module 712 may perform text/non-text discrimination so as to pass through only images that are likely to contain recognizable text. Figure 8 shows a flow process for text/non-text discrimination in accordance with one or more embodiments. A number of columns of pixels are extracted from an input image patch at step 810. Typically, an input image is gray-scale, and each value in the column is an integer from zero to 255 (for 8 bit pixels) . At step 812, the local peaks in each column are detected. This can be done with the commonly understood "sliding window" method in which a window of fixed length (e.g., N pixels) is slid over the column, M pixels at a time, where M < N. At each step, the presence of a peak is determined by looking for a significant difference in gray level values (e.g., greater than 40). If a peak is located at one position of the window, the detection of other peaks is suppressed whenever the sliding window overlaps this position. The gaps between successive peaks may also be detected at step 812. Step 812 is applied to a number C of columns in the image patch, and the gap values are accumulated in a histogram at step 814.
The gap histogram is compared to other histograms derived from training data with known classifications (at step 816) stored in database 818, and a decision about the category of the patch (either text or non-text) is output together with a measure of the confidence in that decision. The histogram classification at step 816 takes into account the typical appearance of a histogram derived from an image of text and that it contains two tight peaks, one centered on the distance between lines with possibly one or two other much smaller peaks at integer multiples higher in the histogram away from those peaks. The classification may determine the shape of the histogram with a measure of statistical variance, or it may compare the histogram one-by-one to stored prototypes with a distance measure, such as, for example, a Hamming or Euclidean distance. Now referring also to Figure 9, it shows an example of text/non-text discrimination. An input image 910 is processed to sample a number of columns, a subset of which is indicated with dotted lines. The gray level histogram for a typical column 912 is shown in 914. Y values are gray levels in 910 and the X values are rows in 910. The gaps that are detected between peaks in the histogram are shown in 916. The histogram of gap values from all sampled columns is shown in 918. This example illustrates the shape of a histogram derived from a patch that contains text. A flow process for estimating the point size of text in an image patch is shown in Figure 10. This flow process takes advantage of the fact that the blur in an image is inversely proportional to the capture device's distance from the page. By estimating the amount of blur, the distance may be estimated, and that distance may be used to scale the size of objects in the image to known "normalized" heights. This behavior may be used to estimate the point size of text in a new image.
In a training phase 1010, an image of a patch of text (referred to as a "calibration" image) in a known font and point size is obtained with an image capture device at a known distance at step 1012. The height of text characters in that image as expressed in a number of pixels is measured at step 1014. This may be done, for example, manually with an image annotation tool such as Microsoft Photo Editor. The blur in the calibration image is estimated at step 1016. This may be done, for example, with known measurements of the spectral cutoff of the' two-dimensional fast Fourier transform. This may also be expressed in units as a number of pixels 1020.
When presented a "new" image at step 1024, as in an MMR recognition system at run-time, the image is processed at step 1026 to locate text with commonly understood method of line segmentation and character segmentation that produces bounding boxes around each character. The heights of those boxes may be expressed in pixels. The blur of the new image is estimated at step 1028 in a similar manner as at step 1016. These measures are combined at step 1030 to generate a first estimate 1032 of the point size of each character (or equivalently, each line) . This may be done by calculating the following equation: (calibration image blur size / new image blur size) * (new image text height/calibration image text height) * (calibration image font size in points) . This scales the point size of the text in the calibration image to produce an estimated point size of the text in the input image patch. The same scaling function may be applied to the height of every character's bounding box. This produces a decision for every character in a patch. For example, if the patch contains 50 characters, this procedure would produce 50 votes for the point size of the font in the patch. A single estimate for the point size may then be derived with the median of the votes.
Further, more specifically referring back to Figure 7, in one or more embodiments, feedback of the quality assessment module 712 to the capture device 106 may be directed to a user interface (UI) of the capture device 106. For example, the feedback may include an indication in the form of a sound or vibration that indicates that the captured image contains something that looks like text but is blurry and that the user should steady the capture device 106. The feedback may also include commands that change parameters of the optics of the capture device 106 to improve the quality of the captured image. For example, the focus, F-stop, and/or exposure time may be adjusted so at to improve the quality of the captured image.
Further, the feedback of the quality assessment module 712 to the capture device 106 may be specialized by the needs of the particular feature extraction algorithm being used. As further described below, feature extraction converts an image into a symbolic representation. In a recognition system that computes the length of words, it may desirable for the optics of the capture device 106 to blur the captured image. Those skilled in the art will note that such adjustment may produce an image that, although perhaps not recognizable by a human or an optical character recognition (OCR) process, is well suited for the feature extraction technique. The quality assessment module 712 may implement this by feeding back instructions to the capture device 106 causing the capture device 106 to defocus the lens and thereby produce blurry images. The feedback process is modified by a control structure 714. In general, the control structure 714 receives data and symbolic information from the other components in the document fingerprint matching system 610. The control structure 714 decides the order of execution of the various steps in the document fingerprint matching system 610 and can optimize the computational load. The control structure 714 identifies the x-y position of received image patches. More particularly, the control structure 714 receives information about the needs of the feature extraction process, the results of the quality assessment module 712, and the capture device 106 parameters, and can change them as appropriate. This can be done dynamically on a frame-by-frame basis. In a system configuration that uses multiple feature extraction methodologies, one might require blurry images of large patches of text and another might need high resolution sharply focused images of paper grain. In such a case, the control structure 714 may send commands to the quality assessment module 712 that instruct it to produce the appropriate image quality when it has text in view. The quality assessment module 712 would interact with the capture device 106 to produce the correct images (e. g. , N blurry images of a large patch followed by M images of sharply focused paper grain (high resolution) ) . The control structure 714 would track the progress of those images through the processing pipeline to ensure that the corresponding feature extraction and classification is applied. An image processing module 716 modifies the quality of the input images based on the needs of the recognition system. Examples of types of image modification include sharpening, deskewing, and binarization. Such algorithms include many tunable parameters such as mask sizes, expected rotations, and thresholds. As shown in Figure 7, the document fingerprint matching system 610 uses feedback from feature extraction and classification modules 718, 720 (described below) to dynamically modify the parameters of the image processing module 716. This works because the user will typically point their capture device 106 at the same location in a document for several seconds continuously. Given that, for example, the capture device 106 processes 30 frames per second, the results of processing the first few frames in any sequence can affect how the frames captured later are processed.
A feature extraction module 718 converts a captured image into a symbolic representation. In one example, the feature extraction module 718 locates words and computes their bounding boxes. In another example, the feature extraction module 718 locates connected components and calculates descriptors for their shape. Further, in one or more embodiments, the document fingerprint matching system 610 shares metadata about the results of feature extraction with the control structure 714 and uses that metadata to adjust the parameters of other system components. Those skilled in the art will note that this may significantly reduce computational requirements and improve accuracy by inhibiting the recognition of poor quality data. For example, a feature extraction module 718 that identifies word bounding boxes could tell the control structure 714 the number of lines and "words" it found. If the number of words is too high (indicating, for example, that the input image is fragmented) , the control structure 714 could instruct the quality assessment module 712 to produce blurrier images. The quality assessment module 712 would then send the appropriate signal to the capture device 106. Alternatively, the control structure 714 could instruct the image processing module 716 to apply a smoothing filter.
A classification module 720 converts a feature description from the feature extraction module 718 into an identification of one or more pages within a document and the x,y positions within those pages where an input image patch occurs. The identification is made dependent on feedback from a database 3400 as described in turn. Further, in one or more embodiments, a confidence value may be associated with each decision. The document fingerprint matching system 610 may use such decisions to determine parameters of the other components in the system. For example, the control structure 714 may determine that if the confidences of the top two decisions are close to one another, the parameters of the image processing algorithms should be changed. This could result in increasing the range of sizes for a median filter and the carry-through of its results downstream to the rest of the components.
Further, as shown in Figure 7, there may be feedback between the classification module 720 and a database 3400. Further, those skilled in the art will recall that database 3400 can be external to the module 610 as shown in Figure 6. A decision about the identity of a patch can be used to query the database
3400 for other patches that have a similar appearance . This would compare the perfect image data of the patch stored in the database 3400 to other images in the database 3400 rather than comparing the input image patch to the database 3400. This may provide an additional level of confirmation for the classification module' s
720 decision and may allow some preprocessing of matching data.
The database comparison could also be done on the symbolic representation for the patch rather than only the image data. For example, the best decision might indicate the image patch contains a 12-point Arial font double-spaced. The database comparison could locate patches in other documents with a similar font, spacing, and word layout using only textual metadata rather than image comparisons.
The database 3400 may support several types of content-based queries. The classification module 720 can pass the database 3400 a feature arrangement and receive a list of documents and x-y locations where that arrangement occurs. For example, features might be trigrams (described below) of word lengths either horizontally or vertically. The database 3400 could be organized to return a list of results in response to either type of query. The classification module 720 or the control structure 714 could combine those rankings to generate a single sorted list of decisions. Further, there may be feedback between the database 3400, the classification module 720, and the control structure 714. In addition to storing information sufficient to identify a location from a feature vector, the database 3400 may store related information including a pristine image of the document as well as a symbolic representation for its graphical components. This allows the control structure 714 to modify the behavior of other system components on-the-fly. For example, if there are two plausible decisions for a given image patch, the database 3400 could indicate that they could be disambiguated by zooming out and inspecting the area to the right for the presence of an image. The control structure 714 could send the appropriate message to the capture device 106 instructing it to zoom out. The feature extraction module 718 and the classification module 720 could inspect the right side of the image for an image printed on the document .
Further, it is noted that the database 3400 stores detailed information about the data surrounding an image patch, given that the patch is correctly located in a document. This may be used to trigger further hardware and software image analysis steps that are not anticipated in the prior art. That detailed information is provided in one case by a print capture system that saves a detailed symbolic description of a document. In one or more other embodiments, similar information may be obtained by scanning a document. Still referring to Figure 7, a position tracking module 724 receives information about the identity of an image patch from the control structure 714. The position tracking module 724 uses that to retrieve a copy of the entire document page or a data structure describing the document from the database 3400. The initial position is an anchor for the beginning of the position tracking process. The position tracking module 724 receives image data from the capture device 106 when the quality assessment module 712 decides the captured image is suitable for tracking. The position tracking module 724 also has information about the time that has elapsed since the last frame was successfully recognized. The position tracking module 724 applies an optical flow technique which allows it to estimate the distance over the document the capture device 106 has been moved between successive frames . Given the sampling rate of the capture device 106, its target can be estimated even though data it sees may not be recognizable. The estimated position of the capture device 106 may be confirmed by comparison of its image data with the corresponding image data derived from the database document. A simple example computes a cross correlation of the captured image with the expected image in the database 3400.
Thus, the position tracking module 724 provides for the interactive use of database images to guide the progress of the position tracking algorithm. This allows for the attachment of electronic interactions to non-text objects such as graphics and images. Further, in one or more other embodiments, such attachment may be implemented without the image comparison/confirmation step described above. In other words, by estimating the instant motion of the capture device 106 over the page, the electronic link that should be in view independent of the captured image may be estimated.
Figure 11 shows a document fingerprint matching technique in accordance with an embodiment of the present invention. The "feed-forward" technique shown in Figure 11 processes each patch independently. It extracts features from an image patch that are used to locate one or more pages and the x-y locations on those pages where the patch occurs. For example, in one or more embodiments, feature extraction for document fingerprint matching may depend on the horizontal and vertical grouping of features (e.g., words, characters, blocks) of a captured image. These groups of extracted features may then be used to look up the documents (and the patches within those documents) that contain the extracted features. OCR functionality may be used to identify horizontal word pairs in a captured image. Each identified horizontal word pair is then used to form a search query to database 3400 for determining all the documents that contain the identified horizontal word pair and the x-y locations of the word pair in those documents. For example, for the horizontal word pair "the, cat", the database 3400 may return (15, x, y) , (20, x, y) , indicating that the horizontal word pair "the, cat" occurs in document 15 and 20 at the indicated x-y locations. Similarly, for each vertically adjacent word pair, the database 3400 is queried for all documents containing instances of the word pair and the x-y locations of the word pair in those documents. For example, for the vertically adjacent word pair "in, hat", the database 3400 may return (15, x, y) , (7, x, y) , indicating that the vertically adjacent word pair "in, hat" occurs in documents 15 and 7 at the indicated x-y locations. Then, using the document and location information returned by the database 3400, a determination can be made as to which document the most location overlap occurs between the various horizontal word pairs and vertically adjacent word pairs extracted from the captured image. This may result in identifying the document which contains the captured image, in response to which presence of a hot spot and linked media may be determined.
Figure 12 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "interactive image analysis" technique shown in Figure 12 involves the interaction between image processing and feature extraction that may occur before an image patch is recognized. For example, the image processing module 716 may first estimate the blur in an input image. Then, the feature extraction module 718 calculates the distance from the page and point size of the image text. Then, the image processing module 716 may perform a template matching step on the image using characteristics of fonts of that point size. Subsequently, the feature extraction module 718 may then extract character or word features from the result. Further, those skilled in the art will recognize that the fonts, point sizes, and features may be constrained by the fonts in the database 3400 documents.
An example of interactive image analysis as described above with reference to Figure 12 is shown in Figure 13. An input image patch is processed at step 1310 to estimate the font and point size of 'text in the image patch as well as its distance from the camera. Those skilled in the art will note that font estimation (i.e., identification of candidates for the font of the text in the patch) may be done with known techniques. Point size and distance estimation may be performed, for example, using the flow process described with reference to Figure 10. Further, other techniques may be used such as known methods of distance from focus that could be readily adapted to the capture device.
Still referring to Figure 13, a line segmentation algorithm is applied at step 1312 that constructs a bounding box around the lines of text in the patch. The height of each line image is normalized to a fixed size at step 1314 using known techniques such as proportional scaling. The identity for the font detected in the image as well as its point size are passed 1324 to a collection of font prototypes 1322, where they are used to retrieve image prototypes for the characters in each named font. The font database 1322 may be constructed from the font collection on a user's system that is used by the operating system and other software applications to print documents (e.g., .TrueType, OpenType, or raster fonts in Microsoft Windows) . In one or more other embodiments, the font collection may be generated from pristine images of documents in database 3400. The database 3400 xml files provide x-y bounding box coordinates that may be used to extract prototype images of characters from the pristine images. The xml file identifies the name of the font and the point size of the character exactly. The character prototypes in the selected fonts are size normalized at step 1320 based on a function of the parameters that were used at step 1314. Image classification at step 1316 may compare the size normalized characters outputted at step 1320 to the output at step 1314 to produce a decision at each x-y location in the image patch. Known methods of image template matching may be used to produce output such as (ci, xi, yi, wi, hi) , where ci is identity of a character, (xi yi) is the upper left corner of its bounding box, and hi, wi is its width and height, for every character i, i=l...n detected in the image patch. At step 1318, the geometric relation-constrained database lookup can be performed as described above, but may be specialized in a case for pairs of characters instead of pairs of words. In such cases: "a-b" may indicate that the characters a and b are horizontally adjacent; "a+b" may indicate that they are vertically adjacent; "a/b" may indicate that a is southwest of b; and "a\b" may indicate a is southeast of b. The geometric relations may be derived from the xi yi values of each pair of characters. The MMR database 3400 may be organized so that it returns a list of document pages that contain character pairs instead of word pairs. The output at step 1326 is a list of candidates that match the input image expressed as n-tuples ranked by score (documenti, pagei, xi, yi, actioni, scorei) .
Figure 14 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "generate and test" technique shown in Figure 14 processes each patch independently. It extracts features from an image patch that are used to locate a number of page images that could contain the given image patch. Further, in one or more embodiments, an additional extraction-classification step may be performed to rank pages by the likelihood that they contain the image patch.
Still referring to the "generate and test" technique described above with reference to Figure 14, features of a captured image may be extracted and the document patches in the database 3400 that contain the most number of these extracted features may be identified. The first X document patches ("candidates") with the most matching features are then further processed. In this processing, the relative locations of features in the matching document patch candidate are compared with the relative locations of features in the query image. A score is computed based on this comparison. Then, the highest score corresponding to the best matching document patch P is identified. If the highest score is larger than an adaptive threshold, then document patch P is found as matching to the query image. The threshold is adaptive to many parameters, including, for example, the number of features extracted. In the database 3400, it is known where the document patch P comes from, and thus, the query image is determined as coming from the same location.
Figure 15 shows an example of a word bounding box detection algorithm. An input image patch 1510 is shown after image processing that corrects for rotation. Commonly known as a skew correction algorithm, this class of technique rotates a text image so that it aligns with the horizontal axis. The next step in the bounding box detection algorithm is the computation of the horizontal projection profile 1512. A threshold for line detection is chosen 1516 by known adaptive thresholding or sliding window algorithms in such a way that the areas "above threshold" correspond to lines of text. The areas within each line are extracted and processed in a similar fashion 1514 and 1518 to locate areas above threshold that are indicative of words within lines. An example of the bounding boxes detected in one line of text is shown in 1520.
Various features may be extracted for comparison with document patch candidates. For example, Scale Invariant Feature Transform (SIFT) features, corner features, salient points, ascenders, and descenders, word boundaries, and spaces may be extracted for matching. One of the features that can be reliably extracted from document images is word boundaries. Once word boundaries are extracted, they may be formed into groups as shown in Figure 16. In Figure 16, for example, vertical groups are formed in such a way that a word boundary has both above and below overlapping word boundaries, and the total number of overlapping word boundaries is at least 3 (noting that the minimum number of overlapping word boundaries may differ in one or more other embodiments) . For example, a first feature point (second word box in the second line, length of 6) has two word boundaries above
(lengths of 5 and 7) and one word boundary below (length of 5) .
A second feature point (fourth word box in the third line, length of 5) has two word boundaries above (lengths of 4 and 5) and two word boundaries below (lengths of 8 and 7) . Thus, as shown in Figure 16, the indicated features are represented with the length of the middle word boundary, followed by the lengths of the above word boundaries and then by lengths of the below word boundaries . Further, it is noted that the lengths of the word boxes may be based on any metric. Thus, it is possible to have alternate lengths for some word boxes. In such cases, features may be extracted containing all or some of their alternates.
Further, in one or more embodiments, features may be extracted such that spaces are represented with Os and word regions are represented with Is. An example is shown in Figure 17. The block representations on the right side correspond to word/space regions of the document patch on the left side.
Extracted features may be compared with various distance measures, including, for example, norms and Hamming distance. Alternatively, in one or more embodiments, hash tables may be used to identify document patches that have the same features as the query image. Once such patches are identified, angles from each feature point to other feature points may be computed as shown in Figure 18. Alternatively, angles between groups of feature points may be calculated. 1802 shows the angles 1803, 1804, and 1805 calculated from a triple of feature points. The computed angles may then be compared to the angles from each feature point to other feature points in the query image. If any angles for matching points are similar, then a similarity score may be increased. Alternatively, if groups of angles are used, and if groups of angles between similar groups of feature points in two images are numerically similar, then a similarity score is increased. Once the scores are computed between the query image to each retrieved document patch, the document patch resulting in the highest score is selected and compared to an adaptive threshold to determine whether the match meets some predetermined criteria. If the criteria is met, then a matching document path is indicated as being found.
Further, in one or more embodiments, extracted features may be based on the length of words . Each word is divided into estimated letters based on the word height and width. As the word line above and below a given word are scanned, a binary value is assigned to each of the estimated letters according the space information in the lines above and below. The binary code is then represented with an integer number. For example, referring to Figure 19, it shows an arrangement of word boxes each representing a word detected in a captured image. The word 1910 is divided into estimated letters . This feature is described with (i) the length of the word 1910, (ii) the text arrangement of the line above the word 1910, and (iii) the text arrangement of the line below the word 1910. The length of the word 1910 is measured in numbers of estimated letters. The text arrangement information is extracted from binary coding of the space information above or below the current estimated letter. In word 1910, only the last estimated letter is above a space; the second and third estimated letters are below a space. Accordingly, the feature of word 1910 is coded as (6, 100111, 111110) , where 0 means space, and 1 means no space. Rewritten in integer form, word 1910 is coded (6, 39, 62) . Figure 20 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "multiple classifiers" technique shown in Figure 20 leverages the complementary information of different feature descriptions by classifying them independently and combining the results. An example of this paradigm applied to text patch matching is extracting the lengths of horizontally and vertically adjacent pairs of words and computing a ranking of the patches in the database separately. More particularly, for example, in one or more embodiments, the locations of features are determined by "classifiers" attendant with the classification module 720. A captured image is fingerprinted using a combination of classifiers for determining horizontal and vertical features of the captured image. This is performed in view of the observation that an image of text contains two independent sources of information as to its identity - in addition to the horizontal sequence of words, the vertical layout of the words can also be used to identity the document from which the image was extracted. For example, as shown in Figure 21, a captured image 2110 is classified by a horizontal classifier 2112 and a vertical classifier 2114. Each of the classifiers 2112, 2114, in addition to inputting the captured image, takes information from a database 3400 to in turn output a ranking of those document pages to which the respective classifications may apply. In other words, the multi-classifier technique shown in Figure 21 independently classifies a captured image using horizontal and vertical features . The ranked lists of document pages are then combined according to a combination algorithm 2118 (examples further described below) , which in turn outputs a ranked list of document pages, the list being based on both the horizontal and vertical features of the captured image 2110. Particularly, in one or more embodiments, the separate rankings from the horizontal classifier 2112 and the vertical classifier 2114 are combined using information about how the detected features co-occur in the database 3400.
Now also referring to Figure 22, it shows an example of how vertical layout is integrated with horizontal layout for feature extraction. In (a) , a captured image 2200 with word divisions is shown. From the captured image 2200, horizontal and vertical "n-grams" are determined. An "n-gram" is a sequence of n numbers each describing a quantity of some characteristic. For example, a horizontal trigram specifies the number of characters in each word of a horizontal sequence of three words . For example, for the captured image 2200, (b) shows horizontal trigrams : 5-8-7
(for the number of characters in each of the horizontally sequenced words "upper", "division", and "courses" in the first line of the captured image 2200) ; 7-3-5 (for the number of characters in each of the horizontally sequenced words "Project", "has", and "begun" in the second line of the captured image 2200) ; 3-5-3 (for the number of characters in each of the horizontally sequenced words "has", "begun", and "The" in the second line of the captured image 2200) ; 3-3-6 (for the number of characters in each of the horizontally sequenced words "461", "and", and "permit" in the third line of the captured image 2200) ; and 3-6-8 (for the number of characters in each of the horizontally sequenced words "and", "permit", and "projects" in the third line of the captured image 2200) . A vertical trigram specifies the number of characters in each word of a vertical sequence of words above and below a given word. For example, for the captured image 2200, (c) shows vertical trigrams: 5-7-3 (for the number of characters in each of the vertically sequenced words "upper", "Project", and "461") ; 8-7-3 (for the number of characters in each of the vertically sequenced words "division", "Project", and "461") ; 8-3-3 (for the number of characters in each of the vertically sequenced words "division", "has", and "and") ; 8-3-6 (for the number of characters in each of the vertically sequenced words "division", "has", and "permit") ; 8-5-6 (for the number of characters in each of the vertically sequenced words "division", "begun", and "permit") ; 8-5-8 (for the number of characters in each of the vertically sequenced words "division", "begun", and "projects") ; 7-5-6 (for the number of characters in each of the vertically sequenced words "courses", "begun", and "permit") ; 7-5-8 (for the number of characters in each of the vertically sequenced words "courses", "begun", and "projects") ; 7-3-8 (for the number of characters in each of the vertically sequenced words "courses", "The", and "projects") ; 7-3-7 (for the number of characters in each of the vertically sequenced words "Project", "461", and "student") ; and 3-3-7 (for the number of characters in each of the vertically sequenced words "has", "and", and "student") .
Based on the determined horizontal and vertical trigrams from the captured image 2200 shown in Figure 22, lists of documents (d) and (e) are generated indicating the documents the contain each of the horizontal and vertical trigrams. For example, in (d) , the horizontal trigram 7-3-5 occurs in documents 15, 22, and 134. Further, for example, in (e) , the vertical trigram 7-5-6 occurs in documents 15 and 17. Using the documents lists of (d) and (e) ,-a ranked list of all the referenced documents are respectively shown in (f) and (g) . For example, in (f) , document 15 is referenced by five horizontal trigrams in (d) , whereas document 9 is only referenced by one horizontal trigram in (d) . Further, for example, in (g) , document 15 is referenced by eleven vertical trigrams in (e) , whereas document 18 is only referenced by one vertical trigram in (e) .
Now also referring to Figure 23, it shows a technique for combining the horizontal and vertical trigram information described with reference to Figure 22. The technique combines the lists of votes from the horizontal and vertical feature extraction using information about the known physical location of trigrams on the original printed pages. For every document in common among the top M choices outputted by each of the horizontal and vertical classifiers, the location of every horizontal trigram that voted for the document is compared to the location of every vertical trigram that voted for that document. A document receives a number of votes equal to the number of horizontal trigrams that overlap any vertical trigram, where "overlap" occurs when the bounding boxes of two trigrams overlap. In addition, the x-y positions of the centers of overlaps are counted with a suitably modified version of the evidence accumulation algorithm described below with reference to 3406 of Figures 34A. For example, as shown in Figure 23, the lists in (a) and (b) (respectively (f) and (g) in Figure 22) are intersected to determine a list of pages (c) that are both referenced by horizontal and vertical trigrams . Using the intersected list (c) , lists (d) and (e) (showing only the intersected documents as referenced to by the identified trigrams) , and a printed document database 3400, an overlap of documents is determined. For example, document 6 is referenced by horizontal trigram 3-5-3 and by vertical trigram 8-3-6, and those two trigrams themselves overlap over the word "has" in the captured image 2200; thus document 6 receives one vote for the one overlap. As shown in (f) , for the particular captured image 2200, document 15 receives the most number of votes and is thus identified as the document containing the captured image 2200. (xl, yl) is identified as the location of the input image within document 15. Thus, in summary of the document fingerprint matching technique described above with reference to Figures 22 and 23, a horizontal classifier uses features derived from the horizontal arrangement of words of text, and a vertical classifier uses features derived from the vertical arrangement of those words, where the results are combined based on the overlap of those features in the original documents. Such feature extraction provides a mechanism for uniquely identifying documents in that while the horizontal aspects of this feature extraction are subject to the constraints of proper grammar and language, the vertical aspects are not subject to such constraints . Further, although the description with reference to
Figures 22 and 23 is-particular to the use of trigrams, any n-gram may be used for one or both of horizontal and vertical feature extraction/classification. For example, in one or more embodiments, vertical and horizontal n-grams, where n = 4, may be used for multi-classifier feature extraction. In one or more other embodiments, the horizontal classifier may extract features based on n-grams, where n = 3, whereas the vertical classifier may extract features based on n-grams, where n = 5.
Further, in one or more embodiments, classification may be based on adjacency relationships that are not strictly vertical or horizontal . For example, NW, SW, NW, and SE adjacency relationships may be used for extraction/classification. Figure 24 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "database-driven feedback" technique shown in Figure 24 takes into consideration that the accuracy of a document image matching system may be improved by utilizing the images of the documents that could match the input to determine a subsequent step of image analysis in which sub-images from the pristine documents are matched to the input image. The technique includes a transformation that duplicates the noise present in the input image. This may be followed by a template matching analysis.
Figure 25 shows a flow process for database-driven feedback in accordance with an embodiment of the present invention. An input image patch is first preprocessed and recognized at steps 2510, 2512 as described above (e.g., using word OCR and word-pair lookup, character OCR and character pair lookup, word bounding box configuration) to produce a number of candidates for the identification of an image patch 2522. Each candidate in this list may contain the following items (doci, pagei, xi, yi) , where doci is an identifier for a document, pagei a page within the document, and (xi, yi) is the x-y coordinates of the center of the image patch within that page.
A pristine patch retrieval algorithm at step 2514 normalizes the size of the entire input image patch to a fixed size optionally using knowledge of the distance from the page to ensure that it is transformed to a known spatial resolution, e.g. , 100 dpi. The font size estimation algorithm described above may¬ be adapted to this task. Similarly, known distance from focus or depth from focus techniques may be used. Also, size normalization can proportionally scale the image patches based on the heights of their word bounding boxes.
The pristine patch retrieval algorithm queries the MMR database 3400 with the identifier for each document and page it receives together with the center of the bounding box for a patch that the MMR database will generate. The extent of the generated patch depends on the size of the normalized input patch. In such a manner, patches of the same spatial resolution and dimensions may be obtained. For example, when normalized to 100 dpi, the input patch can extend 50 pixels on each side of its center. In this case, the MMR database would be instructed to generate a 100 dpi pristine patch that is 100 pixels high and wide centered at the specified x-y value.
Each pristine image patch returned from the MMR database 2524 may be associated with the following items (doci, pagei, xi, yi, widthi, heighti, actioni) , where (doci, pagei, xi, yi) are as described above, widthi and heighti are the width and height of the pristine patch in pixels, and actioni is an optional action that might be associated with the corresponding area in doci' s entry in the database. The pristine patch retrieval algorithm outputs 2518 this list_of image patches and data 2518 together with the size normalized input patch it constructed.
Further, in one or more embodiments, the patch matching algorithm 2516 compares the size normalized input patch to each pristine patch and assigns a score 2520 that measures how well they match one another. Those skilled in the art will appreciate that a simple cross correlation to a Hamming distance suffices in many cases because of the mechanisms used to ensure that sizes of the patches are comparable. Further, this process may include the introduction of noise into the pristine patch that mimics the image noise detected in the input. The comparison could also be arbitrarily complex and could include a comparison of any feature set including the OCR results of the two patches and a ranking based on the number of characters, character pairs, or word pairs where the pairs could be constrained by geometric relations as before. However, in this case, the number of geometric pairs in common between the input patch and the pristine patch may be estimated and used as a ranking metric.
Further, the output 2520 may be in the form of n-tuples (doci, pagei, xi, yi, actioni, scorei) , where the score is provided by the patch matching algorithm and measures how well the input patch matches the corresponding region of doci, pagei.
Figure 26 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "database-driven classifier" technique shown in Figure 26 uses an initial classification to generate a set of hypotheses that could contain the input image. Those hypotheses are looked up in the database 3400 and a feature extraction plus classification strategy is automatically designed for those hypotheses. An example is identifying an input patch as containing either a Times or Arial font . In this case, the control structure 714 invokes a feature extractor and classifier specialized for serif/san serif discrimination.
Figure 27 shows a flow process for database-driven classification in accordance with an embodiment of the present invention. Following a first feature extraction 2710, the input image patch is classified 2712 by any one or more of the recognition methods described above to produce a ranking of documents, pages, and x-y locations within those pages. Each candidate in this list may contain, for example, the following items (doci, pagei, xi, yi) , where doci is an identifier for a document, pagei a page within the document, and (xi, yi) are the x-y coordinates of the center of the image patch within that page. The pristine patch retrieval algorithm 2714 described with reference to Figure 25 may be used to generate a patch image for each candidate.
Still referring to Figure 27, a second feature extraction is applied to the pristine patches 2716. This may differ from the first feature extraction and may include, for example, one or more of a font detection algorithm, a character recognition technique, bounding boxes, and SIFT features. The features detected in each pristine patch are inputted to an automatic classifier design method 2720 that includes, for example, a neural network, support vector machine, and/or nearest neighbor classifier that are designed to classify an unknown sample as one of the pristine patches. The same second feature extraction may be applied 2718 to the input image patch, and the features it detects are inputted to this newly designed classifier that may be specialized for the pristine patches.
The output 2724 may be in the form of n-tuples (doci, pagei, xi, yi, actioni, scorei) , where the score is provided by the classification technique 2722 that was automatically designed by 2720. Those skilled in the art will appreciate that the score measures how well the input patch matches the corresponding region of doci, pagei. Figure 28 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "database-driven multiple classifier" technique shown in Figure 28 reduces the chance of a non-recoverable error early in the recognition process by carrying multiple candidates throughout the decision process. Several initial classifications are performed. Each generates a different ranking of the input patch that could be discriminated by different feature extraction and classification. For example, one of those sets might be generated by horizontal n-grams and uniquely recognized by discriminating serif from san-serif. Another example might be generated by vertical n-grams and uniquely recognized by accurate calculation of line separation.
Figure 29 shows a flow process for database-driven multiple classification in accordance with an embodiment of the present invention. The flow process is similar to that shown in Figure 27, but it uses multiple different feature extraction algorithms 2910 and 2912 to produce independent rankings of the input image patch with the classifiers 2914 and 2916. Examples of features and classification techniques include horizontal and vertical word-length n-grams described above. Each classifier may produce a ranked list of patch identifications that contains at least the following items (doci, pagei, xi, yi, scorei) for each candidate, where doci is an identifier for a document, pagei a page within the document, (xi, yi) are the x-y coordinates of the center of the image patch within that page, and scorei measures how well the input patch matches the corresponding location in the database document.
The pristine patch retrieval algorithm described above with reference to Figure 25 may be used to produce a set of pristine image patches that correspond to the entries in the list of patch identifications in the output of 2914 and 2916. A third and fourth feature extraction 2918 and 2920 may be applied as before to the pristine patches and classifiers automatically designed and applied as described above in Figure 27. Still referring to Figure 29, the rankings produced by those classifiers are combined to produce a single ranking 2924 with entries (doci, pagei, xi, yi, actioni, scorei) for i =1 ... number of candidates, and where the values in each entry are as described above. The ranking combination 2922 may be performed by, for example, a known Borda count measure that assigns an item a score based on its common position in the two rankings. This may be combined with the score assigned by the individual classifiers to generate a composite score. Further, those skilled in the art will note that other methods of ranking combination may be used. Figure 30 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "video sequence image accumulation" technique shown in Figure 30 constructs an image by integrating data from nearby or adjacent frames. One example involves
"super-resolution." It registers N temporally adjacent frames and uses knowledge of the point spread function of the lens to perform what is essentially a sub-pixel edge enhancement. The effect is to increase the spatial resolution of the image. Further, in one or more embodiments, the super-resolution method may be specialized to emphasize text-specific features such as holes, corners, and dots. A further extension would use the characteristics of the candidate image patches, as determined from the database 3400, to specialize the super-resolution integration function.
Figure 31 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "video sequence feature accumulation" technique shown in Figure 31 accumulates features over a number of temporally adjacent frames prior to making a decision. This takes advantage of the high sampling rate of a capture device (e.g., 30 frames per second) and the user's intention, which keeps the capture device pointed at the same point on a document at least for several seconds. Feature extraction is performed independently on each frame and the results are combined to generate a single unified feature map. The combination process includes an implicit registration step. The need for this technique is immediately apparent on inspection of video clips of text patches. The auto-focus and contrast adjustment in the typical capture device can produce significantly different results in adjacent video frames .
Figure 32 shows another document fingerprint matching technique in accordance with an embodiment of the present invention. The "video sequence decision combination" technique shown in Figure 32 combines decisions from a number of temporally adjacent frames. This takes advantage of the high sampling rate of a typical capture device and the user' s intention, which keeps the capture device pointed at the same point on a document at least for several seconds. Each frame is processed independently and generates its own ranked list of decisions. Those decisions are combined to generate a single unified ranking of the input image set. This technique includes an implicit registration method that controls the decision combination process.
In one or more embodiments, one or more of the various document fingerprint matching techniques described above with reference to Figures 6-32 may be used in combination with one or more known matching techniques, such combination being referred to herein as "multi-tier (or multi-factor) recognition." In general, in multi-tier recognition, a first matching technique is used to locate in a document database a set of pages having specific criteria, and then a second matching technique is used to uniquely identify a patch from among the pages in the set. Figure 33 shows an example of a flow process for multi-tier recognition in accordance with an embodiment of the present invention. Initially, at step 3310, a capture device 106 is used to capture/scan a "culling" feature on a document of interest. The culling feature may be any feature, the capture of which effectively results in a selection of a set of documents within a document database. For example, the culling feature may be a numeric-only bar code (e.g., universal product code (UPC) ) , an alphanumeric bar code (e.g., code 39, code 93, code 128), or a 2-dimensional bar code (e.g., a QR code, PDF417, DataMatrix, Maxicode) . Moreover, the culling feature may be, for example, a graphic, an image, a trademark, a logo, a particular color or combination of colors, a keyword, or a phrase. Further, in one or more embodiments, a culling feature may be limited to features suitable for recognition by the capture device 106.
At step 3312, once the culling feature has been captured at step 3310, a set of documents and/or pages of documents in a document database are selected based on an association with the captured culling feature. For example, if the captured culling feature is a company' s logo, all documents in the database indexed as containing that logo are selected. In another example, the database may contain a library of trademarks against which captured culling images are compared. When there is a "hit" in the library, all documents associated with the hit trademark are selected for subsequent matching as described below. Further, in one or more embodiments, the selection of documents/pages at step 3312 may depend on the captured culling feature and the location of that culling feature on the scanned document. For example, information associated with the captured culling feature may specify whether that culling image is located at the upper right corner of the document as opposed to the lower left corner of the document . Further, those skilled in the art will note that the determination that a particular captured image contains an image of a culling feature may be made by the capture device 106 or some other component that receives raw image data from the capture device 106. For example, the database itself may determine that a particular captured image sent from the capture device 106 contains a culling feature, in response to which the database selects a set of documents associated with the captured culling feature.
At step 3314, after a particular set of documents has been selected at step 3312, the capture device 106 continues to scan and accordingly capture images of the document of interest. The captured images of the document are then matched against the documents selected at step 3312 using one or more of the various document fingerprint matching techniques described with reference to Figures 6-32. For example, after a set of documents indexed as containing the culling feature of a shoe graphic is selected at step 3312 based on capture of a shoe graphic image on a document of interest at step 3310, subsequent captured images of the document of interest may be matched against the set of selected documents using the multiple classifiers technique as previously described.
Thus, using an implementation of the multi-tier recognition flow process described above with reference to Figure 33, patch recognition times may be decreased by initially reducing the amount of pages/documents against which subsequent captured images are matched. Further, a user may take advantage of such improved recognition times by first scanning a document over locations where there is an image, a bar code, a graphic, or other type of culling feature. By taking such action, the user may quickly reduce the amount of documents against which subsequent captured images are matched. MMR Database System
Figure 34A illustrates a functional block diagram of an MMR database system 3400 configured in accordance with one embodiment of the invention. The system 3400 is configured for content-based retrieval, where two-dimensional geometric relationships between objects are represented in a way that enables look-up in a text-based index (or any other searchable indexes) . The system 3400 employs evidence accumulation to enhance look-up efficiency by, for example, combining the frequency of occurrence of a feature with the likelihood of its location in a two-dimensional zone. In one particular embodiment, the database system 3400 is a detailed implementation of the document event database 320 (including PD index 322) , the contents of which include electronic representations of printed documents generated by a capture module 318 and/or a document fingerprint matching module 226 as discussed above with reference to Figure 3. Other applications and configurations for system 3400 will be apparent in light of this disclosure. As can be seen, the database system 3400 includes an
MMR index table module 3404 that receives a description computed by the MMR feature extraction module 3402, an evidence accumulation module 3406, and a relational database 3408 (or any other suitable storage facility) . The index table module 3404 interrogates an index table that identifies the documents, pages, and x-y locations within those pages where each feature occurs. The index table can be generated, for example, by the MMR index table module 3404 or some other dedicated module. The evidence accumulation module 3406 is programmed or otherwise configured to compute a ranked set of document, page and location hypotheses 3410 given the data from the index table module 3404. The relational database 3408 can be used to store additional characteristics 3412 about each patch. Those include, but are not limited to, 504 and 508 in Figure 5. By using a two-dimensional arrangement of text within a patch in deriving a signature or fingerprint (i.e., unique search term) for the patch, the uniqueness of even a small fragment of text is significantly increased. Other embodiments can similarly utilize any two-dimensional arrangement of objects/features within a patch in deriving a signature or fingerprint for the patch, and embodiments of the invention are not intended to be limited to two-dimensional arrangements of text for uniquely identifying patches. Other components and functionality of the database system 3400 illustrated in Figure 34A include a feedback-directed features search module 3418, a document rendering application module 3414, and a sub-image extraction module 3416. These components interact with other system 3400 components to provide a feedback-directed feature search as well as dynamic pristine image generation. In addition, the system 3400 includes an action processor 3413 that receives actions. The actions determine the action performed by the database system 3400 and the output it provides. Each of these other components will be explained in turn.
An example of the MMR feature extraction module 3402 that utilizes this two-dimensional arrangement of text within a patch is shown in Figure 34B. In one such embodiment, the MMR feature extraction module 3402 is programmed or otherwise configured to employ an OCR-based technique to extract features (text or other target features) from an image patch. In this particular embodiment, the feature extraction module 3402 extracts the x-y locations of words in an image of a patch of text and represents those locations as the set of horizontally and vertically adjacent word-pairs it contains. The image patch is effectively converted to word-pairs that are joined by a "-" if they are horizontally adjacent (e.g., the-cat, in-the, the-hat, and is-back) and a "+" if they overlap vertically (e.g., the+in, cat+the, in+is, and the+back) . The x-y locations can be, for example, based on pixel counts in the x and y plane directions from some fixed point in document image (from the uppermost left corner or center of the document) . Note that the horizontally adjacent pairs in the example may occur frequently in many other text passages, while the vertically overlapping pairs will likely occur infrequently in other text passages. Other geometric relationships between image features could be similarly encoded, such as SW-NE adjacency with a "/" between words, NW-SE adjacency with "\", etc. Also, "features'^ could be generalized to word bounding boxes (or other feature bounding boxes) that could be encoded with arbitrary but consistent strings. For example, a bounding box that is four times as long as it is high with a ragged upper contour but smooth lower contour could be represented by the string "4rusl". In addition, geometric relationships could be generalized to arbitrary angles and distance between features. For example, two words with the "4rusl" description that are NW-SE adjacent but separated by two word-heights could be represented "4rusl\\4rusl. " Numerous encoding schemes will be apparent in light of this disclosure. Furthermore, note that numbers, Boolean values, geometric shapes, and other such document features could be used instead of word-pairs to ID a patch.
Figure 34C illustrates an example index table organization in accordance with one embodiment of the invention. As can be seen, the MMR index table includes an inverted term index table 3422 and a document index table 3424. Each unique term or feature (e.g., key 3421) points to a location in the term index table 3422 that holds a functional value of the feature (e.g., key x) that points to a list of records 3423 (e.g., Rec#l, Rec#2, etc) , and each record identifies a candidate region on a page within a document, as will be discussed in turn. In one example, key and the functional value of the key (key x) are the same. In another example a hash function is applied to key and the output of the function is key x.
Given a list of query terms, every record indexed by the key is examined, and the region most consistent with all query terms is identified. If the region contains a sufficiently high matching score (e.g., based on a pre-defined matching threshold) , the hypothesis is confirmed. Otherwise, matching is declared to fail and no region is returned. In this example embodiment, the keys are word-pairs separated by either a "-" or a "+" as previously described (e.g., "the-cat" or "cat+the") . This technique of incorporating the geometric relationship in the key itself allows use of conventional text search technology for a two-dimensional geometric query.
Thus, the index table organization transforms the features detected in an image patch into textual terms that represent both the features themselves and the geometric relationship between them. This allows utilization of conventional text indexing and search methods. For example, the vertically adjacent terms "cat" and "the" are represented by the symbol "cat+the" which can be referred to as a "query term" as will be apparent in light of this disclosure. The utilization of conventional text search data structures and methodologies facilitate grafting of MMR techniques described herein on top of Internet text search systems (e.g., Google, Yahoo, Microsoft, etc) .
In the inverted term index table 3422 of this example embodiment, each record identifies a candidate region on a page within a document using six parameters: document identification (DocID) , page number (PG), x/y offset (X and Y, respectively), and width and height of rectangular zone (W and H, respectively) . The DocID is a unique string generated based on the timestamp (or other metadata) when a document is printed. But it can be any string combining device ID and person ID. In any case, documents are identified by unique DocIDs, and have records that are stored in the document index table. Page number is the pagination corresponding to the paper output, and starts at 1. A rectangular region is parameterized by the X-Y coordinates of the upper-left corner, as well as the width and height of the bounding box in normalized coordinate system. Numerous inner-document location/coordinate schemes will be apparent in light of this disclosure, and the present invention is not intended to be limited any particular one.
An example record structure configured in accordance with one embodiment of the present invention uses a 24-bit DocID and an 8-bit page number, allowing up to 16 million documents and 4 billion pages. One unsigned byte for each X and Y offset of the bounding box provide a spatial resolution of 30dpi horizontal and 23dpi vertical (assuming an 8.5" by 11" page, although other page sizes and/or spatial resolutions can be used) . Similar treatment for the width and height of the bounding box (e.g. , one unsigned byte for each W and H) allows representation of a region as small as a period or the dot on an "i", or as large as an entire page (e.g., 8.5" by 11" or other). Therefore, eight bytes per record (3 bytes for DocID, 1 byte for PG, 1 byte for X, 1 byte for Y, 1 byte for W, and 1 byte for H is a total of 8 bytes) can accommodate a large number of regions. The document index table 3424 includes relevant information about each document. In one particular embodiment, this information includes the document-related fields in the XML file, including print resolution, print date, paper size, shadow file name, page image location, etc. Since print coordinates are converted to a normalized coordinate system when indexing a document, computing search hypotheses does not involve this table . Thus, document index table 3424 is only consulted for matched candidate regions. However, this decision does imply some loss of information in the index because the normalized coordinate is usually at a lower resolution than the print resolution.
Alternative embodiments may use the document index table 3424 (or a higher resolution for the normalized coordinate) when computing search hypotheses, if so desired.
Thus, the index table module 3404 operates to effectively provide an image index that enables content-based retrieval of objects (e.g., document pages) and x-y locations within those objects where a given image query occurs. The combination of such an image index and relational database 3408 allows for the location of objects that match an image patch and characteristics of the patch (e.g., such as the "actions" attached to the patch, or bar codes that can be scanned to cause retrieval of other content related to the patch) . The relational database 3408 also provides a means for "reverse links" from a patch to the features in the index table for other patches in the document. Reverse links provide a way to find the features a recognition algorithm would expect to see as it moves from one part of a document image to another, which may significantly improve the performance of the front-end image analysis algorithms in an MMR system as discussed herein. Feedback-Directed Feature Search The x-y coordinates of the image patch (e.g., x-y coordinates for the center of the image patch) as well as the identification of the document and page can also be input to the feedback-directed feature search module 3418. The feedback-directed feature search module 3418 searches the term index table 3422 for records 3423 that occur within a given distance from the center of the image patch. This search can be facilitated, for example, by storing the records 3423 for each DocID-PG combination in contiguous blocks of memory sorted in order of X or Y value. A lookup is performed by binary search for a given value (X or Y depending on how the data was sorted when stored) and serially searching from that location for all the records with a given X and Y value. Typically, this would include x-y coordinates in an M-inch ring around the outside of a patch that measures W inches wide and H inches high in the given document and page. Records that occur in this ring are located and their keys or features 3421 are located by tracing back pointers. The list of features and their x-y locations in the ring are reported as shown at 3417 of Figure 34A. The values of W, H, and M shown at 3415 can be set dynamically by the recognition system based on the size of the input image so that the features 3417 are outside the input image patch.
Such characteristics of the image database system 3400 are useful, for example, for disambiguating multiple hypotheses. If the database system 3400 reports more than one document could match the input image patch, the features in the rings around the patches would allow the recognition system (e.g., fingerprint matching module 226 or other suitable recognition system) to decide which document best matches the document the user is holding by directing the user to slightly move the image capture device in the direction that would disambiguate the decision. For example (assume OCR-based features are used, although the concept extends to any geometrically indexed feature set) , an image patch in document A might be directly below the word-pair "blue-xylophone." The image patch in document B might be directly below the word-pair "blue-thunderbird. " The database system 3400 would report the expected locations of these features and the recognition system could instruct the user (e.g., via a user interface) to move the camera up by the amount indicated by the difference in y coordinates of the features and top of the patch. The recognition system could compute the features in that difference area and use the features from documents A and B to determine which matches best. For example, the recognition system could post-process the OCR results from the difference area with the "dictionary" of features comprised of (xylophone, thunderbird) . The word that best matches the OCR results corresponds to the document that best matches the input image. Examples of post-processing algorithms include commonly known spelling correction techniques (such as those used by word processor and email applications) . As this example illustrates, the database system 3400 design allows the recognition system to disambiguate multiple candidates in an efficient manner by matching feature descriptions in a way that avoids the need to do further database accesses. An alternative solution would be to process each image independently.
Dynamic Pristine Image Generation
The x-y coordinates for the location the image patch (e.g., x-y coordinates for the center of the image patch) as well as the identification of the document and page can also be input to the relational database 3408 where they can be used to retrieve the stored electronic original for that document and page. That document can then be rendered by the document rendering application module 3414 as a bitmap image. Also, an additional "box size" value provided by module 3414 is used by the sub-image extraction module 3416 to extract a portion of the bitmap around the center. This bitmap is a "pristine" representation for the expected appearance of the image patch and it contains an exact representation for all features that should be present in the input image. The pristine patch can then be returned as a patch characteristic 3412. This solution overcomes the excessive storage required of prior techniques that store image bitmaps by storing a compact non-image representation that can subsequently be converted to bitmap data on demand. Such as storage scheme is advantageous since it « enables the use of a hypothesize-and-test recognition strategy in which a feature representation extracted from an image is used to retrieve a set of candidates that is disambiguated by a detailed feature analysis. Often, it is not possible to predict the features that will optimally disambiguate an arbitrary set of candidates and it is desirable that this be determined from the original images of those candidates. For example, an image of the word-pair "the cat" could be located in two database documents, one of which was originally printed in a Times Roman font and the other in a Helvetica font. Simply determining whether the input image contains one of these fonts would identify the correctly matching database document. Comparing the pristine patches for those documents to the input image patch with a template matching comparison metric like the Euclidean distance would identify the correct candidate.
An example includes a relational database 3408 that stores Microsoft Word ".doc" files (a similar methodology works for other document formats such as postscript, PCL, pdf., or Microsoft's XML paper specification XPS, or other such formats that can be converted to a bitmap by a rendering application such as ghostscript or in the case of XPS, Microsoft' s Internet Explorer with the WinFX components installed) . Given the identification for a document, page, x-y location, box dimensions, and system parameters that indicate the preferred resolution is 600 dots per inch (dpi) , the Word application can be invoked to generate a bitmap image. This will provide a bitmap with 6600 rows and 5100 columns. Additional parameters x=3", y=3", height=l", and
width=l" indicate the database should return a patch 600 pixels high and wide that is centered at a point 1800 pixels in x and y away from the top left corner of the page. Multiple Databases
When multiple database systems 3400 are used, each of which may contain different document collections, pristine patches can be used to determine whether two databases return the same document or which database returned the candidate that better matches the input.
If two databases return the same document, possibly with different identifiers 3410 (i.e., it is not apparent the original documents are the same since they were separately entered in different databases) and characteristics 3412, the pristine patches will be almost exactly the same. This can be determined by comparing the pristine patches to one another, for example, with a Hamming distance that counts the number of pixels that are different. The Hamming distance will be zero if the original documents are exactly the same pixel-for-pixel . The Hamming distance will be slightly greater than zero if the patches are slightly different as might be caused by minor font differences. This can cause a "halo" effect around the edges of characters when the image difference in the Hamming operator is computed. Font differences like this can be caused by different versions of the original rendering application, different versions of the operating system on the server that runs the database, different printer drivers, or different font collections.
The pristine patch comparison algorithm can be performed on patches from more than one x-y location in two documents. They should all be the same, but a sampling procedure like this would allow for redundancy that could overcome rendering differences between database systems. For example, one font might appear radically different when rendered on the two systems but another font might be exactly the same.
If two or more databases return different documents as their best match for the input image, the pristine patches could be compared to the input image by a pixel based comparison metric such as Hamming distance to determine which is correct. An alternative strategy for comparing results from more than one database is to compare the contents of accumulator arrays that measure the geometric distribution of features in the documents reported by each database. It is desirable that this accumulator be provided directly by the database to avoid the need to perform a separate lookup of the original feature set. Also, this accumulator should be independent of the contents of the database system 3400. In the embodiment shown in Figure 34A, an activity array 3420 is exported. Two Activity arrays can be compared by measuring the internal distribution of their values. In more detail, if two or more databases return the same document, possibly with different identifiers 3410 (i.e., it's not apparent the original documents are the same since they were separately entered in different databases) and characteristics 3412, the activity arrays 3420 from each database will be almost exactly the same. This can be determined by comparing the arrays to one another, for example, with a Hamming distance that counts the number of pixels that are different. The Hamming distance will be zero if the original documents are exactly the same. If two or more databases return different documents as their best match for the input features, their activity arrays 3420 can be compared to determine which document "best" matches the input image. An Activity array that correctly matches an image patch will contain a cluster of high values approximately centered on the location where the patch occurs. An Activity array that incorrectly matches an image patch will contain randomly distributed values. There are many well known strategies for measuring dispersion or the randomness of an image, such as entropy. Such algorithms can be applied to an activity array 3420 to obtain a measure that indicates the presence of a cluster. For example, the entropy of an activity array 3420 that contains a cluster corresponding to an image patch will be significantly different from the entropy of an activity array 3420 whose values are randomly distributed. Further, it is noted that an individual client 106 might at any time have access to multiple databases 3400 whose contents are not necessarily in conflict with one another. For example, a corporation might have both publicly accessible patches and ones private to the corporation that each refer to a single document. In such cases, a client device 106 would maintain a list of databases Dl, D2, D3 ..., which are consulted in order, and produce combined activity arrays 3420 and identifiers 3410 into a unified display for the user. A given client device 106 might display the patches available from all databases, or allow a user to choose a subset of the databases (only Dl, D3, and D7, for example) and only show patches from those databases. Databases might be added to the list by subscribing to a service, or be made available wirelessly when a client device 106 is in a certain location, or because the database is one of several which have been loaded onto client device 106, or because a certain user has been authenticated to be currently using the device, or even because the device is operating in a certain mode. For example, some databases might be available because a particular client device has its audio speaker turned on or off, or because a peripheral device like a video projector is currently attached to the client. Actions
With further reference to Figure 34A, the MMR database 3400 receives an action together with a set of features from the MMR feature extraction module 3402. Actions specify commands and parameters . In such an embodiment, the command and its parameters determine the patch characteristics that are returned 3412. Actions are received in a format including, for example, http that can be easily translated into text. The action processor 3413 receives the identification for a document, page and x-y location within a page determined by the evidence accumulation module 3406. It also receives a command and its parameters. The action processor 3413 is programmed or otherwise configured to transform the command into instructions that either retrieve or store data using the relational database 3408 at a location that corresponds with the given document, page and x-y location.
In one such embodiment, commands include: RETRIEVE,
INSERTJΓO <DATA>, RETRIEVEJΓEXT <RADIUS>, TRANSFER <AMOUNT>, PURCHASE, , PRISTINE_PATCH <RADIUS [DOCID PAGEID X Y DPI]>, AND
ACCESS_DATABASE <DBID>. Each will now be discussed in turn.
RETRIEVE - retrieve data linked to the x-y location in the given document page. The action processor 3413 transforms the RETRIEVE command to the relational database query that retrieves data that might be stored nearby this x-y location. This can require the issuance of more than one database query to search the area surrounding the x-y location. The retrieved data is output as patch characteristics 3412. An example application of the RETRIEVE command is a multimedia browsing application that retrieves video clips or dynamic information objects (e.g., electronic addresses where current information can be retrieved) . The retrieved data can include menus that specify subsequent steps to be performed on the MMR device. It could also be static data that could be displayed on a phone (or other display device) such as JPEG images or video clips. Parameters can be provided to the RETRIEVE command that determine the area searched for patch characteristics
INSERT_TO <DATA> - insert <DATA> at the x-y location specified by the image patch. The action processor 3413 transforms the INSERT_TO command to an instruction for the relational database that adds data to the specified x-y location. An acknowledgement of the successful completion of the INSERT_TO command is returned as patch characteristics 3412. An example application of the INSERT_TO command is a software application on the MMR device that allows a user to attach data to an arbitrary x-y location in a passage of text. The data can be static multimedia such as JPEG images, video clips, or audio files, but it can also be arbitrary electronic data such as menus that specify actions associated with the given location. RETRIEVE_TEXT <RADIUS> - retrieve text within
<RADIUS> of the x-y location determined by the image patch. The <RADIUS> can be specified, for example, as a number of pixels in image space or it can be specified as a number of characters of words around the x-y location determined by the evidence accumulation module 3406. <RADIUS> can also refer to parsed text objects. In this particular embodiment, the action processor 3413 transforms the RETRIEVEJTEXT command into a relational database query that retrieves the appropriate text. If the <RADIUS> specifies parsed text objects, the Action Processor only returns parsed text objects. If a parsed text object is not located nearby the specified x-y location, the Action Processor returns a null indication. In an alternate embodiment, the Action Processor calls the Feedback-Directed Features Search module to retrieve the text that occurs within a radius of the given x-y location. The text string is returned as patch characteristics 3412. Optional data associated with each word in the text string includes its x-y bounding box in the original document. An example application of the RETRIEVE_TEXT command is choosing text phrases from a printed document for inclusion in another document. This could be used, for example, for composing a presentation file (e.g., in PowerPoint format) on the MMR system.
TRANSFER <AMOUNT> - retrieve the entire document and some of the data linked to it in a form that could be loaded into another database. <AMOUNT> specifies the number and type of data that is retrieved. If <AMOUNT> is ALL, the action processor 3413 issues a command to the database 3408 that retrieves all the data associated with a document. Examples of such a command include DUMP or Unix TAR. If <AMOUNT> is SOURCE, the original source file for the document is retrieved. For example, this could retrieve the Word file for a printed document. If <AMOUNT> is BITMAP the JPEG-compressed version (or other commonly used formats) of the bitmap for the printed document is retrieved. If <AMOUNT> is PDF, the PDF representation for the document is retrieved. The retrieved data is output as patch characteristics 3412 in a format known to the calling application by virtue of the command name. An example application of the TRANSFER command is a "document grabber" that allows a user to transfer the PDF representation for a document to an MMR device by imaging a small area of text. PURCHASE - retrieve a product specification linked to an x-y location in a document. The action processor 3413 first performs a series of one or more RETRIEVE commands to obtain product specifications nearby a given x-y location. A product specification includes, for example, a vendor name, identification for a product (e.g., stock number) , and electronic address for the vendor. Product specifications are retrieved in preference to other data types that might be located nearby. For example, if a jpeg is stored at the x-y location determined by the image patch, the next closest product specification is retrieved instead. The retrieved product specification is output as patch characteristics 3412. An example application of the PURCHASE command is associated with advertising in a printed document. A software application on the MMR device receives the product specification associated with the advertising and adds the user' s personal identifying information (e.g., name, shipping address, credit card number, etc.) before sending it to the specified vendor at the specified electronic address.
PRISTINE_PATCH <RADIUS [DOCID PAGEID X Y DPI]> - retrieve an electronic representation for the specified document and extract an image patch centered at x-y with radius RADIUS. RADIUS can specify a circular radius but it can also specify a rectangular patch (e.g., 2 inches high by 3 inches wide) . It can also specify the entire document page. The (DocID, PG, x, y) information can be supplied explicitly as part of the action or it could be derived from an image of a text patch. The action processor 3413 retrieves an original representation for a document from the relational database 3408. That representation can be a bitmap but it can also be a renderable electronic document. The original representation is passed to the document rendering application 3414 where it is converted to a bitmap (with resolution provided in parameter DPI as dots per inch) and then provided to sub-image extraction 3416 where the desired patch is extracted. The patch image is returned as patch characteristics 3412.
ACCESS_DATABASE <DBID> - add the database 3400 to the database list of client 106. Client can now consult this database 300 in addition to any existing databases currently in the list. DBID specifies either a file or remote network reference to the specified database.
Index Table Generation Methodology
Figure 35 illustrates a method 3500 for generating an MMR index table in accordance with an embodiment of the present invention. The method can be carried out, for example, by database system 3400 of Figure 34A. In one such embodiment, the MMR index table is generated, for example, by the MMR index table module 3404 (or some other dedicated module) from a scanned or printed document. The generating module can be implemented in software, hardware (e.g., gate-level logic), firmware (e.g., a microcontroller configured with embedded routines for carrying out the method, or some combination thereof, just as other modules described herein. The method includes receiving 3510 a paper document.
The paper document can be any document, such as a memo having any number of pages (e.g., work-related, personal letter), a product label (e.g., canned goods, medicine, boxed electronic device), a product specification (e.g., snow blower, computer system, manufacturing system) , a product brochure or advertising materials (e.g., automobile, boat, vacation resort), service description materials (e.g., Internet service providers, cleaning services) , one or more pages from a book, magazine or other such publication, pages printed from a website, hand-written notes, notes captured and printed from a white-board, or pages printed from any processing system (e.g., desktop or portable computer, camera, smartphone, remote terminal) .
The method continues with generating 3512 an electronic representation of the paper document, the representation including x-y locations of features shown in the document. The target features can be, for instance, individual words, letters, and/or characters within the document. For example, if the original document is scanned, it is first OCR'd and the words (or other target feature) and their x-y locations are extracted (e.g., by operation of document fingerprint matching module 226' of scanner 127) . If the original document is printed, the indexing process receives a precise representation (e.g., by operation of print driver 316 of printer 116) in XML format of the font, point size, and x-y bounding box of every character (or other target feature) . In this case, index table generation begins at step 3514 since an electronic document is received with precisely identified x-y feature locations (e.g., from print driver 316) . Formats other than XML will be apparent in light of this disclosure. Electronic documents such as Microsoft Word, Adobe Acrobat, and postscript can be entered in the database by "printing" them to a print driver whose output is directed to a file so that paper is not necessarily generated. This triggers the production of the XML file structure shown below. In all cases, the XML as well as the original document format (Word, Acrobat, postscript, etc.) are assigned an identifier (doc i for the ith document added to the database) and stored in the relational database 3408 in a way that enables their later retrieval by that identifier but also based on other "meta data" characteristics of the document including the time it was captured, the date printed, the application that triggered the print, the name of the output file, etc.
An example of the XML file structure is shown here:
$docID.xml :
<?xml version="1.0" ?> <doclayout ID="00001234">
<setup>
<url>file url/path or null if not known</url>
<date>file printed date</date>
<app>application that triggered print</app> <text>$docID.txt</text>
<prfile>name of output file</prfile>
<dpi>dpi of page for x, y coordinates, eg.600</dpi>
<width>in inch, like 8.5</width>
<height>in inch, eg. 11.0</height> <imagescale>0.1 is 1/lOth scale of dpi</imagescale>
</setup>
<page no="l>
<image>$docID_l . jpeg</image>
<sequence box="x y w h"> <text>this string of text</text>
<font>any font info</font>
<word box="x y w h">
<text>word text</text>
<char box="x y w h">a</char> <char box="x y w h">b</char> <char>l entry per char, in sequence</char> </word> </sequence> </page> </doclayout>
In one specific embodiment, a word may contain any characters from a-z, A-Z, 0-9, and any of @%$#; all else is a delimiter. The original description of the . xml file can be created by print capture software used by the indexing process (e.g., which executes on a server, such as database 320 server) . The actual format is constantly evolving and contains more elements, as new documents are acquired by the system.
The original sequence of text received by the print driver (e.g., print driver 316) is preserved and a logical word structure is imposed based on punctuation marks, except for
"_@%$#". Using the XML file as input, the index table module 3404 respects the page boundary, and first tries to group sequences into logical lines by checking the amount of vertical overlap between two consecutive sequences. In one particular embodiment, the heuristic that a line break occurred is used if two sequences overlap by less than half of their average height. Such a heuristic works well for typical text documents (e.g., Microsoft Word documents) . For html pages with complex layout, additional geometrical analysis may be needed. However, it is not necessary to extract perfect semantic document structures as long as consistent indexing terms can be generated as by the querying process.
Based on the structure of the electronic representation of the paper document, the method continues with indexing 3514 the location of every target feature on every page of the paper document. In one particular embodiment, this step includes indexing the location of every pair of horizontally and vertically adjacent words on every page of the paper document. As previously explained, horizontally adjacent words are pairs of neighboring words within a line. Vertically adjacent words are words in neighboring lines that vertically align. Other multi-dimensional aspects of the a page can be similarly exploited.
The method further includes storing 3516 patch characteristics associated with each target feature. In one particular embodiment, the patch characteristics include actions attached to the patch, and are stored in a relational database. As previously explained, the combination of such an image index and storage facility allows for the location of objects that match an image patch and characteristics of the patch. The characteristics can be any data related to the path, such as metadata. The characteristics can also include, for example, actions that will carry out a specific function, links that can be selected to provide access to other content related to the patch, and/or bar codes that can be scanned or otherwise processed to cause retrieval of other content related to the patch.
A more precise definition is given for the search term generation, where only a fragment of the line structure is observed. For horizontally adjacent pairs, a query term is formed by concatenating the words with a "-" separator. Vertical pairs are concatenated using a "+". The words can be used in their original form to preserve capitalization if so desired (this creates more unique terms but also produces a larger index with additional query issues to consider such as case sensitivity) . The indexing scheme allows the same search strategy to be applied on either horizontal or vertical word-pairs, or a combination of both. The discriminating power of terms is accounted for by the inverse document frequency for any of the cases. Evidence Accumulation Methodology Figure 36 illustrates a method 3600 for computing a ranked set of document, page, and location hypotheses for a target document, in accordance with one embodiment of the present invention. The method can be carried out, for example, by database system 3400 of Figure 34A. In one such embodiment, the evidence accumulation module 3406 computes hypotheses using data from the index table module 3404 as previously discussed.
The method begins with receiving 3610 a target document image, such as an image patch of a larger document image or an entire document image . The method continues with generating 3612 one or more query terms that capture two-dimensional relationships between objects in the target document image. In one particular embodiment, the query terms are generated by a feature extraction process that produces horizontal and vertical word-pairs, as previously discussed with reference to Figure 34B. However, any number of feature extraction processes as described herein can be used to generate query terms that capture two-dimensional relationships between objects in the target image, as will be apparent in light of this disclosure. For instance, the same feature extraction techniques used to build the index of method 3500 can be used to generate the query terms, such as those discussed with reference to step 3512 (generating an electronic representation of a paper document) . Furthermore, note that the two-dimensional aspect of the query terms can be applied to each query term individually (e.g. , a single query term that represents both horizontal and vertical objects in the target document) or as a set of search terms (e.g., a first query term that is a horizontal word-pair and a second query term that is a vertical word-pair) .
The method continues with looking-up 3614 each query term in a term index table 3422 to retrieve a list of locations associated with each query term. For each location, the method continues with generating 3616 a number of regions containing the location. After all queries are processed, the method further includes identifying 3618 a region that is most consistent with all query terms. In one such embodiment, a score for every candidate region is incremented by a weight (e.g., based on how consistent each region is with all query terms) . The method continues with determining 3620 if the identified region satisfies a pre-defined matching criteria (e.g., based on a pre-defined matching threshold) . If so, the method continues with confirming 3622 the region as a match to the target document image (e.g., the page that most likely contains the region can be accessed and otherwise used) . Otherwise, the method continues with rejecting 3624 the region. Word-pairs are stored in the term index table 3422 with locations in a "normalized" coordinate space. This provides uniformity between different printer and scanner resolutions . In one particular embodiment, an 85x110 coordinate space is used for 8.5" by 11" pages. In such a case, every word-pair is identified by its location in this 85x110 space.
To improve the efficiency of the search, a two-step process can be performed. The first step includes locating the page that most likely contains the input image patch. The second step includes calculating the x-y location within that page that is most likely the center of the patch. Such an approach does introduce the possibility that the true best match may be missed in the first step. However, with a sparse indexing space, such a possibility is rare. Thus, depending on the size of the index and desired performance, such an efficiency improving technique can be employed. In one such embodiment, the following algorithm is used to find the page that most likely contains the word-pairs detected in the input image patch. For each given word-pair wp idf = I/log (2 + num_docs (wp) )
For each (doc, page) at which wp occurred
Accum[doc, page] += idf; end /* For each (doc, page) */ end /* For each wp */
(maxdoc, maxpage) = max ( Accum[doc, page] );
if (Accum[ maxdoc, maxpage ] > thresh_page) return ( maxdoc, maxpage); This technique adds the inverse document frequency (idf) for each word-pair to an accumulator indexed by the documents and pages on which it appears . num_docs (wp) returns the number of documents that contain the word pair wp. The accumulator is implemented by the evidence accumulation module 3406. If the maximum value in that accumulator exceeds a threshold, it is output as the page that is the best match to the patch. Thus, the algorithm operates to identify the page that best matches the word-pairs in the query. Alternatively, the Accum array can be sorted and the top N pages reported as the "N best" pages that match the input document. The following evidence accumulation algorithm accumulates evidence for the location of the input image patch within a single page, in accordance with one embodiment of the present invention. For each given word-pair wp idf = l/log(2 + num_docs (wp) )
For each (x,y) at which wp occurred
(minx, maxx, miny, maxy) = extent (x,y); maxdist = maxdist (minx, maxx, miny, maxy) ; For i=miny to maxy do For j = minx to maxx do norm_dist = Norm__geometric_dist (i, j, x, y, maxdist) Activity [i, j ] += norm_dist; weight = idf * norm_dist; Accum2[i,j] += weight;
end /* for j */ end /* for I */ end /* For each (y,y) */ end /* For each */ The algorithm operates to locate the cell in the 85x110 space that is most likely the center of the input image patch. In the embodiment shown here, the algorithm does this by adding a weight to the cells in a fixed area around each word-pair (called a zone) . The extent function is given an x, y pair and it returns the minimum and maximum values for a surrounding fixed size region (1.5" high and 2" wide are typical) . The extent function takes care of boundary conditions and makes sure the values it returns do not fall outside the accumulator (i.e. , less than zero or greater than 85 in x or 110 in y) . The maxdist function finds the maximum Euclidean distance between two points in a bounding box described by the bounding box coordinates (minx, maxx, miny, maxy) . A weight is calculated for each cell within the zone that is determined by product of the inverse document frequency of the word-pair and the normalized geometric distance between the cell and the center of the zone. This weights cells closer to the center higher than cells further away. After every word-pair is processed by the algorithm, the Accum2 array is searched for the cell with the maximum value. If that exceeds a threshold, its coordinates are reported as the location of the image patch. The Activity array stores the accumulated normjdist values. Since they aren' t scaled by idf, they don' t take into account the number of documents in a database that contain particular word pairs. However, they do provide a two-dimensional image representation for the x-y locations that best match a given set of word pairs. Furthermore, entries in the Activity array are independent of the documents stored in the database. This data structure, that's normally used internally, can be exported 3420.
The normalized geometric distance is calculated as shown here, in accordance with one embodiment of the present invention. Norm_geometric_dist (i, j, x, y, maxdist) begin d = sqrt( (i-x)2 + (j-y)2 ); return ( maxdist - d ) ; end
The Euclidean distance between the word-pair' s location and the center of the zone is calculated and the difference between this and the maximum distance that could have been calculated is returned. After every word-pair is processed by the evidence accumulation algorithm, the Accum2 array is searched for the cell with the maximum value. If that value exceeds a pre-defined threshold, its coordinates are reported as the location of the center of the image patch. MMR Printing Architecture
Figure 37A illustrates a functional block diagram of
MMR components in accordance with one embodiment of the present invention. The primary MMR components include a computer 3705 with an associated printer 116 and/or a shared document annotation (SDA) server 3755.
The computer 3705 is any standard desktop, laptop, or networked computer, as is known in the art. In one embodiment, the computer is MMR computer 112 as described in reference to
Figure IB. User printer 116 is any standard home, office, or commercial printer, as described herein. User printer 116 produces printed document 118, which is a paper document that is formed of one or more printed pages.
The SDA server 3755 is a standard networked or centralized computer that holds information, applications, and/or a variety of files associated with a method of shared annotation. For example, shared annotations associated with web pages or other documents are stored at the SDA server 3755. In this example, the annotations are data or interactions used in MMR as described herein. The SDA server 3755 is accessible via a network connection according to one embodiment. In one embodiment, the SDA server 3755 is the networked media server 114 described in reference to Figure IB.
The computer 3705 further comprises a variety of components, some or all of which are optional according to various embodiments. In one embodiment, the computer 3705 comprises source files 3710, browser 3715, plug-in 3720, symbolic hotspot description 3725, modified files 3730, capture module 3735, page_desc. xml 3740, hotspot. xml 3745, data store 3750, SDA server 3755, and MMR printer software 3760. Source files 3710 are representative of any source files that are an electronic representation of a document. Example source files 3710 include hypertext markup language (HTML) files, Microsoft® Word® files, Microsoft® PowerPoint® files, simple text files, portable document format (PDF) files, and the like. As described herein, documents received at browser 3715 originate from source files 3710 in many instances. In one embodiment, source files 3710 are equivalent to source files 310 as described in reference to Figure 3.
Browser 3715 is an application that provides access to data that has been associated with source files 3710. For example, the browser 3715 may be used to retrieve web pages and/or documents from the source files 3710. In one embodiment, browser 3715 is an SD browser 312, 314, as described in reference to Figure 3. In one embodiment, the browser 3715 is an Internet browser such as Internet Explorer.
Plug-in 3720 is a software application that provides an authoring function. Plug-in 3720 is a standalone software application or, alternatively, a plug-in running on browser 3715. In one embodiment, plug-in 3720 is a computer program that interacts with an application, such as browser 3715, to provide the specific functionality described herein. The plug-in 3720 performs various transformations and other modifications to documents or web pages displayed in the browser 3715 according to various embodiments. For example, plug-in 3720 surrounds hotspot designations with an individually distinguishable fiducial marks to create hotspots and returns "marked-up" versions of HTML files to the browser 3715, applies a transformation rule to a portion of a document displayed in the browser 3715, and retrieves and/or receives shared annotations to documents displayed in the browser 3715. In addition, plug-in 3720 may perform other functions, such as creating modified documents and creating symbolic hotspot descriptions 3725 as described herein. Plug-in 3720, in reference to capture module 3735, facilitates the methods described in reference to Figures 38, 44, 45, 48, and 5OA-B.
Symbolic hotspot description 3725 is a file that identifies a hotspot within a document. Symbolic hotspot description 3725 identifies the hotspot number and content. In this example, symbolic hotspot description 3725 is stored to data store 3750. An example of a symbolic hotspot description is shown in greater detail in Figure 41.
Modified files 3730 are documents and web pages created as a result of the modifications and transformations of source files 3710 by plug-in 3720. For example, a marked-up HTML file as noted above is an example of a modified file 3730. Modified files 3730 are returned to browser 3715 for display to the user, in certain instances as will be apparent in light of this disclosure.
Capture module 3735 is a software application that performs a feature extraction and/or coordinate capture on the printed representation of documents, so that the layout of characters and graphics on the printed pages can be retrieved. The layout, i.e., the two-dimensional arrangement of text on the printed page, may be captured automatically at the time of printing. For example, capture module 3735 executes all the text and drawing print commands and, in addition, intercepts and records the x-y coordinates and other characteristics of every character and/or image in the printed representation. According to one embodiment, capture module 3735 is a Printcapture DLL as described herein, a forwarding Dynamically Linked Library (DLL) that allows addition or modification of the functionality of an existing DLL. A more detailed description of the functionality of capture module 3735 is described in reference to Figure 44.
Those skilled in the art will recognize that the capture module 3735 is coupled to the output of browser 3715 for capture of data. Alternatively, the functions of capture module 3735 may be implemented directly within a printer driver. In one embodiment, capture module 3735 is equivalent to PD capture module 318, as described in reference to Figure 3. Page_desc. xml 3740 is an extensible markup language
("XML") file to which text-related output is written for function calls processed by capture module 3735 that are text related. The page_desc.xml 3740 includes coordinate information for a document for all printed text by word and by character, as well as hotspot information, printer port name, browser name, date and time of printing, and dots per inch (dpi) and resolution (res) information. page_desc.xml 3740 is stored, e.g., in data store 3750. Data store 3750 is equivalent to MMR database 3400 described with reference to Figure 34A. Figures 42A-B illustrate in greater detail an example of a page desc.xml 3740 for an HTML file. hotspot, xml 3745 is an XML file that is created when a document is printed (e.g., by operation of print driver 316, as previously discussed) . hotspot.xml is the result of merging symbolic hotspot description 3725 and page_desc.xml 3740. hotspot.xml includes hotspot identifier information such as hotspot number, coordinate information, dimension information, and the content of the hotspot. An example of a hotspot.xml file is illustrated in Figure 43.
Data store 3750 is any database known in the art for storing files, modified for use with the methods described herein. For example, according to one embodiment data store 3750 stores source files 3710, symbolic hotspot description 3725, page_desc.xml 3740, rendered page layouts, shared annotations, imaged documents, hot spot definitions, and feature representations. In one embodiment, data store 3750 is equivalent to document event database 320 as described with reference to Figure 3 and to database system 3400 as described with reference to Figure 34A.
MMR printing software 3760 is the software that facilitates the MMR printing operations described herein, for example as performed by the components of computer '3705 as previously described. MMR printing software 3760 is described below in greater detail with reference to Figure 37B.
Figure 37B illustrates a set of software components included MMR printing software 3760 in accordance with one embodiment of the invention. It should be understood that all or some of the MMR printing software 3760 may be included in the computer 112, 905, the capture device 106, the networked media server 114 and other servers as described herein. While the MMR printing software 3760 will now be described as including these different components, those skilled in the art will recognize that the MMR printing software 3760 could have any number of these components from one to all of them. The MMR printing software 3760 includes a conversion module 3765, an embed module 3768, a parse module 3770, a transform module 3775, a feature extraction module 3778, an annotation module 3780, a hotspot module 3785, a render/display module 3790, and a storage module 3795.
Conversion module 3765 enables conversion of a source document into an imaged document from which a feature representation can be extracted, and is one means for so doing.
Embed module 3768 enables embedding of marks corresponding to a designation for a hot spot in an electronic document, and is one means for so doing. In one particular embodiment, the embedded marks indicate a beginning point for the hot spot and an ending point for the hotspot. Alternatively, a pre-define area around an embodiment mark can be used to identify a hot spot in an electronic document. Various such marking schemes can be used.
Parse module 3770 enables parsing an electronic document (that has been sent to the printer) for a mark indicating a beginning point for a hotspot, and is one means for so doing. Transformation module 3775 enables application of a transformation rule to a portion of an electronic document, and is one means for so doing. In one particular embodiment, the portion is a stream of characters between a mark indicating a beginning point for a hotspot and a mark indicating an ending point for the hotspot.
Feature extraction module 3778 enables the extraction of features and capture of coordinates corresponding to a printed representation of a document and a hot spot, and is one means for so doing. Coordinate capture includes tapping print commands using a forwarding dynamically linked library and parsing the printed representation for a subset of the coordinates corresponding to a hot spot or transformed characters. Feature extraction module 3778 enables the functionality of capture module
3735 according to one embodiment.
Annotation module 3780 enables receiving shared annotations and their accompanying designations of portions of a document associated with the shared annotations, and is one means for so doing. Receiving shared annotations includes receiving annotations from end users and from a SDA server.
Hotspot module 3785 enables association of one or more clips with one or more hotspots, and is one means for so doing.
Hotspot module 3785 also enables formulation of a hotspot definition by first designating a location for a hotspot within a document and defining a clip to associate with the hotspot. Render/display module 3790 enables a document or a printed representation of a document to be rendered or displayed, and is one means for so doing. Storage module 3795 enables storage of various files, including a page layout, an imaged document, a hotspot definition, and a feature representation, and is one means for so doing.
The software portions 3765-3795 need not be discrete software modules. The software configuration shown is meant only by way of example; other configurations are contemplated by and within the scope of the present invention, as will be apparent in light of this disclosure.
Embedding a Hot Spot in a Document
Figure 38 illustrates a flowchart of a method of embedding a hot spot in a document in accordance with one embodiment of the present invention.
According to the method, marks are embedded 3810 in a document corresponding to a designation for a hotspot within the document. In one embodiment, a document including a hotspot designation location is received for display in a browser, e.g., a document is received at browser 3715 from source files 3710.
A hot spot includes some text or other document objects such as graphics or photos, as well as electronic data. The electronic data can include multimedia such as audio or video, or it can be a set of steps that will be performed on a capture device when the hot spot is accessed. For example, if the document is a HyperText Markup Language (HTML) file, the browser 3715 may be Internet Explorer, and the designations may be Uniform Resource Locators (URLs) within the HTML file. Figure 39A illustrates an example of such an HTML file 3910 with a URL 3920. Figure 4OA illustrates the text of HTML file 3910 of Figure 39A as displayed in a browser 4010, e.g., Internet Explorer.
To embed 3810 the marks, a plug-in 3720 to the browser 3715 surrounds each hotspot designation location with an individually distinguishable fiducial mark to create the hotspot. In one embodiment, the plug-in 3720 modifies the document displayed in the browser 3715, e.g., HTML displayed in Internet Explorer continuing the example above, and inserts marks, or tags, that bracket the hotspot designation location (e.g., URL) . The marks are imperceptible to the end user viewing the document either in the browser 3715 or a printed version of the document, but can be detected in print commands. In this example a new font, referred to herein as MMR Courier New, is used for adding the beginning and ending fiducial marks. In MMR Courier New font, the typical glyph or dot pattern representation for the characters "b," "e," and the digits are represented by an empty space.
Referring again to the example HTML page shown in Figures 39A and 4OA, the plug-in 3720 embeds 3810 the fiducial mark "bθ" at the beginning of the URL ("here") and the fiducial mark "eθ"at the end of the URL, to indicate the hotspot with identifier "θ." Since the b, e, and digit characters are shown as spaces, the user sees little or no change in the appearance of the document. In addition, the plug-in 3720 creates a symbolic hotspot description 3725 indicating these marks, as shown in Figure 41. The symbolic hotspot description 3725 identifies the hotspot number as zero 4120, which corresponds to the 0 in the "bθ" and "eθ" fiducial markers. In this example, the symbolic hotspot description 3725 is stored, e.g., to data store 3750. The plug-in 3720 returns a "marked-up" version of the HTML 3950 to the browser 3715, as shown in Figure 39B. The marked-up HTML 3950 surrounds the fiducial marks with span tags 3960 that change the font to 1-point MMR Courier New. Since the b, e, and digit characters are shown as spaces, the user sees little or no change in the appearance of the document. The marked-up HTML 3950 is an example of a modified file 3730. This example uses a single page model for simplicity, however, multiple page models use the same parameters. For example, if a hotspot spans a page boundary, it would have fiducial marks corresponding to each page location, the hotspot identifier for each is the same. Next, in response to a print command, coordinates corresponding the printed representation and the hot spot are captured 3820. In one embodiment, a capture module 3735 "taps" text and drawing commands within a print command. The capture module 3735 executes all the text and drawing commands and, in addition, intercepts and records the x-y coordinates and other characteristics of every character and/or image in the printed representation. In this example, the capture module 3735 references the Device Context (DC) for the printed representation, which is a handle to the structure of the printed representation that defines the attributes of text and/or images to be output dependent upon the output format (i.e., printer, window, file format, memory buffer, etc.) . In the process of capturing 3820 the coordinates for the printed representation, the hotspots are easily identified using the embedded fiducial marks in the HTML. For example, when the begin mark is encountered, the x-y location if recorded of all characters until the end mark is found.
According to one embodiment, the capture module 3735 is a forwarding DLL, referred to herein as "Printcapture DLL," which allows addition or modification of the functionality of an existing DLL. Forwarding DLLs appear to the client exactly as the original DLL, however, additional code (a "tap") is added to some or all of the functions before the call is forwarded to the target (original) DLL. In this example, the Printcapture DLL is a forwarding DLL for the Windows Graphics Device Interface (Windows GDI) DLL gdi32.dll. gdi32.dll has over 600 exported functions, all of which need to be forwarded. The Printcapture DLL, referenced herein as gdi32_mmr.dll, allows the client to capture printouts from any Windows application that uses the DLL gdi32.dll for drawing, and it only needs to execute on the local computer, even if printing to a remote server. According to one embodiment, gdi32_mmr.dll is renamed as gdi32.dll and copied into C:\Windows\system32, causing it to monitor printing from nearly every Windows application. According to another embodiment, gdi32_mmr.dll is named gdi32.dll and copied it into the home directory of the application for which printing is monitored. For example, C:\Program FilesMnternet Explorer for monitoring Internet Explorer on Windows XP. In this example, only this application (e.g., Internet Explorer) will automatically call the functions in the Printcapture DLL. Figure 44 illustrates a flowchart of the process used by a forwarding DLL in accordance with one embodiment of the present invention. The Printcapture DLL gdi32_mmr.dll first receives 4405 a function call directed to gdi32.dll. In one embodiment, gdi32_mmr.dll receives all function calls directed to gdi32.dll. gdi32.dll monitors approximately 200 of about 600 total function calls, which are for functions that affect the appearance of a printed page in some way. Thus, the Printcapture DLL next determines 4410 whether the received call is a monitored function call. If the received call is not a monitored function call, the call bypasses steps 4415 through 4435, and is forwarded 4440 to gdi32.dll.
If it is a monitored function call, the method next determines 4415 whether the function call specifies a "new" printer device context (DC) , i.e., a printer DC that has not been previously received. This is determined by checking the printer DC against an internal DC table. A DC encapsulates a target for drawing (which could be a printer, a memory buffer, etc.), as previously noted, as well as drawing settings like font, color, etc. All drawing operations (e.g., LineTo ( ) , DrawText ( ) , etc) are performed upon a DC. If the printer DC is not new, then a memory buffer already exists that corresponds with the printer DC, and step 4420 is skipped. If the printer DC is new, a memory buffer DC is created 4420 that corresponds with the new printer DC. This memory buffer DC mirrors the appearance of the printed page, and in this example is equivalent to the printed representation referenced above. Thus, when a printer DC is added to the internal DC table, a memory buffer DC (and memory buffer) of the same dimensions is created and associated with the printer DC in the internal DC table. gdi32_mmr.dll next determines 4425 whether the call is a text-related function call. Approximately 12 of the 200 monitored gdi32.dll calls are text-related. If it is not, step 4430 is skipped. If the function call is text-related, the text-related output is written 4430 to an xml file, referred to herein as page_desc.xml 3740, as shown in Figure 37A. page_desc. xml 3740 is stored, e.g., in data store 3750.
Figures 42A and 42B show an example page_desc.xml 3740 for the HTML file 3910 example discussed in reference to Figures 39A and 4OA. The page_desc.xml 3740 includes coordinate information for all printed text by word 4210 (e.g., Get) , by x, y, width, and height, and by character 4220 (e.g., G). All coordinates are in dots, which are the printer equivalent of pixels, relative to the upper-left-corner of the page, unless otherwise noted. The page_desc.xml 3740 also includes the hotspot information, such as the beginning mark 4230 and the ending mark 4240, in the form of a "sequence." For a hotspot that spans a page boundary (e.g., of page N to page N+l) , it shows up on both pages (N and N+l) ; the hotspot identifier in both cases is the same. In addition, other important information is included in page_desc.xml 3740, such as the printer port name 4250, which can have a significant effect on the . xml and .jpeg files produced, the browser 3715 (or application) name 4260, and the date and time of printing 4270, as well as dots per inch (dpi) and resolution (res) for the page 4280 and the printable region 4290. Referring again to Figure 44, following the determination that the call is not text related, or following writing 4430 the text-related output to page_desc. xml 3740, gdi32_mmr. dll executes 4435 the function call on the memory buffer for the DC. This step 4435 provides for the output to the printer to also get output to a memory buffer on the local computer. Then, when the page is incremented, the contents of the memory buffer are compressed and written out in JPEG and PNG format. The function call then is forwarded 4440 to gdi32.dll, which executes it as it normally would. Referring again to Figure 38, a page layout is rendered 3830 comprising the printed representation including the hot spot. In one embodiment, the rendering 3830 includes printing the document. Figure 4OB illustrates an example of a printed version 4011 of the HTML file 3910 of Figures 39A and 4OA. Note that the fiducial marks are not visibly perceptible to the end user. The rendered layout is saved, e.g., to data store 3750. According to one embodiment, the Printcapture DLL merges the data in the symbolic hotspot description 3725 and the page_desc.xml 3740, e.g., as shown in Figures 42A-B, into a hotspot. xml 3745, as shown in Figure 43. In this example, hotspot. xml 3745 is created when the document is printed. The example in Figure 43 shows that hotspot 0 occurs at x=1303, y=350 and is 190 pixels wide and 71 pixels high. The content of the hotspot is also shown, i.e., http://www.ricoh.com. According to an alternate embodiment of capture module 3820, a filter in a Microsoft XPS (XML print specification) print driver, commonly known as an "XPSDrv filter, " receives text drawing commands and creates the page_desc. xml file as described above. Visibly Perceptible Hotspots
Figure 45 illustrates a flowchart of a method of transforming characters corresponding to a hotspot in a document in accordance with one embodiment of the present invention. The method modifies printed documents in a way that indicates to both the end user and MMR recognition software that a hot spot is present.
Initially, an electronic document to be printed is received 4510 as a character stream. For example, the document may be received 4510 at a printer driver or at a software module capable of filtering the character stream. In one embodiment, the document is received 4510 at a browser 3715 from source files 3710. Figure 46 illustrates an example of an electronic version of a document 4610 according to one embodiment of the present invention. The document 4610 in this example has two hotspots, one associated with "are listed below" and one associated with "possible prior art." The hotspots are not visibly perceptible by the end user according to one embodiment. The hotspots may be established via the coordinate capture method described in reference to Figure 38, or according to any of the other methods described herein.
The document is parsed 4520 for a begin mark, indicating the beginning of a hotspot. The begin mark may be a fiducial mark as previously described, or any other individually distinguishable mark that identifies a hotspot. Once a beginning mark is found, a transformation rule is applied 4530 to a portion of the document, i.e., the characters following the beginning mark, until an end mark is found. The transformation rule causes a visible modification of the portion of the document corresponding to the hotspot according to one embodiment, for example by modifying the character font or color. In this example, the original font, e.g., Times New Roman, may be converted to a different known font, e.g., OCR-A. In another example, the text is rendered in a different font color, e.g., blue #F86A. The process of transforming the font is similar to the process described above according to one embodiment. For example, if the document 4610 is an HTML file, when the fiducial marks are encountered in the document 4510 the font is substituted in the HTML file.
According to one embodiment, the transformation step is accomplished by a plug-in 3720 to the browser 3715, yielding a modified document 3730. Figure 47 illustrates an example of a printed modified document 4710 according to one embodiment of the present invention. As illustrated, hotspots 4720 and 4730 are visually distinguishable from the remaining text. In particular, hotspot 4720 is visually distinguishable based on its different font, and hotspot 4730 is visually distinguishable based on its different color and underlining.
Next, the document with the transformed portion is rendered 4540 into a page layout, comprising the electronic document and the location of the hot spot within the electronic document. In one embodiment, rendering the document is printing the document. In one embodiment, rendering includes performing feature extraction on the document with the transformed portion, according to any of the methods of so doing described herein. In one embodiment, feature extraction includes, in response to a print command, capturing page coordinates corresponding to the electronic document, according to one embodiment . The electronic document is then parsed for a subset of the coordinates corresponding to the transformed characters. According to one embodiment, the capture module 3735 of Figure 37A performs the feature extraction and/or coordinate capture.
MMR recognition software preprocesses every image using the same transformation rule. First it looks for text that obeys the rule, e.g., it's in OCR-A or blue #F86A, and then it applies its normal recognition algorithm.
This aspect of the present invention is advantageous because it reduces substantially the computational load of MMR recognition software because it uses a very simple image preprocessing routine that eliminates a large amount of the computing overhead. In addition, it improves the accuracy of feature extraction by eliminating the large number of alternative solutions that might apply from selection, e.g., if a bounding box over a portion of the document, e.g. , as discussed in reference to Figures 51A-D. In addition, the visible modification of the text indicates to the end user which text (or other document objects) are part of a hot spot. Shared Document Annotation
Figure 48 illustrates a flowchart of a method of shared document annotation in accordance with one embodiment of the present invention. The method enables users to annotate documents in a shared environment. In the embodiment described below, the shared environment is a web page being viewed by various users; however, the shared environment can be any environment in which resources are shared, such as a workgroup, according to other embodiments.
According to the method, a source document is displayed 4810 in a browser, e.g., browser 3715. In one embodiment, the source document is received from source files 3710; in another embodiment, the source document is a web page received via a network, e.g. , Internet connection. Using the web page example, Figure 49A illustrates a sample source web page 4910 in a browser according to one embodiment of the present invention. In this example, the web page 4910 is an HTML file for a game related to a popular children's book character, the Jerry Butter Game. Upon display 4810 of the source document, a shared annotation and a designation of a portion of the source document associated with the shared annotation associated with the source document are received 4820. A single annotation is used in this example for clarity of description, however multiple annotations are possible. In this example, the annotations are data or interactions used in MMR as discussed herein. The annotations are stored at, and received by retrieval from, a Shared Documentation Annotation server (SDA server) , e.g., 3755 as shown in Figure 37A, according to one embodiment. The SDA server 3755 is accessible via a network connection in one embodiment. A plug-in for retrieval of the shared annotations facilitates this ability in this example, e.g., plug-in 3720 as shown in Figure 37A. According to another embodiment, the annotations and designations are received from a user. A user may create a shared annotation for a document that does not have any annotations, or may add to or modify existing shared annotations to a document. For example, the user may highlight a portion of the source document, designating it for association with a shared annotation, also provided by the user via various methods described herein. Next, a modified document is displayed 4830 in the browser. The modified document includes a hotspot corresponding to the portion of the source document designated in step 4820. The hotspot specifies the location for the shared annotation. The modified document is part of the modified files 3730 created by plug-in 3720 and returned to browser 3715 according to one embodiment. Figure 49B illustrates a sample modified web page 4920 in a browser according to one embodiment of the present invention. The web page 4920 shows a designation for a hotspot 4930 and the associated annotation 4940, which is a video clip in this example. The designation 4930 may be visually distinguished from the remaining web page 4920 text, e.g., by highlighting. According to one embodiment, the annotation 4940 displays when the designation 4930 is clicked on or moused over. In response to a print command, text coordinates corresponding to a printed representation of the modified document and the hotspot are captured 4840. The details of coordinate capture are according to any of the methods for that purpose described herein.
Then, a page layout of the printed representation including the hot spot is rendered 4850. According to one embodiment, the rendering 4850 is printing the document. Figure 49C illustrates a sample printed web page 4950 according to one embodiment of the present invention. The printed web page layout 4950 includes the hotspot 4930 as designated, however the line breaks in the print layout 4950 differ from the web page 4920. The hotspot 4930 boundaries are not visible on the printed layout 4950 in this example.
In an optional final step, the shared annotations are stored locally, e.g. , in data storage 3750, and are indexed using their associations with the hotspots 4930 in the printed document 4950. The printed representation also may be saved locally. In one embodiment, the act of printing triggers the downloading and creation of the local copy.
Hotspots for Imaged Documents Figure 5OA illustrates a flowchart of a method of adding a hotspot to an imaged document in accordance with one embodiment of the present invention. The method allows hotspots to be added to a paper document after it is scanned, or to a symbolic electronic document after it is rendered for printing. First, a source document is converted 5010 to an imaged document. The source document is received at a browser 3715 from source files 3710 according to one embodiment. The conversion 5010 is by any method that produces a document upon which a feature extraction can be performed, to produce a feature representation. According to one embodiment, a paper document is scanned to become an imaged document. According to another embodiment, a renderable page proof for an electronic document is rendered using an appropriate application. For example, if the renderable page proof is in a PostScript format, Ghostscript is used. Figure 51A illustrates an example of a user interface 5105 showing a portion of a newspaper page 5110 that has been scanned according to one embodiment. A main window 5115 shows an enlarged portion of the newspaper page 5110, and a thumbnail 5120 shows which portion of the page is being displayed. Next, feature extraction is applied 5020 to the imaged document to create a feature representation. Any of the various feature extraction methods described herein may be used for this purpose. The feature extraction is performed by the capture module 3735 described in reference to Figure 37A according to one embodiment. Then one or more hotspots 5125 is added 5030 to the imaged document. The hotspot may be pre-defined or may need to be defined according to various embodiments. If the hotspot is already defined, the definition includes a page number, the coordinate location of the bounding box for the hot spot on the page, and the electronic data or interaction attached to the hot spot. In one embodiment, the hotspot definition takes the form of a hotspot. xml file, as illustrated in Figure 43.
If the hotspot is not defined, the end user may define the hotspot. Figure 5OB illustrates a flowchart of a method of defining a hotspot for addition to an imaged document in accordance with one embodiment of the present invention. First, a candidate hotspot is selected 5032. For example, in Figure 51A, the end user has selected a portion of the document as a hotspot using a bounding box 5125. Next, for a given database, it is determined in optional step 5034 whether the hotspot is unique. For example, there should be enough text in the surrounding n" x n" patch to uniquely identify the hot spot. An example of a typical value for n is 2. If the hotspot is not sufficiently unique for the database, the end user is presented with options in one embodiment regarding how to deal with an ambiguity. For example, a user interface may provide alternatives such as selecting a larger area or accepting the ambiguity but adding a description of it to the database. Other embodiments may use other methods of defining a hotspot. Once the hotspot location is selected 5032, data or an interaction is defined 5036 and attached to the hotspot. Figure 51B illustrates a user interface for defining the data or interaction to associate with a selected hotspot. For example, once the user has selected the bounding box 5125, an edit box 5130 is displayed. Using associated buttons, the user may cancel 5135 the operation, simply save 5140 the bounding box 5125, or assign 5145 data or interactions to the hotspot. If the user selects to assign data or interactions to the hotspot, an assign box 5150 is displayed, as shown in Figure 51C. The assign box 5150 allows the end user to assign images 5155, various other media 5160, and web links 5165 to the hotspot, which is identified by an ID number 5170. The user then can select to save 5175 the hotspot definition. Although a single hotspot has been described for simplicity, multiple hotspots are possible. Figure 51D illustrates a user interface for displaying hotspots 5125 within a document. In one embodiment, different color bounding boxes correspond to different data and interaction types.
In an optional step, the imaged document, hot spot definition, and the feature representation are stored 5040 together, e.g., in data store 3750.
Figure 52 illustrates a method 5200 of using an MMR document 500 and the MMR system 100b in accordance with an embodiment of the present invention.
The method 5200 begins by acquiring 5210 a first document or a representation of the first document. Example methods of acquiring the first document include the following:
(1) the first document is acquired by capturing automatically, via PD capture module 318, the text layout of a printed document within the operating system of MMR computer 112; (2) the first document is acquired by capturing automatically the text layout of a printed document within printer driver 316 of MMR computer 112; (3) the first document is acquired by scanning a paper document via a standard document scanner device 127 that is connected to, for example, MMR computer 112; and (4) the first document is acquired by transferring, uploading or downloading, automatically or manually, a file that is a representation of the printed document to the MMR computer 112. While the acquiring step has been described as acquiring most or all of the printed document, it should be understood that the acquiring step 5210 could be performed for only the smallest portion of a printed document. Furthermore, while the method is described in terms of acquiring a single document, this step may be performed to acquire a number of documents and create a library of first documents. Once the acquiring step 5210 is performed, the method
5200 performs 5212 an indexing operation on the first document. The indexing operation allows identification of the corresponding electronic representation of the document and associated second media types for input that matches the acquired first document or portions thereof. In one embodiment of this step, a document indexing operation is performed by the PD capture module 318 that generates the PD index 322. Example indexing operations include the following: (1) the x-y locations of characters of a printed document are indexed; (2) the x-y locations of words of a printed document are indexed; (3) the x-y locations of an image or a portion of an image in a printed document are indexed; (4) an OCR imaging operation is performed, and the x-y locations of characters and/or words are indexed accordingly; (4) feature extraction from the image of the rendered page is performed, and the x-y locations of the features are indexed; and (5) the feature extraction on the symbolic version of a page are simulated, and the x-y locations of the features are indexed. The indexing operation 5212 may include any of the above or groups of the above indexing operations depending on application of the present invention. The method 5200 also acquires 5214 a second document.
In this step 5214, the second document acquired can be the entire document or just a portion (patch) of the second document. Example methods of acquiring the second document include the following: (1) scanning a patch of text, by means of one or more capture mechanisms 230 of capture device 106; (2) scanning a patch of text by means of one or more capture mechanisms 230 of capture device 106 and, subsequently, preprocessing the image to determine the likelihood that the intended feature description will be extracted correctly. For example, if the index is based on OCR, the system might determine whether the image contains lines of text and whether the image sharpness is sufficient for a successful OCR operation. If this determination fails, another patch of text is scanned; (3) scanning a machine-readable identifier (e.g., international standard book number (ISBN) or universal produce code (UPC) code) that identifies the document that is scanned; (4) inputting data that identifies a document or a set of documents (e.g., 2003 editions of Sports Illustrated magazine) that is requested and, subsequently, a patch of text is scanned by use of items (1) or (2) of this method step; (5) receiving email with a second document attached; (6) receiving a second document by file transfer; (7) scanning a portion of an image with one or more capture mechanisms 230 of capture device 106; and (9) inputting the second document with an input device 166.
Once the steps 5210 and 5214 have been performed, the method performs 5216 document or pattern matching between the first document and the second document. In one embodiment, this is done by performing document fingerprint matching of the second document to the first document. A document fingerprint matching operation is performed on the second media document by querying PD index 322. An example of document fingerprint matching is extracting features from the image captured in step 5214, composing descriptors from those features, and looking up the document and patch that contains a percentage of those descriptors. It should be understood that this pattern matching step may be performed a plurality of times, once for each document where the database stores numerous documents to determine if any documents in a library or database match the second document. Alternatively, the indexing step 5212 adds the document 5210 to an index that represents a collection of documents and the pattern matching step is performed once. Finally, the method 5200 executes 5218 an action based on result of step 5216 and on optionally based on user input. In one embodiment, the method 5200 looks up a predetermined action that is associated with the given document patch, as for example, stored in the second media 504 associated with the hotspot 506 found as matching in step 5216. Examples of predetermined actions include: (1) retrieving information from the document event database 320, the Internet, or elsewhere; (2) writing information to a location verified by the MMR system 100b that is ready to receive the system's output; (3) looking up information; (4) displaying information on a client device, such as capture device 106, and conducting an interactive dialog with a user; (5) queuing up the action and the data that is determined in method step 5216, for later execution (the user's participation may be optional) ; and (6) executing immediately the action and the data that is determined in method step 5216. Example results of this method step include the retrieval of information, a modified document, the execution of some other action (e.g., purchase of stock or of a product) , or the input of a command sent to a cable TV box, such as set-top box 126, that is linked to the cable TV server (e.g., service provider server 122) , which streams video back to the cable TV box. Once step 5218 has been done, the method 5200 is complete and ends.
Figure 53 illustrates a block diagram of an example set of business entities 5300 that are associated with MMR system 100b, in accordance with an embodiment of the present invention. The set of business entities 5300 comprise an MMR service provider 5310, an MMR consumer 5312, a multimedia company 5314, a printer user 5316, a cell phone service provider 5318, a hardware manufacturer 5320, a hardware retailer 5322, a financial institution 5324, a credit card processor 5326, a document publisher 5328, a document printer 5330, a fulfillment house 5332, a cable TV provider 5334, a service provider 5336, a software provider 5338, an advertising company 5340, and a business network 5370.
MMR service provider 5310 is the owner and/or administrator of an MMR system 100 as described with reference to Figures IA through 5 and 52. MMR consumer 5312 is representative of any MMR user 110, as previously described with reference to Figure IB.
Multimedia company 5314 is any provider of digital multimedia products, such as Blockbuster Inc. (Dallas, TX) , that provides digital movies and video games and Sony Corporation of America (New York, NY) that provides digital music, movies, and TV shows.
Printer user 5316 is any individual or entity that utilizes any printer of any kind in order to produce a printed paper document. For example, MMR consumer 5312 may be printer user 5316 or document printer 5330. Cell phone service provider 5318 is any cell phone service provider, such as Verizon Wireless (Bedminster, NJ) , Cingular Wireless (Atlanta, GA), T-Mobile USA (Bellevue, WA), and Sprint Nextel (Reston, VA) .
Hardware manufacturer 5320 is any manufacturer of hardware devices, such as manufacturers of printers, cellular phones, or PDAs. Example hardware manufacturers include Hewlett-Packard (Houston, TX) , Motorola, Inc, (Schaumburg, IL) , and Sony Corporation of America (New York, NY) . Hardware retailer 5322 is any retailer of hardware devices, such as retailers of printers, cellular phones, or PDAs. Example hardware retailers include, but are not limited to, RadioShack Corporation (Fort Worth, TX), Circuit City Stores, Inc. (Richmond, VA), Wal-Mart (Bentonville, AR), and Best Buy Co. (Richfield, MN).
Financial institution 5324 is any financial institution, such as any bank or credit union, for handling bank accounts and the transfer of funds to and from other banking or financial institutions. Credit card processor 5326 is any credit card institution that manages the credit card authentication and approval process for a purchase transaction. Example credit card processors include, but are not limited to, ClickBank, which is a service of Click Sales Inc, (Boise ID), Sharelt ! Inc. (Eden Prairie, MN), and CCNow Inc. (Eden Prairie, MN).
Document publisher 5328 is any document publishing company, such as, but not limited to, The Gregath Publishing Company (Wyandotte, OK) , Prentice Hall (Upper Saddle River, NJ) , and Pelican Publishing Company (Gretna, LA) . Document printer 5330 is any document printing company, such as, but not limited to, PSPrint LLC (Oakland CA) , PrintLizard, Inc., (Buffalo, NY), and Mimeo, Inc. (New York, NY) . In another example, document publisher 5328 and/or document printer 5330 is any entity that produces and distributes newspapers or magazines.
Fulfillment house 5332 is any third-party logistics warehouse that specializes in the fulfillment of orders, as is well known. Example fulfillment houses include, but are not limited to, Corporate Disk Company (McHenry, IL) , OrderMotion, Inc. (New York, NY), and Shipwire.com (Los Angeles, CA).
Cable TV provider 5334 is any cable TV service provider, such as, but not limited to, Comcast Corporation (Philadelphia, PA) and Adelphia Communications (Greenwood Village, CO) . Service provider 5336 is representative of any entity that provides a service of any kind.
Software provider 5338 is any software development company, such as, but not limited to, Art & Logic, Inc. (Pasadena, CA) , Jigsaw Data Corp. (San Mateo, CA) , DataMirror Corporation (New York, NY) , and DataBank IMX, LCC (Beltsville, MD) .
Advertising company 5340 is any advertising company or agency, such as, but not limited to, D and B Marketing (Elhurst, IL) , BlackSheep Marketing (Boston, MA) , and Gotham Direct, Inc. (New York, NY) . Business network 5370 is representative of any mechanism by which a business relationship is established and/or facilitated.
Figure 54 illustrates a method 5400, which is a generalized business method that is facilitated by use of MMR system 100b, in accordance with an embodiment of the present invention. Method 5400 includes the steps of: establishing relationship between at least two entities, determining possible business transactions; executing at least one business transaction and delivering product or service for the transaction. First, a relationship is established 5410 between at least two business entities 5300. The business entities 5300 may be aligned within, for example, four broad categories, such as (1) MMR creators, (2) MMR distributors, (3) MMR users, and (4) others, and within which some business entities fall into more than one category. According to this example, business entities 5300 are categorized as follows:
• MMR creators - MMR service provider 5310, multimedia company 5314, document publisher 5328, document printer 5330, software provider 5338 and advertising company 5340; • MMR distributors - MMR service provider 5310, multimedia company 5314, cell phone service provider 5318, hardware manufacturer 5320, hardware retailer 5322, document publisher 5328, document printer 5330, fulfillment house 5332, cable TV provider 5334, service provider 5336 and advertising company 5340; • MMR users - MMR consumer 5312, printer user 5316 and document printer 5330; and
• Others - financial institution 5324 and credit card processor 5326. For example in this method step, a business relationship is established between MMR service provider 5310, which is an MMR creator, and MMR consumer 5312, which is an MMR user, and cell phone service provider 5318 and hardware retailer 5322, which are MMR distributors. Furthermore, hardware manufacturer 5320 has a business relationship with hardware retailer 5322, both of which are MMR distributors.
Next, the method 5400 determines 5412 possible business transactions between the parties with relationships established in step 5410. In particular, a variety of transactions may occur between any two or more business entities 5300. Example transactions include: purchasing information; purchasing physical merchandise; purchasing services; purchasing bandwidth; purchasing electronic storage; purchasing advertisements; purchasing advertisement statistics; shipping merchandise; selling information; selling physical merchandise; selling services, selling bandwidth; selling electronic storage; selling advertisements; selling advertisement statistics; renting/leasing; and collecting opinions/ratings/voting.
Once the method 5400 has determined possible business transactions between the parties, the MMR system 100 is used to reach 5414 agreement on at least one business transaction. In particular, a variety of actions may occur between any two or more business entities 5300 that are the result of a transaction. Example actions include: purchasing information; receiving an order; clicking-through, for more information; creating ad space; providing local/remote access; hosting; shipping; creating business relationships; storing private information; passing-through information to others; adding content; and podcasting. Once the method 5400 has reached agreement on the business transaction, the MMR system 100 is used to deliver 5416 products or services for the transaction, for example, to the MMR consumer 5312. In particular, a variety of content may be exchanged between any two or more business entities 5300, as a result of the business transaction agreed to in method step 5414. Example content includes: text; web link; software; still photos; video; audio; and any combination of the above. Additionally, a variety of delivery mechanisms may be utilized between any two or more business entities 5300, in order to facilitate the transaction. Example delivery mechanisms include: paper; personal computer; networked computer; capture device 106; personal video device; personal audio device; and any combination of the above.
In addition to the invention as claimed and described in the above-mentioned embodiments, the following embodiments are disclosed.
Fig. 55 illustrates a method for accessing a mixed media document, according to one embodiment of the present invention. A first document is acquired 5510. For example, the first document can be acquired 5510 by capturing a representation of the first documents using any one of the capture mechanisms 230 described herein with reference to Fig. 2E. According to various embodiments, the first document can be acquired 5510 in its entirety, or a portion of the first document can be acquired 5510. The first document can be acquired using any of the methods for acquiring 5214 a document described herein with reference to Fig. 52.
A second document is retrieved 5512. For example, the second document can be retrieved 5512 from a central repository. According to one embodiment of the present invention, the second document is an MMR document such as the MMR document 500 described herein with reference to Fig. 5. The second document can be retrieved 5512 based on the first document and an index, such as the PD index 322.
The first and second documents are compared 5514. Comparing 5514 the first and second document can include, for example, analyzing the first and second documents to determine if they are sufficiently similar. In one embodiment, this is done by performing document fingerprint matching the second document to the first document.
It should be appreciated that in some embodiments, retrieving 5512 a second document and comparing 5514 the first and second documents can be combined into a document matching step . For example, a document fingerprint matching operation can be performed on the first document by querying PD index 322. As another example, a document fingerprint matching operation can be performed on the first document by querying an MMR index 3404 of an MMR database 3400. An example of document fingerprint matching is extracting features from the image captured in step 5510, composing descriptors from those features, and looking up the document and patch that contains a percentage of those descriptors. The matching document can then be retrieved 5512. It should be understood that this pattern matching step may be performed a plurality of times, once for each document where the database stores numerous documents to determine if any documents in a library or database match the first document.
An action is performed 5516 based on the comparison. The action that is performed 5516 can depend on the results of the comparison. For example, in one embodiment, a first action is performed 5516 if the comparison 5514 indicates the documents match, and a second action is performed 5516 if the comparison 5514 indicates the documents do not match. In another embodiment, the action that is performed 5516 can depend on which second document matches the first document. For example, a second document can be associated with a predetermined action, and the predetermined action can be performed 5516. Furthermore, the action performed 5516 can be responsive to a user selection. Examples of various types of actions that can be performed, according to various embodiments of the present invention, are described herein with reference to Figs. 56 (a) -56 (c).
Fig. 56 (a) illustrates a first example of a method for accessing an MMR document. A document 5604 is acquired 5510. A document 5614 is retrieved 5512 from a central repository 5610. In one embodiment, the central repository 5610 is a document event database 320. In another embodiment, the central repository 5610 is an MMR database 3400. In yet another embodiment, the central repository 5610 can be implemented as any database capable of storing electronic representations of documents. In the example illustrated, an action or media 5618 is associated with the document 5614. For example, the document 5614 can be implemented as an MMR document 500, and the document 5614 can include an action or second media 504.
The document 5604 and the document 5614 are compared 5514. In one embodiment, based on the comparison, the action 5618 associated with the document 5614 is performed 5620. In another embodiment, based on the comparison, the media 5618 associated with the document 5614 is displayed 5620.
Performing an action based on a comparison of a first and second document beneficially allows printed documents to contain an additional dimension of information. For example, document 5604 could be a portion of a tourist travel book. Given the rapidly developing economies of many tourist destinations, travel books are often out-of-date at the moment they arrive on store shelves. A user can employ the MMR system to obtain supplemental information associated with the travel book, or with a specific portion of the travel book (for example, a particular article) .
A section of the travel book is acquired 5510, for example, by a camera integrated with the user's cell phone. An MMR document 5614 with a fingerprint matching the section of interest is retrieved 5512 and compared 5514. The MMR document 5614 contains supplemental information 5618 regarding the acquired 5510 portion of the travel book. For example, the supplemental information 5618 could be an updated electronic representation of the article, a health advisory regarding a particular region, or an advertisement. This supplemental information 5618 is displayed 5620 to the user. Advantageously, updated or additional information is available to the user. The supplemental information can be implemented as any kind of media file. Performing an action based on a comparison of a first and second document can be used to display a media file associated with a paper document. For example, document 5604 could be a page of a sports magazine. An MMR document 5614 with a fingerprint matching the document 5604 is retrieved 5512 and compared 5514. The document 5614 contains media 5618 relating to the sports stories on the acquired 5510 page of the magazine, for example, a video clip of the game-winning goal that the article is describing. The media 5618 is displayed 5620 to the user. Advantageously, a media file associated with the paper document is available to the user.
The supplemental information can also be user-specific. Performing an action based on a comparison of a first and second document can include retrieving and displaying user-specific information. For example, the document 5604 could be a newspaper article about a publicly-traded company. An MMR document 5614 with a fingerprint matching the document 5604 is retrieved 5512 and compared 5514. The document 5614 contains metadata 5618 identifying the subject of the article. User-specific information is retrieved, for example, based on the metadata 5618. For example, the user' s stock holding information related to the company mentioned in the article can be retrieved from an online brokerage firm. The user-specific information is displayed to the user. Advantageously, user-specific information related to the paper document is available to the user.
Fig. 56 (b) illustrates a second example of a method for accessing an MMR document. A document 5604 is acquired 5510, and a document 5614 is retrieved 5512 from a central repository 5610. The document 5604 and the document 5614 are compared 5514, and user input 5628 is received. Responsive to the comparison 5514 and user input 5628, an action is performed 5630.
In one embodiment, the document 5614 is an MMR document 500. The MMR document can include a plurality of second media 504. The plurality of second media 504 are presented to a user for selection, and the user input 5628 indicates a desired second media 504. For example, the second media 504 can be an audio file, a video file, a text file, or an application file, and so on. The selected second media 504 is displayed 5630. As another example, the MMR document can include a plurality of associated actions 504. For example, an associated action can be retrieving information, writing information to a location, performing a search for information, displaying information on a client device, conducting an interactive dialog, deferring action for later execution, modifying a document, purchase of a product, and input of a command to another system. The plurality of associated actions 504 are presented to a user for selection, and the user input 5628 indicates a desired associated action 504. The selected associated action 504 is performed 5630. As yet another example, the MMR document can include a combination of second media and associated actions 504, and the user input 5628 can indicate whether a second media should be displayed 5630 or an associated action should be performed 5630. By receiving user input 5628, the action performed 5630 can advantageously be tailored to the desires of a user. In another embodiment, the document 5614 is an MMR document 500 including a plurality of hotspots 506 (i.e. locations within the document 5604) . The user input 5628 can indicate a desired hotspot 506. In some cases, the desired hotspot 506 can in turn be associated with a plurality of actions and/or second media 504, and the user input 5628 can further indicate which actions are to be performed and/or which media is to be displayed. Advantageously, by receiving user input 5628, a particular hotspot can selected by the user, and the action performed 5630 can be further tailored to the desires of the user. Fig. 56 (c) illustrates a third example of a method for accessing an MMR document. A document 5604 is acquired 5510, and a document 5614 is retrieved 5512 from a central repository 5610. The document 5604 and the document 5614 are compared 5514. The document 5604 can be, for example, a paper document with which a user would like to associate a media file.
Media 5624 is acquired 5622. Media 5624 can be, for example, a video file, an audio file, or an application file (e.g. spreadsheet or word processing document, etc. ) . Other examples of media 5624 will be apparent to one of skill in the art without departing from the scope of the present invention. Media can be acquired 5622 from, for example, a camera, a microphone, a network, a computer readable medium, and so on.
The media 5624 is associated 5626 with the document 5614. For example, the media 5624 is stored in such a way that it will be accessible based on future accesses to the document 5614. According to one embodiment of the present invention, the media 5624 is stored in the central repository 5610. According to another embodiment of the present invention, the media 5624 is stored separately from the document 5614. In one embodiment, the document 5614 is an MMR document 500, and the media 5624 is stored as a second media 504. The media 5624 can be associated with one or more hotspots of the document 5614. In one embodiment, user input is received 5625. User input 5625 can indicate, for example, which hotspot to associate the media 5624 with. As another example, document 5614 can include various entities, and user input 5625 can indicate which entity to associate the media 5624 with. The entities available for user selection can be obtained, for example, from a print driver during normal printing operations. Various exemplary methods for obtaining entities from a print driver are described in figures 37-43 and the accompanying description herein.
Associating media with an MMR document beneficially allows a user to supplement a paper document. For example, a user preparing for a trip can take a paper document, advantageous for its portability and low replacement cost, and update an electronic version of the document with supplemental content from a mobile platform (such as a cell phone) .
Retrieving an MMR document based on an acquired representation of a paper document advantageously introduces additional dimensions to paper documents. An additional dimension can be thought of as extra document space in which content or advertisements can be provided. For example, a newspaper advertisement for a new movie could "link" to reviews of the movie, meaning that the result of the acquisition of the newspaper advertisement will be the display of supplemental information, such as reviews. As another example, a review of a movie in a magazine could link to advertisements for movie theatres. Content can link to other content, and ads can link to other ads. Retrieving a specific MMR document can result in a credit or payment to a user (for example, in exchange for viewing an advertisement) , or can result in a debit or charge to the user
(for example, in exchange for viewing premium content) . Thus the various methods of the present invention can be beneficial for an advertiser, a content provider, a user, and so on.
In one embodiment, an MMR document is retrieved based on recognition of a paper document. A representation of the paper document is acquired and compared to a fingerprint of the MMR document. The matching MMR document can include media, or can be associated with a particular action. Responsive to the comparison of the paper document and the virtual multimedia document, an action is performed. For example, the media of the matching MMR document can be displayed, or the action associated with the matching MMR document can be performed. Retrieving an MMR document based on recognition of a paper document advantageously allows a user of the paper document to benefit from information supplemental to the paper document. Furthermore, retrieving a virtual multimedia document based on recognition of a paper document advantageously allows a user of the paper document to modify or add content to the virtual multimedia document.
In one embodiment data from the MMR document is combined with user-specific information to provide personalized information to the user. In another embodiment, user input is solicited to determine which of the plurality of actions associated with the MMR document is to be performed.
In one embodiment, an MMR document is retrieved based on recognition of a paper document. Responsive to the comparison of the paper document and the virtual multimedia document, an action is performed. For example, the media of the matching MMR document can be displayed, or an action associated with the matching MMR document can be performed.
Another embodiment is described in the following. Fig. 57 illustrates a method for accessing a mixed media document, according to one embodiment of the present invention.
A first document is acquired 5710. For example, the first document can be acquired 5710 by capturing a representation of the first document using any one of the capture mechanisms 230 described herein with reference to Fig. 2E. According to various embodiments, the first document can be acquired 5710 in its entirety, or a portion of the first document can be acquired 5710. The first document can be acquired using any of the methods for acquiring 5214 a document described herein with reference to Fig. 52. A second document is retrieved 5712. For example, the second document can be retrieved 5712 from a central repository. According to one embodiment of the present invention, the second document is an MMR document such as the MMR document 500 described herein with reference to Fig. 5. The second document can be retrieved 5712 based on the first document and an index, such as the PD index 322.
The first and second documents are compared 5714. Comparing 5714 the first and second document can include, for example, analyzing the first and second documents to determine if they are sufficiently similar. In one embodiment, this is done by performing document fingerprint matching, which matches the second document to the first document.
It should be appreciated that in some embodiments, retrieving 5712 a second document and comparing 5714 the first and second documents can be combined into a document matching step . For example, a document fingerprint matching operation can be performed on the first document by querying PD index 322. An example of document fingerprint matching is extracting features from the image captured in step 5710, composing descriptors from those features, and looking up the document and patch that contains a percentage of those descriptors. The matching document can then be retrieved 5712. It should be understood that this pattern matching step may be performed a plurality of times, once for each document where the database stores numerous documents to determine if any documents in a library or database match the first document. Actions are displayed 5716 to a user based on the comparison. The actions that are displayed 5716 can depend on the results of the comparison. For example, in one embodiment, a first set of actions is displayed 5716 if the comparison 5714 indicates the documents match, and a second set of actions is displayed 5716 if the comparison 5714 indicates the documents do not match. In another embodiment, the set of actions that is displayed 5716 can depend on which second document matches the first document. For example, a second document can be associated with a predetermined set of actions, and the predetermined set of actions can be displayed 5716. Examples of actions that can be displayed to the user, according to various embodiments, are described herein with reference to Figure 58.
Optionally, a user-selected action can be performed 5718. Responsive to a user selection of one of the actions on the list, the user-selected action can be performed. Examples of actions that can be performed in response to user-selection, according to various embodiments, are described herein with reference to Figure 58. Figure 58 illustrates a user interface for accessing a mixed media document, according to one embodiment of the present invention. Figure 58 illustrates the display of user actions on the display 212 of a capture device 106.
In the example illustrated, a menu 5801 is displayed on the display 212. The menu 5801 includes document information 5802 associated with the retrieved document 5712. For example, the document information 5802 can include the title of the retrieved document 5712. As another example, the document information 5802 can include title, page, author, publication date, ISBN number, or any other information related to the retrieved 5712 or acquired 5710 document or portion thereof. These examples have been provided for the purposes of illustration and are not limiting. Other examples of document information 5802 that can be displayed in the menu 5801 will be apparent to one of skill in the art without departing from the scope of the present invention.
The menu 5801 also includes a plurality of actions 5804. The actions 5804 displayed on the menu 5801 are responsive ' to the comparison 5714 of the acquired 5710 and retrieved documents 5712. For example, if a first document is acquired 5710, a first set of actions 5804 are included in the menu 5801. If a second document is acquired 5712, a second set of actions 5804 are included in the menu 5801. The second set of actions 5804 can include actions not included in the first set of actions 5804. The actions 5804 displayed on the menu 5801 can also depend on the particular region or location of the acquired 5710 document. For example, certain actions 5804 are displayed when a first location (or hotspot) of the document is acquired and other actions 5804 are displayed when a second location (or hotspot) of the same document is acquired. According to one embodiment of the present invention, multiple hotspots within a document are displayed to a user for selection. The actions 5804 associated with the user-selected hotspot are displayed in the menu 5801.
In the example illustrated, the menu 5801 includes an action 5804A for "grabbing" a document. Responsive to a user selection of the grab action, an identifier of the retrieved 5712 document is stored for immediate or later display of the document, either on the capture device 106 or on another device. According to one embodiment of the present invention, responsive to a user selection of the grab action, the retrieved 5712 document is stored on the capture device 106. Storing an identifier of the document, or the document itself, beneficially makes the document available to the user for future reference. A retrieved document can be one of many formats, such as Microsoft Word, Adobe PDF, Microsoft XML Paper Specification (XPS) , Postscript, PCL, and so on.
For example, a user may come across an interesting article while reading a magazine in a dentist's office. The user captures the document, and selects the action to grab the document . The document is recognized, and an identifier of the document is stored on the capture device. The document is available for the user's enjoyment at a later point in time.
In the example illustrated, the menu 5801 includes an action 5804B for scheduling an appointment. For example, a document (or a location in a document) can be associated with an activity occurring at particular date and time (such as a doctor' s appointment, a concert, and so on) . Responsive to a user selection of the schedule action, scheduling information is stored on the capture device 106 or another device. In one embodiment, the capture device 106 includes a digital calendar application, and responsive to the user selection of the schedule action, an appointment for the date and time associated with the document is scheduled on the digital calendar. In another embodiment, a remote server stores appointment data, and responsive to the user selection of the schedule action, appointment data associated with the document is stored on the remote server. In yet another embodiment, another computer device contains a digital calendar application, and responsive to the user selection of the schedule action, an appointment for the date and time associated with the document is scheduled on the digital calendar. For example, an appointment can be scheduled on the user's Microsoft® Outlook calendar. Storing scheduling information beneficially allows convenient and efficient appointment scheduling based on documents .
For example, a user could see an advertisement for a television show that strikes his interest. The user captures the document, and selects the action to schedule an appointment based on the document. Responsive to the user selection, an appointment is added to the user's calendar including the time, date, and description of the event. According to various embodiments, the appointment can also or instead be added to other calendars. For example, a first user can use the schedule feature to "recommend" an event associated with a document to a second user, and the appointment is added to the second user's calendar. As another example, a user can use the schedule feature to add an event to the calendar of an electronic device, such as a Digital Video Recorder (DVR) or online car share service (such as City CarShare or ZipCar) . In the television advertisement example, a recording of the television program is scheduled on the user' s DVR. In doctor's appointment example, a shared car is reserved for a time window surrounding the doctor's appointment.
The appointment data used to schedule the appointment can be obtained in a variety of ways. For example, the appointment data can be associated with the retrieved 5712 document. The appointment data can determined by the Document Parser module 326 as a result of printing the document. As another example, the appointment data can be acquired by performing optical character recognition (OCR) on the acquired 5710 document. The appointment data such as description, time, and date can be parsed from the recognized characters. In one implementation, named entity recognition extracts dates and times from the recognized characters. As yet another example, the appointment data can include a combination of associated and/or retrieved data, and data input from the user. For example, the retrieved document 5712 can be associated with a description of the appointment, and the user can input additional appointment data such as time and date.
In the example illustrated, the menu 5801 includes an action 5804C for making a purchase. For example, a document (or a location in a document) can be associated with a good or service available for sale (such as a document, a media file, a ticket, a magazine subscription, and so on) . Responsive to a user selection of the purchase action, an order for the good or service is placed. A user's account can also be charged responsive to a user selection of the purchase action. In one embodiment, responsive to a user selection of the purchase action, the purchased item is scheduled for delivery. Either immediately or at a later point in time, the purchased item can be transferred to the capture device 106 or to another device. For example, the purchased item can be scheduled for transfer to a video-capable portable device at the next synchronization of the portable device. The purchased item can be a copy (either electronic or physical) of the document itself, an item related to the document, or an item suggested on the basis of the document. For example, the acquired document 5710 can be a review of a new television show, and responsive to the selection of the purchase action, an episode of the show can be purchased and made available for download onto a video-capable portable device. Placing an order for a good or service responsive to the user selection beneficially allows a user to conveniently make purchases using paper-based documents. The purchase action can also be used for payments of goods and services. For example, the acquired 5710 document can be a restaurant receipt, and responsive to the selection of the purchase action, funds are transferred from the user' s account to an account for the restaurant or the restaurant's agent, thus paying the user's debt to the restaurant.
Figure 59 illustrates a method for labeling a media file, according to one embodiment of the present invention. The media file to be labeled can be, for example, an image, audio, video, text, a portable document, a presentation, and so on. The media file can be acquired, for example, from a camera or microphone on the capture device 106, a file transfer from a local or remote location, and so on.
A list of names is captured 5910. For example, a list of names can be captured 5910 from a source file 310. As another example, a list of names can be captured from any document, such as a Word document, a web page, an Excel spreadsheet, a PDF file, a paper document, and so on. The list of names can be captured in a variety of ways . According to one embodiment, a list of names is captured 5910 by the PD capture module 318 or document parser module 326 in response to the printing of the document. According to another embodiment, a list of names is captured 5910 by the event capture module 324 in response to the viewing, copying, editing, etc. of the document. According to yet another embodiment, a list of names is captured 5910 by scanning and performing OCR on a document.
Capturing a list of names can include parsing the source file 310 (or other document) in order to locate "named entities" or other interesting information that may populate a multimedia annotation interface. The named entities are, for example, labels which can be applied to multimedia later. For example, titles, authors, times, or locations can be detected in the document and, thus, a list of names captured 5910.
Referring to Figure 60, a sample source file 310 is illustrated. In the example illustrated, a document or web page is shown including an agenda for a "San Francisco Walking Tour." As shown, the source file 310 includes a plurality of names, such as proper names, times, locations, and so on which can be captured 5910. For example, in response to or as part of the printing of the source file 310, the names "San Francisco", "City Hall", "Rose
Garden", "McAuliff Park", "Bayshore", and "Robin Williams" can be captured, for example, by the PD capture module 318. As another example, the source file 310 can be a web page, and in response to the viewing of the source file 310, the times "9 am", "10 am", "noon", "lpm", and "2 pm" can be captured. Other examples of names that can be captured from a document such as the source document 310 will be apparent to one of skill in the art without departing from the scope of the present invention.
The list of names is displayed 5912 to a user. The list of names can be displayed 5912 on any device, such as an MMR computer 112 or a capture device 106. The device that displays 5912 the list of names may or may not be the same device that captures 5910 the list of names. For example, according to one embodiment of the present invention, the list of names 5910 is captured on a first device and electronically transferred to a second device. The second device displays 5912 the list of names to a user.
Referring to Figure 60, a menu 6001 is displayed on the display 212. The menu 6001 includes a plurality of names 6004 as user options. The names 6004 displayed 5912 to the user include at least a subset of the captured 5910 list of names. In the example illustrated, of the captured 5910 names from the document 310, the names "City Hall", "Robin Williams", "McAuliff Park", "Rose Garden", and "Bayshore" are presented as user options. The displayed 5912 names can also be captured 5910 from a variety of documents. According to one embodiment of the present invention, the order of the displayed 5912 names is different than the order in which the names were captured 5910. The displayed 5912 names can be reordered based on, for example, the frequency with which the names are selected (such as putting more commonly selected names at the top of the list) , the prominence of the name in the document from which the name was captured 5910, the importance or prominence of the document from which the name was captured 5910, and so on. Furthermore, in the case in which more names are captured 5910 than are displayed 5912, similar metrics can be used to determine which names should be displayed 5912.
Displaying 5912 a list of names based on the captured 5910 list of names advantageously presents options to the user that are relevant to the user's activities, for example, based on the documents that the user has recently printed or viewed. Thus a convenient and intelligent user interface is presented.
The menu 6001 can also include a title 6002. For example, the title 6002 can include a description of the media file to be labeled. The title 6002 can indicate the time and/or source from which the media file was acquired, and any previous labels applied to the media file.
A user selects one of the names 6004 displayed 5912 on the menu 6001. Responsive to the user selection, the media file is associated 5914 with the user-selected name. The media file can be associated 5914 with the user-selected name in a variety of ways. For example, a media file can include or more metadata fields, and the user-selected name can be stored in a metadata field. As another example, the user-selected name can be stored separately from the media file, and a pointer or other association can associate the user-selected name with the media file. As another example, the user-selected name can be used as a file name for the media file. As yet another example, the user-selected name can be used as a folder name in which the media file is stored. These examples have been given for the purposes of illustration and are not limiting. Other examples of methods for associating a media file with a user-selected name will be apparent to one of skill in the art without departing from the scope of the present invention.
Referring to Figure 60, an association of a media file with a user-selected name is shown. In the example illustrated, the media file is an image file 6005, storing an image in the form of image data 6008. Responsive to a user-selection, the user-selected name (in this example, "Rose Garden") is stored 5914 as metadata 6006 in the image file 6005. The label "Rose Garden" is associated with the media file. Advantageously, the user-selected name is available for future organizing, searching, and/or display of the media file.
In one embodiment, an MMR document is retrieved based on recognition of a paper document. A representation of the paper document is acguired and compared to a fingerprint of the MMR document. Responsive to the comparison of the paper document and the virtual multimedia document, a set of actions is displayed to a user. Responsive to a user selection, the user-selected action is performed. For example, a recognized document (or an identifier thereof) can be retrieved and stored for later viewing. As another example, an appointment can be scheduled. As yet another example, a product can be purchased.
In another embodiment, a captured list of names is used to assist a user with labeling a media file. For example, a list of names is captured from a document. The list of names is displayed to a user. Responsive to a user selection, the media file is associated with the user-selected name.
In one embodiment, an MMR document is retrieved based on recognition of a paper document. Responsive to a comparison of the paper document and a virtual multimedia document, a set of actions is displayed to a user . Responsive to a user selection, the user-selected action is performed. In another embodiment, a captured list of names is used to assist a user with labeling a media file.
Another embodiment is described in the following. Advertisement Generation
Figure 6IA illustrates a flowchart of a method 6100 of using an MMR document 500 and the MMR system 100b in accordance with the present invention. The method is designed to provide MMR users 110 with a way to associate an action with an image. The method 6100 begins by acquiring 6102 an image or a representation of the image and an action. In one embodiment, the action is configured to be associated with the image. The image can be included in a printed document or a webpage. The image can include machine-readable marking that is visible to video camera 232 or still camera 234 of capture device 106, but that is invisible or very faint to humans. Examples of the image include an image of a trademark and a logotype. The image can be in one of a number of specifications, such as TIFF, BMP, GIF, and JPEG. Examples of the action include: (1) retrieving information from the document event database 320 (in one particular embodiment, the document event database 320 (including PD index 322) is implemented as database system 3400 as shown in Figure 34A) , the Internet, or elsewhere (e.g., downloading a movie trailer to the capture device 106 or a separate video display device, such as an iPod video) ; (2) writing information to a location verified by the MMR system 100b that is ready to receive the system' s output; (3) looking up information (e.g., conducting a local/global search) ; and (4) displaying information on a client device, such as capture device 106, and conducting an interactive dialog with a user (e.g., performing a survey) . It will be apparent, however, to one skilled in the art that the image can be associated with multiple actions.
In one embodiment, the image is created by an MMR user 110 and later acquired 6102 by the MMR system 100b. The user can create the image using a software application provided by the MMR service provider 5310 or by a third-party software provider (e.g. , Paint from Microsoft, Photoshop from Adobe) . The image can be acquired using different methods. Example methods of acquiring the image include the following: (1) the image is acquired by capturing automatically, via PD capture module 318, the layout of a printed document within the operating system of MMR computer 112; (2) the image is acquired by capturing automatically the layout of a printed document within printer driver 316 of MMR computer 112; (3) the image is acquired by scanning a paper document via a standard document scanner device 127 that is connected to, for example, MMR computer 112; (4) the image is acquired with image capture device 106 including the capture mechanisms 230 shown in Figure 2E; and (5) the image is acquired by transferring, uploading or downloading, automatically or manually, a file that is a representation of the image to the MMR computer 112. In another embodiment, instead of acquiring 6102 the image, the method 6100 can create it using user input (such as texts and images) . The action can be acquired 6102 using different methods similar to those of the image. For example, an MMR user 110 plans to associate the logotype of Coca-Cola, a trademark of the Coca-Cola Company, with the action of visiting the official website of the Coca-Cola Company (www.cocacola.com). The printed representation of the logotype is acquired by the PD capture module 318. The user inputs the action (visiting www.cocacola.com) in the MMR computer 112 through a UI generated by the printer driver for MM 330. Alternatively, the user scans a printed copy of the logotype using the document scanner 127 or image capture device 106 and inputs an action with a user interface (UI) similar to the one described with respect to Figure 5OA Once the acquiring step 6102 is performed, the method 6100 performs 6104 an indexing operation on the image. The indexing operation allows identification of the corresponding electronic representation of the image and the associated action for input that matches the acquired image. In one embodiment of step 6104, indexing is performed in two steps. In the first step, the image content-based retrieval component 414 performs image comparison between the image and the representation of images already stored in the document event database 320. If the component 414 determines that the image matches at least one stored image with a high level of confidence, the method 6100 can determine that the image is not unique, notify the MMR user 110 such determination, and end the method 6100. The user can choose to modify the image and restart the process. Assuming the image is determined to be sufficiently unique, the second step of the indexing operation is performed that adds the image and the associated action to the document event database 320. In one implementation, described with respect to Figure 35, the PD index 322 (or equivalently, MMR index table 3404) is updated. Examples of features that can be added to such an index table include the following: (1) the x-y locations of characters in the image; (2) the x-y locations of words in the image; (3) the x-y locations of a portion of the image; (4) an OCR imaging operation is performed, and the x-y locations of characters and/or words are indexed accordingly; and (5) feature extraction from the image is performed, and the x-y locations of the features are indexed. Examples of feature extraction include region segmentation, color analysis, edge detection, face detection, texture analysis, or any of the commonly used methods for feature extraction in content-based retrieval algorithms. The indexing operation 6104 may include any of the above or groups of the above indexing operations depending on application of the present invention. The document event database 320 stores the image in the first media portion of an MMR document 500, the action in the second media portion, along with the result of the indexing operation, which associates the action with the image.
Continuing with the above Coca Cola example, the image content-based retrieval component 414 performs image comparison between the Coca*Cola logotype and the images stored in the document event database 320. The component 414 determines that the logotype is unique. Subsequently the PD capture module 318 updates a PD index 322 (or equivalently the MMR index table module 3404 or some other dedicated module updates the index) for the logotype, and the action is associated with the image as described with respect to Figure 35. An analogous set of steps is performed (as described with respect to Figure 35) if a scanned image of the logotype is input. In either case, an MMR document 500 is created in the database 320, the imaged (printed or scanned) representation of the logotype being the first medium, and the action being the second medium. The method 6100 also acquires 6106 a document. In this step 6106, the document acquired can be the entire document or just a portion of the document. The document can be acquired by scanning a portion of the document with one or more capture mechanisms 230 of capture device 106. The document being acquired needs not be in a printed form, it can be displayed electronically on a video display device (e.g., the output device 164).
Continuing with the above Coca Cola example, the document can be a label on a beverage container. The label includes the image of the Coca*Cola logotype. An MMR user 110 can use a cellular camera phone to take an image of the label, thereby acquiring the image of the logotype.
Once the acquiring step 6106 has been performed, the method performs 6108 pattern matching between the document image and the images stored in the database 320 to determine whether the document image includes any of the database images. In one embodiment, this pattern matching step 6108 is performed by the document fingerprint matching module 226. Because the document image may include multiple sub-images stored in the database 320, it should be understood that this pattern matching step may be performed a plurality of times, once for each sub-image in the document image, to determine if any of the sub-images are included in the database. In another embodiment, this pattern matching step 6108 is performed by the image content based retrieval component 414. A document image or any of its sub-images is determined to be in the database if its associated level of confidence exceeds a predefined threshold.
In another embodiment, the method performs a document or pattern matching 6108 between the acquired document and documents stored in the document event database 320. This can be done by performing document fingerprint matching of the acquired document to the documents stored in the database 320.
Continuing with the above Coca Cola example, the method performs pattern matching between the beverage label and the Coca 'Cola logotype and determines that the label contains the logotype.
Finally, the method 6100 executes 6110 the action acquired in the acquiring step 6102 based on the result of step 6108 and optionally based on user input. If step 6108 determines that the document includes the image, the method 6100 executes 6110 the action. It should be understood that the pattern matching step 6108 may determine that the document includes other images stored in the database 320. Therefore, the method 6100 may execute multiple actions, each associated with an image included in the document . Once step 6110 has been done, the method 6100 is complete and ends.
Continuing with the above Coca Cola example, because step 6108 determines that the document includes the Coca'Cola logotype, the method 6100 executes 6110 the associated action - visiting the official website of the Coca-Cola Company. As a result, the cellular camera phone retrieves the webpage through the Internet from the website www.cocacola.com.
Collaborative Annotation using Mixed Media Reality Documents Figure 61B illustrates a flowchart of a method 6120 of using an MMR document 500 and the MMR system 100b in accordance with the present invention. The method 6120 is designed to provide MMR users 110 a way to collaboratively add annotations that are readily available to other MMR users. The method 6120 begins by acquiring 6122 a first document or a representation of the first document. The first document is the work the MMR users 110 intend to add annotations to. The first document can be acquired using methods similar to those of the acquiring step 6102 described above with reference to Figure 61A so that description is not repeated here. For example, the publisher of the book HarryPotter and the Sorcerer's Stone can scan the book using the document scanner 127 to acquire 6122 the printed representation of the book.
Once the acquiring step 6122 is performed, the method 6120 performs 6124 an indexing operation on the first document. The indexing operation 6124 allows identification of the corresponding electronic representation of the first document and associated second media types from input that "matches" the first document (using a document fingerprint matching module 226 further described with respect to Figure 6) or portions thereof. In one embodiment of this step, a document indexing operation is performed by the PD capture module 318 that generates the PD index 322. Equivalently, the indexing operation can be performed as described with respect to Figure 35. The indexing operation 6124 may include any of the indexing operations described in the indexing step 6104 with reference to Figure 61A depending on application of the present invention. The system stores the first document in the first media portion of an MMR document 500 along with the result of the indexing step 6124 (e.g., the PD index 322 or equivalently the MMR index table 3404) in the document event database 320.
In one embodiment, the system 100b determines whether a different edition of the first document is already stored in the database 320. For example, the first document is a paperback copy, and the system 100b may have previously acquired the hardcover copy of the same document. Alternatively, the database 320 may have one or more different editions of the first document. When the system 100b determines that different editions of the first document are stored in the database 320, the collaborative document review component 422 can create an intermediate link layer between the editions. The intermediate link layer associates the same section of the different editions together. The intermediate link layer can be created on the fly when an MMR user 110 is accessing one edition of the first document. Alternatively, it can be created when the different editions are acquired. Therefore, as an MMR user 110 accesses a section of one edition of the first document (e.g., the first paragraph of the preface of paperback copy of Harry Potter and the Sorcerer's Stone) , the component 422 can identify the corresponding sections in the other editions (e.g., the first paragraph of the preface of hardcover copy of Harry Potter and the Sorcerer's Stone) .
Continuing with the above Harry Potter example, the PD capture module 318 generates a PD index 322 for the paperback edition. Equivalently, the indexing operation can be performed as described with respect to Figure 35. The database 320 stores the printed representation of the book in the first media portion of an MMR document 500 along with the PD index 322. Assuming an MMR document 500 associated with the hardcover Harry Potter and the Sorcerer's Stone is also stored in the database 320, an intermediate link layer would be created between the two editions and stored in the database 320.
The method 6120 acquires 6126 relevant data and associates them with the first document. The relevant data can be comments or annotations about the first document or a portion thereof. The relevant data can be made by one or more MMR users 110. In one embodiment, the relevant data are contents accessible over the Internet. For example, the entries from a BLOG designated for Harry Potter can be part of the relevant data. Contents provided by users in a community website discussing the book can also be part of the relevant data. For example, an MMR user 110 finds a comment about the preface of Harry Potter and the Sorcerer's Stone interesting. That user can associate the preface of the book and the comment by creating a hotspot 506 including the preface and associating the comment with the hotspot 506. Alternatively, the user can input his comments about a character in the book and associate the input with the relevant sections of the book. The user can create the associations using the document authoring component 442. Alternatively, the user can use the multimedia annotation software 410 to create the associations. These associations and relevant data can be stored in the MMR document 500 created for the first document. It is noted that multiple sources of data can be associated with the same section of the first document, and multiple MMR users 110 can create an association. When there are multiple editions of the first document in the database 320, the MMR users 110 can choose to make the association to any of the editions.
Once the acquiring step 6126 is performed, the method 6120 acquires 6128 a second document. In this step 6128, the second document acquired can be the entire document or just a portion of the second document. The second document can be acquired using methods similar to those of the acquiring step 6106 described above with reference to Figure 6IA so that description is not repeated here. For example, an MMR user interested in knowing others' opinions about the preface of the book HarryPotter and the Sorcerer's Stone can point the camera of his cellular camera phone at the book and take a picture of the preface. The cellular camera phone as a result acquires an image containing a portion of the printed representation of the preface.
Once step 6128 has been performed, the method 6120 performs 6130 document or pattern matching between the first document and the second document . This step can be done in a manner similar to the pattern matching step 6108 described above with reference to Figure 61A so that the description is not repeated here. The method 6120 also identifies the section of the first document that matches with the acquired portion of the second document .
Continuing with the example of Harry Potter and the Sorcerer's Stone, the document fingerprint matching module 226 generates a feature description for the acquired portion of the second document, queries in the database 320 for matching documents (specific implementation of which is provided in Figure 34A) , and determines that the first document matches with the second document. The module 226 further determines that the portion of the second document acquired is the preface of the book. Finally, the method 6120 retrieves 6132 data stored in second media portion of the MMR document 500 matching the second document based on result of step 6130 and optionally based on user input. In one embodiment, the method 6120 identifies hotspots in the section of the first document acquired in step 6128 and retrieves the data of the second media types associated with the identified hotspots. Based on user input, the method 6120 can display the data associated with one or more of the hotspots . When there are multiple editions of the second document, the collaborative document review component 422 can retrieve data associated with the hotspots of each edition that corresponds to the portion of the second document acquired and make them ready for the user to review. For example, the method 6120 retrieves annotations associated with hotspots in the preface of a paperback copy of Harry Potter and the Sorcerer's Stone and the preface of the hardcover copy. The method 6120 can prompt the user which hotspot he is interested in and display the annotations accordingly.
In another embodiment, instead of retrieving the data stored in the second media portion, the method 6120 executes an action based on result of step 6130. For example, the method 6120 can launch a browser to visit a webpage containing comments relevant to the portion of the second document acquired in step 6128. Alternatively, the method 6120 can launch an application that enables the MMR user 110 to input his comments about the portion, associate the comments to the portion, and store the comments in the second media portion of the MMR document 500. Once step 6132 has been done, the method 6120 is complete and ends. Intermedia Linking
Figure 61C illustrates a flowchart of a method 6140 of using an MMR document 500 and the MMR system 100b in accordance with the present invention. The method 6140 is designed to provide MMR users 110 with tools to cross-reference relevant documents .
The method 6140 begins by acquiring 6142 a first document (or a representation of the first document) and a second document (or a representation of the second document) . The first and second documents are related to each other. For example, the first document can be Hamlet written by William Shakespeare, while the second document can be Cliff Notes: Hamlet Book Summary, Monarch Notes - Hamlet, an abridged version of Hamlet, or an exam about Hamlet .
The two documents can be acquired using methods similar to those of the acquiring step 6102 described above with reference to Figure 6IA so that description is not repeated here. For example, the publisher of the book Cliff Notes: Hamlet Book Summary can scan the book Hamlet and the corresponding CIiffNotes using the document scanner 127 to acquire 6142 the printed representation of the two documents.
Once the acquiring step 6142 is performed, the method 6140 performs 6144 an indexing operation on the two documents. The indexing operation allows identification of the corresponding electronic representations of the documents and associated second media types for input that matches either of the documents or portions thereof. The indexing operation 6144 may include any of the indexing operations described in the indexing step 6104 with reference to Figure 61A depending on application of the present invention. The indexing operation 6144 can create hotspots 506 in the relevant sections of the two documents and associate the hotspots 506 with references to the corresponding sections in the other document.
For example, the method 6140 can associate the Act I: Scene 4 of Hamlet with a reference to the corresponding scene in the Cliff Notes, and save the reference in the second media portion of the MMR document along with a printed representation of Hamlet. The method 6140 can also create a corresponding reference from the Cliff Notes back to Hamlet. Alternatively, the method 6140 can associate each appearance of a character in Hamlet (e.g., Claudius) with the corresponding Character Analysis in the Cliff Notes. The indexing operation 6144 can be performed automatically or with human intervention. For example, the publishing company of Cliff Notes can provide the cross referencing information between Hamlet and the Cliff Notes. Alternatively, the method 6140 can use a software application to automatically generate cross-referencing information of the two documents. It will be apparent, however, to one skilled in the art that there could be multiple documents associated with each other, for example, a quiz book, a teacher' s guide, and a text book about the same subject.
In another embodiment, the indexing step 6144 can create references within the same document. For example, a reference to the section where a character is first introduced can be associated with each subsequent appearance of the character in the same document. This can be implemented with a text search for the character' s name on the document text stored in the database 3400 and an insertion of links in the database that implement the cross references.
Once the indexing step 6144 is performed, the method 6140 acquires 6146 a third document. In this step 6146, the third document acquired can be the entire document or just a portion of the third document. The third document can be acquired using methods similar to those of the acquiring step 6106 described above with reference to Figure 61A so that description is not repeated here. For example, an MMR user 110 who is puzzled by a section of Hamlet and would like to know how the Cliff Notes or Monarch Notes interprets the section can point the camera of his cellular camera phone at the section and take a picture of it. The cellular camera phone as a result acquires an image containing the printed representation of the section.
Once step 6146 has been performed, the method 6140 performs 6148 document or pattern matching between the third document and the documents acquired in step 6142. This step can be done in a manner similar to the pattern matching step 6108 described above with reference to Figure 61A so that the description is not repeated here. Assuming a matching document is located, the method 6140 also identifies the section of the document that matches with the acquired portion of the third document .
Continuing with the Hamlet example, the document fingerprint matching module 226 generates a feature representation for the acquired portion of Hamlet, queries in the document event database 320 for matching documents, and determines that the third document is Hamlet by William Shakespeare published by the Washington Square Press, 2003 Edition. The module 226 further determines that the portion of the third document acquired is the portion in Act I: Scene 4 where Hamlet met with the ghost of his father.
Finally, the method 6140 retrieves 6150 the cross-referencing information stored in the second media portion of the MMR document 500 of the matching document based on result of step 6148 and optionally based on user input . In one embodiment, the method 6140 identifies hotspots in the portion of the matching document acquired in step 6146 and acquires the data of the second media types associated with the hotspots. Based on user input, the method 6140 can display the data associated with one or more of the hotspots. For example, the method 6140 retrieves the referencing information associated with the hotspots of the scene where Hamlet met the ghost of his father. The method 6140 can prompt the user for the subject he is interested in (e.g., the historical background, the implications of the scene, related scenes, or the expert comments) , and display references to the CliffNotes and other relevant documents based on the user' s input . Once step 6150 has been done, the method 6140 is complete and ends.
In another embodiment, instead of retrieving the references stored in the second media portion, the method 6140 can retrieve the text the reference refers to and display the text to the user.
On-the-fly Document Authoring
Figure 61D illustrates a flowchart of a method 6160 of using an MMR document 500 and the MMR system 100b in accordance with the present invention. The method 6160 is designed to provide MMR users 110 with tools to create multimedia documents on the fly as the contents are captured.
The method 6160 begins by creating 6162 a first document. The first document is the document that the MMR user 110 intends to add in contents yet to be captured. The first document can be of any format, such as a PowerPoint document, a Word document, and a PDF document. The first document can be created in the MMR computer 112 or the networked media server 114. The first document can later be transferred to the capture device 106. Alternatively, the MMR user 110 can create the first document in the capture device 106.
For example, an MMR user 110 plans to attend a conference, create a PowerPoint document about the conference during the attendance, and then make a presentation using the PowerPoint document. The MMR user 110 creates a PowerPoint document on the MMR computer 112 before leaving for the conference. The document is either empty or contains only brief introduction of the conference. The MMR user 110 then pushes the document to the storage device 216 of the capture device 106 via wire or wireless means.
The method 6160 then performs 6164 an acquiring operation on a second document or a representation of the second document. The second document is intended to assist the user to create the first document. For example, the second document can be a schedule for a conference, a plan for a road trip, and the like. The second document can be acquired using methods similar to those of the acquiring step 6102 described above with reference to Figure 61A so that description is not repeated here. For example, the MMR user 110 can print a webpage containing the conference schedule using the printer 116. The PD capture module 318 captures the text layout of the conference schedule within the operating system of MMR computer 112.
Once the acquiring step 6164 is performed, the method 6160 can optionally process the second document to identify named entities. (Note: named entity recognition is well known technology.) For example, the document parser module 326 can parse the second document to locate embedded named entities, such as lecture title (e.g. , "An Inconvenient Truth") , keynote speaker name (e.g., "Al Gore"), and location (e.g., "Center Building"). The named entities can later be chosen by the user to describe contents captured. The document parser module 326 can also parse out other relevant information such as the time and duration for each event on the schedule. The located entity names can be stored in the storage device 216 of the capture device 106. The method 6160 can then perform 6166 an indexing operation on the acquired second document. The indexing operation allows identification of the corresponding electronic representation of the second document and associated second media types for input that matches the acquired second document or portions thereof. The indexing operation 6166 may include any of the indexing operations described in the indexing step 6104 with reference to Figure 61A depending on application of the present invention.
Once the indexing step 6166 is performed, the method 6160 acquires 6168 contents. These contents can be acquired by any of the capture mechanisms 230 of the capture device 106. For example, while sitting through one lecture of the conference, the MMR user can use the video camera 232 to take a video clip of the speaker, use the video recorder 236 to record a part of the lecture, or use the keypad 214 to input his comments about the lecture.
Once the acquiring step 6168 is performed, the method 6160 labels the contents acquired in step 6168 and modifies 6170 the first document by adding the labeled contents based on the second document. For example, after the user captures a video clip of a lecture, the capture device can prompt the user to choose from the entity names located earlier from the second document. The user can select the phrases such as "An Inconvenient Truth" and "Al Gore." As a result, the video clip would be inserted into the previously created PowerPoint document along with the comments "An Inconvenient Truth, Al Gore." In one embodiment, the method 6160 can use the machine time of the processor 210 and the time listed in the second document to determine the current event. For example, assuming the second document lists a lecture about the origin of the universe to start at 10am and end at 11am, and the user took an audio clip at 10:30am, the method 6160 can automatically label the audio clip "audio clip of the lecture the origin of the universe." Alternatively, the user can use the keypad 214 to type labels and annotations to the contents captured, or use the voice recorder 236 to record his verbal comments about the contents.
In another embodiment, the method 6160 can also acquire a portion of the second document in a way similar to those of the acquiring step 6106 described above with reference to Figure 61A. For example, the MMR user 110 can point the camera of his cellular camera phone at a section of the printed conference schedule and take a picture of it. The cellular camera phone as a result acquires an image containing the printed representation of a section of the conference schedule. The method 6160 can then perform a pattern matching (using document fingerprint matching module 226) between the acquired printed representation and the second document to determine the content of the section of the second document, and use the content of that section to label the captured contents.
Finally, the method 6160 avails the modified document to the MMR user 110. The user can then use the document with or without further editing. For example, after the conference, the user can make the representation using the modified PowerPoint document without further editing. Therefore, the PowerPoint document is authored at least partially on the fly when the user is acquiring the contents for the document.
In another embodiment, instead of creating a document on the fly, the real-time notification component 424 can post the acquired contents and comments to a webpage (e.g., a BLOG) in real-time. In a separate embodiment of the invention, the method
6160 does not need to create 6162 the first document, nor does it need to acquire 6168 data or modify 6170 the first document. Instead, the method 6160 acquires and indexes the second document, and then acquires a portion of the second document, performs document fingerprint matching to determine the content of the portion acquired, and stores the content for further usage by the user. For example, an MMR user 110 working on an essay about Hamlet can scan a book in the same field. When the user later reads the book, whenever he finds some paragraph useful, he can use his cellular camera phone to take a picture of that section. The cellular camera phone can perform a pattern matching to determine the location of that section in the book and retrieve the content of that section. When he finishes reading the book, he can use the sections of text to write his own essay. At least one aspect of one or more embodiments of the present invention provides a method to generate a unique image of which users can associate an action. The method acquires the image, determines that the image is unique, and generates an index for the image. After the image is indexed, the method acquires a document and performs a pattern matching between the document and the indexed image. If the method determines that a portion of the acquired document matches the indexed image, it performs the associated action.
At least one aspect of one or more embodiments of the present invention provides a method to facilitate collaborative annotation. The method first acquires and indexes a document. Users collaboratively provide annotation information associated with portions of the document. The method then acquires a portion of the document, identifies' the portion acquired, and provides the annotation information associated with the portion.
At least one aspect of one or more embodiments of the present invention provides a method to provide links between documents. The method acquires two associated documents and associates the related portions together. When the method acquires a portion of one of the document, it identifies the portion acquired, and provides the related portion of the other document .
At least one aspect of one or more embodiments of the present invention provides a method to author documents on the fly- The method acquires a document, identifies the content of the document, and index the acquired document. The method later acquires data, annotates the acquired data using the content of the document, and authors a document using the annotated data.
In one particular embodiment, the MMR system provides a method to associate related documents. The method acquires two associated documents and associates the related portions together. When the method acquires a portion of one of the document, it identifies the portion acquired, and provides the related portion of the other document. Another embodiment is described in the following.
Geographic Location Application
Figure 62 illustrates a flowchart of a method 6200 of using an MMR document 500 and the MMR system 100b in accordance with the present invention. The method 6200 begins by acquiring 6210 a document or a representation of the document. The document contains some geographical location information. Examples of the document include the following: (1) a HTML file (e.g., a webpage of Google map); (2) a document containing addresses or names of locations (e.g., a PDF document containing driving directions for the National History Museum) ; and (3) a printed document about a specific geographic area (e.g., the Rome City Guide published by the Lonely Planet) .
The document can be acquired using different methods . Example methods of acquiring the document include the following:
(1) the document is acquired by capturing automatically, via PD capture module 318 (or equivalently the MMR Printing Architecture described earlier with respect to Figures 37-47) , the text layout of a printed document within the operating system of MMR computer 112; (2) the document is acquired by capturing automatically the text layout of a printed document within printer driver 316 of MMR computer 112; (3) the document is acquired by scanning a paper document via a standard document scanner device 127 that is connected to, for example, MMR computer 112; and (4) the document is acquired by transferring, uploading or downloading, automatically or manually, a file that is a representation of the printed document to the MMR computer 112. While the acquiring step has been described as acquiring most or all of the printed document, it should be understood that the acquiring step 6210 could be performed for only the smallest portion of a printed document. Furthermore, while the method is described in terms of acquiring a single document in this step, those skilled in the art will recognize that this step may be performed to acquire a number of documents and create a library of documents. For example, an MMR user 110 plans to have dinner in a restaurant and prints a HTML file containing the menu of the restaurant using the MMR computer 112 and the user printer 116. The PD capture module 318 acquires 6210 the printed representation of the HTML file by capturing the text layout of the printed menu. Once the acquiring step 6210 is performed, the method
6200 performs 6212 -an indexing operation on the document. The indexing operation allows identification of the corresponding electronic representation of the document and associated second media types for input that matches the acquired first document or portions thereof. In one embodiment of this step, a document indexing operation is performed by the PD capture module 318 that generates the PD index 322. Example indexing operations include the following: (1) the x-y locations of characters of a printed document are indexed; (2) the x-y locations of words of a printed document are indexed; (3) the x-y locations of an image or a portion of an image in a printed document are indexed; (4) an OCR imaging operation is performed, and the x-y locations of characters and/or words are indexed accordingly; (4) feature extraction from the image of the rendered page is performed, and the x-y locations of the features are indexed; and (5) the feature extraction on the symbolic version of a page are simulated, and the x-y locations of the features are indexed. The indexing operation 6212 may include any of the above or groups of the above indexing operations depending on application of the present invention. The document event database 320 stores the document (or a representation of the document) along with the result of the indexing operation. Continuing with the restaurant menu example, as the HTML file containing the menu is printed, the PD capture module 318 performs 6212 the indexing operation on the printed representation of the HTML file and generates a PD index 322 for the printed representation. Both the printed representation of the menu and the PD index 322 are stored in the document event database 320.
Once the acquiring step 6210 is performed, the method 6200 performs 6214 an extracting operation on the document to identify associated geographic locations. In one embodiment of the extracting step 6214, the document parser module 326 parses the document to locate embedded geographic related information, such as addresses and entity names that represent a location, e.g., Hallidie Building. The address does not need to be in the form of mailing address, it can be cross streets or merely a city name. The document parser module 326 can then apply an entity name recognition process to the located entity names to determine the address or the latitude and longitude coordinates of the entity. The document parser module 326 can conduct the entity name recognition process using a commercial database, such as the one used by Google Earth.
The geographic related information can then be converted into geographic locations. For example, the addresses and location names can be converted into their corresponding latitude and longitude coordinates using a geographic database, such as the one used by Google Earth. The document parser module 326 can then transmit the geographic location to the capture device 106 of the MMR user 110. The geographic location can be stored in the storage device 216 of the capture device 106.
In another embodiment of the extracting step, the geographic location can be provided by the MMR user 110. For example, the Lonely Planet Publications can provide the geographic locations including the addresses and/or the latitude and longitude coordinates of the places and maps in its travel books when they are processed by the MMR system 100b. The Lonely Planet Publications can use the document authoring component 442 to create one MMR document 500 for each of the travel books, create hotspots 506 for the places and maps in the travel books, add the geographic location information in the second medium portion of the MMR documents, and associate the geographic location to the corresponding hotspots 506. When an MMR user 110 points a capture device 106 at a page of a travel book, the document fingerprint matching module 226 performs pattern matching, identifies the MMR document 500 of the travel book along with the hotspots 506 on that page, thereby extracts the associated geographic locations provided by the Lonely Planet Publications. The document fingerprint matching module 226 can also transmit the geographic location information to the capture device 106. In yet another embodiment of the extracting step, the geographic location can be provided in the metadata of the document . For example, in an HTML file, the geographic location information can be provided in HTML tags such as SPAN tags. SPAN tags with an attribute "EXECUTE_WHEN_PRINTED" can point to quoted strings containing commands and parameters. When a document containing such a SPAN tag is printed, the tag is not necessarily displayed on the printed document. However, the command and its parameters (e.g., represented by a SPAN tag with the attribute "EXECUTE_WHEN_PRINTED") are parsed by the document parser module 326 and stored in the second medium portion of the MMR document of the HTML file, associated with the tagged section of the printed document. The location sensitive tags specify geographic location information for the associated section and can optionally provide actions that can be triggered based on the location of the capture device 106.
For example, the following is the content of an HTML file without location sensitive tags: <HTML> <BODY> The Corner Restaurant at Main and Cherry Has a special habanero burrito. </BODY> </HTML>
After inserting location sensitive tags, the content of the HTML file can become: <HTML>
<HEAD>
<STYLE type="text/css"> span. send_to_phone_when_printed {color: #ffOOOO} </STYLE>
</HEAD>
<BODY>
The <SPAN class="send_to_phone_when_printed"
EXECUTE_WHEN_PRINTED="SEND_TO_PHONE COMMAND=PROVIDE_GUIDANCE LAT=24:36:21 L0NG=5β: 45 : 06 THRESH=lkm OUTPUT=audio">Corner
Restaurant</SPAN> at Main and Cherry
Has a special habanero burrito.
</BODY>
</HTML> The document parser module 326 can extract the command
("SEND_TO_PHONE") and the content to be sent
("COMMAND=PROVIDE_GUIDANCE LAT=24:36:21 LONG=56: 45 : 06
THRESH=lkmOUTPUT=audio") from the document . The document parser module 326 can also transmit the content to the capture device 106 of the MMR user 110. In this case, the content is a location-sensitive tag that invokes audio guidance to the Corner
Restaurant when the user is within 1 kilometer of the restaurant. Those skilled in the art will note that the command provided in the HTML tags have applications other than the geographic location application as described in the method 6200. For example, the command can be configured to update the user's calendar by adding an appointment specified in the HTML tags (or elsewhere in the document) . The command can also update the contact manager with contact information, send notice (e.g., email message and/or voice mail) to the user or designated personnel (e.g., the document distribution manager of the relevant entity) advising that the document has been printed and should be shredded.
Continuing with the restaurant menu example, the document parser module 326 extracts geographic location information from the SPAN tags in the HTML file and transmits the information to the cellular camera phone of the MMR user 110. Optionally, the document parser module 326 also transmits an image representation of the menu to the cellular camera phone. In an alternate implementation, the SPAN tags would be extracted by the MMR Printing Architecture described earlier with respect to
Figures 37 - 47, saved in the database 3750 (equivalently MMR database 34A) , and transmitted to capture device 106 by unconscious upload component 446 in response to printing the document . Once the extracting step 6214 is performed, the method
6200 performs 6216 an identifying operation to determine the geographic location of the capture device 106. As described in Figure 2E, the GPS device 242 of the capture device 106 can determine the geographic location of the capture device 106 in real time by means of triangulation. Alternative methods of determining geographic location are described with respect to 142 of Figure IB and do not require a GPS device on capture device 142.
Continuing with the restaurant menu example, the MMR user 110 drives to the restaurant with his cellular camera phone and the printed menu. The GPS device 242 (or alternative method of determining geographic location) of the cellular camera phone identifies the location of the phone in real time as the MMR user 110 approaches the restaurant. It is noted that the MMR user 110 does not need to bring along the printed menu, because the cellular camera phone has a copy of the image representation of the menu received earlier from the document parser module 326.
Finally, the method 6200 executes 6218 an action based on the extracted geographic location and the geographic location of the capture device 106 and optionally based on user input. In one embodiment, the method 6200 looks up actions that are associated with the extracted geographic location, as for example, stored in the storage device 216 of the capture device 106 together with the associated geographic location. The action can be transmitted to the capture device 106 along with the geographic location by the document parser module 326. Alternatively, the action can be a predetermined action. Examples of predetermined actions include: (1) providing directional information to the associated geographic location; (2) retrieving information from the document event database 320, the Internet, or elsewhere; and (3) executing the action associated with the geographic location.
Once step 6218 has been done, the method 6200 is complete and ends.
In one embodiment, the method 6200 executes 6218 the action by transmitting the extracted geographic location to a third-party software module 228 with street navigation capacity.
The third-party software module 228 can then guide the MMR user
110 to the extracted geographic location based on the position data provided by the GPS device 242. Alternatively, the capture device 106 can transmit the extracted geographic location to an external device (e.g., GPS system in the MMR user's car) via wireless communications link 218, in combination with Wi-Fi technology 134 or Bluetooth® technology 136, or by wired connection to the external device.
The capture device 106 can utilize geographical locations previously used and prompt the MMR user 110 when he is nearby. Alternatively, assuming the MMR user previously visited a Subway restaurant using the MMR navigation service, the capture device 106 can provide the user with location information of the nearby Subway restaurants based on the location of the user, even if the previously visited Subway restaurant is not among them. When there are multiple extracted geographic locations applicable, the capture device 106 can prompt the MMR user 110 to select one through the display 212.
In another embodiment, the method 6200 executes 6218 the action by providing narrowly targeted advertisements to the MMR user 110 in the display 212 of the capture device 106. For example, the method 6200 can provide the advertisements for businesses geographically located near the extracted geographic location, giving the MMR user 110 a sense of the services and products provided. Alternatively, the method 6200 can provide the advertisements for businesses located between the extracted geographic location and the current position of the MMR user 106.
The method 6200 can further tailor the advertisements to be displayed by the preferences of the MMR user 110. The method 6200 can determine the preferences of the MMR user 110 by the documents he previously printed. The method 6200 can retrieve these documents from the document event database 320 and process them to identify the subject matter of the documents (e.g., keywords and subjects of the documents) . For example, the MMR user 110 printed a tour map listing several historic places in the San Francisco area. Instead of displaying an advertisement for a nearby regular restaurant, the method 6200 would display the advertisement for an historic restaurant. Such advertisements can also include timing information (e.g., schedule of movie theaters) and promotional information (e.g., electronic coupons) . Such advertisements can be provided by the cell phone service provider 718 to the capture device 106 through the local cell tower or by advertising company 740.
In another embodiment, the geographic location information transmitted to the capture device 106 includes the entity names that represent a geographic location. For example, an MMR user 110 printed a trip schedule including Yellow Stone, Golden Gate, and the Grand Canyon. In addition to the latitude and longitude coordinates of the three places, the document parser module 326 also transmits the associated entity names ("Yellow Stone," "Golden Gate" and "Grand Canyon") to the capture device 106. The entity names can then be used to annotate data captured in these places. For example, the user takes several photos in Grand Canyon, records a wolf growling in Yellow Stone, and captures video of San Francisco downtown on Golden Gate Bridge using the still camera 234, voice recorder 236, and video camera 232 of the capture device 106 respectively. Because the capture device 106 can determine its real time location through the GPS device 242 (or alternative method of determining geographic location) , the capture device 106 can determine that the photos are taken in Grand Canyon, the audio clip in Yellow Stone, and the video clip on Golden Gate Bridge, and annotate and/or name them accordingly. The capture device 106 can also annotate the photos, audio/video clips with the geographic locations of the capture device 106 when they are captured, and map them to geographic applications (e.g., Google Earth) using the annotated geographic location information.
Continuing with the restaurant menu example, the cellular camera phone directs the MMR user 110 to the restaurant using audio guidance. The cellular camera phone can also display advertisements for neighboring restaurants.
At least one aspect of one or more embodiments of the present invention provides a method to provide a user with information related to the location of the user. The method acquires a document, extracts location related information from the document, identifies the location of the users, and provides information to the user based on the identified location and the extracted information.
In one particular embodiment, the MMR system provides a user with information related to the location of the user. The system acquires a document, extracts location related information from the document, identifies the location of the users, and provides information to the user based on the identified location and the extracted information. Another embodiment is described in the following.
MMR System with MMR Information Device Figure 63 illustrates a functional block diagram of an embodiment of an MMR system 6300 including an MMR information device 6301 without optical capture. Figure 64 illustrates a user interface of a menu for an MMR document 500 on an MMR information device of the MMR system of Figure 63. Figure 65 illustrates a user interface of the MMR document 500 and hotspot information displayed on the MMR information device 6301.
In this embodiment, the user does not have a capture device 106 with optical capture and pattern recognition. Instead, the MMR information device 6301 may direct a user to hotspots in the document and provides hotspot information to the user. In an alternative embodiment, the MMR information device 6301 stores and displays the MMR document 500 and the hotspots in the MMR document 500. The MMR information device 6301 may communicate with the MMR system 100 in a similar manner as the capture devices 106 described above.
The MMR information device 6301 may store MMR information including text and pictures of the MMR document 500, hotspot identifiers within the MMR document 500, and hotspot information for the MMR document 500. The hotspot identifiers may be, for example, an icon or a link. The user selects hotspots in the document using a user interface on the MMR information device 6301. In response to the user selection, the MMR information device 6301 provides the hotspot information to the user either as text, images, audio, or video. For example, a user may view the user interface of Figure 64 and select the article entitled "Prime Minister Koizumi Visits Graceland". In response to the user selection, the MMR information device 6301 may display a video or text or play audio of the Prime Minister's visit to Graceland.
The MMR information device 6301 includes a system interface 6310 for downloading the MMR information and hotspot information through the network 128 from a networked media server 114 or MMR media storage 162. The MMR information may include text, images, audio, or video, or any combination thereof, and may be in the form of a podcast. The hotspot information may provide information for purchasing products or services related to the hotspot. The MMR information and hotspot information may be formatted as an MMR database 320.
The MMR information device 6301 caches the MMR information and hotspot information in a memory 6313 for user retrieval using a user interface 6311. In one embodiment, the MMR information device 6301 downloads MMR information and hotspot information for catalogs, magazines, newspapers and journals that the user subscribes to. The user may select the information for download on the MMR information device 6301 or through an MMR computer 112. The MMR information device 6301 may download the information as the user selects the information, or may download the information at a later time, such as if the MMR information device 6301 is docked with a MMR computer 112.
The MMR information device 6301 includes a display 6312 for displaying a menu of selectable portions of the MMR document 500 and text of the hotspot information in response to a user selection of a menu item corresponding to the hotspot. In one embodiment shown in Figure 64, the menu includes articles in the newspaper that include hotspots. The selectable portions may include full or partial text of portions of the MMR document 500, and may include indicators of hotspots in these portions. Figure 65 illustrates a user interface displaying the full text of an article in the MMR document and hotspot indicators 6501, which may be similar to the hotspot 506 (see Figure 5) in the document. The user may select the hotspot to retrieve the associated hotspot information. Selecting the upper hotspot, which is related to the paragraph on the mansion tour, causes the MMR information device 6301 to play audio or video of a portion of the Prime Minister' s visit to Graceland as he was being escorted on the tour. Selecting the lower hotspot, which is related to the paragraph on the Prime Minister singing, causes the MMR information device 6301 to play audio or video of the Prime Minister singing.
In one embodiment, the user interface 6311 and the display 6312 are the same.
The MMR information device 6301 may include, for example, an audio player 6315 or a video player 6316 or both. In one embodiment, the audio player 6315 plays audio of the hotspot information in response to a user selection of a menu item corresponding to the hotspot. For example, the MMR document 500 may include entertainment, such as museums or movies, and the hotspot information may be audio of the opening times, directions or phone numbers. In one embodiment, the video player 6316 plays video of the hotspot information in response to a user selection of a menu item corresponding to the hotspot. For example, the MMR document 500 may include movie listings, and the hotspot information may be movie trailers for selected movies. In one embodiment, the MMR information device 6301 includes an audio to digital converter 6317 that converts an audio command received from a user through a microphone 6318 into a user command. The MMR information device 6301 controls the selection of menu items or portions of MMR documents in response to the converted user command. The user reads text from the MMR document 500. The MMR information device 6301 converts the audio into text, and compares the text to the stored MMR information.
Figure 66 illustrates a flow chart of the operation of the MMR information device 6301. The MMR information and hotspot information is stored 6602 in the memory 6313. The processor 6314 displays 6604 portions of the MMR document 500 with hotspots indicated on the display 6312, such as shown in Figure 65. In response to a user selection 6606 on the user interface 6311, the processor 6314 provides 6608 the hotspot information as text or video on the display 6312, or as audio.
Figure 67 illustrates a functional block diagram of an embodiment of an MMR system 6700 including a capture device
106 and an MMR information device 6301 without optical capture.
The MMR system 6700 is similar to the MMR system 6300, but further includes a capture device 106 that receives information from the MMR information device 6301 for assisting a user in locating the hotspots in the MMR document 500.
The capture device 106 and the MMR information device 6301 communicate directly with each other, such as by wireless communication, infrared communication or inaudible audio. In an alternative embodiment, only one of the capture device 106 and the MMR information device 6301 communicates with the MMR system 100, and forward information to the other device.
In an alternative embodiment, the capture device 106 and the MMR information device 6301 are formed as an integrated device.
In one embodiment, the capture device 106 detects the hotspot and sends commands to the MMR information device 6301 for the device 6301 to retrieve the associated hotspot information. In one embodiment, the MMR information device 6301 may provide the hotspot information as described above in conjunction with Figure 63. In an alternative embodiment, the MMR information device 6301 may send the hotspot information to the capture device 106 for providing to the user. In an alternative embodiment, the MMR information device 6301 may delay performing a command derived from a hotspot (e.g., a command to purchase a product shown in
MMR document 500) until it communicates with the MMR system 100.
The capture device 106 may identify the MMR document
500 and send a request to the MMR information device 6301 for hotspot information. The MMR information device 6301 sends information to the capture device 106 to assist the user in locating hotspots in the MMR document 500. The information may include graphical images of the document optionally including graphical representations for the locations of hotspots (e.g. red transparent overlays) . A textual representation for the locations and contents of the hotspots may also be provided.
In another embodiment, the memory may be partitioned between the MMR information device 6301 and the capture device 106 for storing the MMR document information and hotspot information.
In one embodiment, either the capture device 106 or the MMR information device 6301 does not include a display for presenting the MMR document information and the hotspot information. The devices 106 and 6301 communicate with each other to provide the information for display.
Figure 68 illustrates a flow chart of the operation of the MMR system 6700. As part of a download, the processor 6314 stores 6802 the MMR information and hotspot information in the memory 6313. The MMR information device 6301 provides 6804 locations of hotspots to the capture device 106. The capture device 106 detects hotspots. If the user selects 6806 a hotspot on the capture device 106, the capture device 106 transmits 6808 a retrieval signal to the MMR information device 6301 for retrieval of the requested hotspot information. The MMR information device 6301 provides 6810 the hotspot information either on the display 6312 as text, images or video, or as audio, or provides the hotspot information to the capture device 106.
At least one aspect of one or more embodiments of the present invention provides a Mixed Media Reality (MMR) system and associated methods. The MMR system of the present invention provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and text or data in electronic form, a digital picture, a digital photograph, digital movie, digital audio file, or web link as a second medium. Furthermore, the MMR system of the present invention facilitates business methods that take advantage of the combination of a portable electronic device, such as a portable video or audio player, and a paper document. The MMR system of the present invention includes an MMR processor, a capture device, a communication mechanism and a memory including MMR software. The MMR processor may also be coupled to a storage or source of media types, an input device and an output device. The MMR software includes routines executable by the MMR processor for accessing MMR documents with additional digital content, creating or modifying MMR documents, and using a document to perform other operations such business transactions, data queries, reporting, etc. The MMR system includes an MMR information device for storing downloaded MMR information related to the MMR document for retrieval in response to user selections inputted into the MMR information device or provided from a capture device.
A Mixed Media Reality (MMR) system provides mechanisms for forming a mixed media document that includes media of at least two types (e.g., printed paper as a first medium and digital content and/or web link as a second medium) . The MMR system provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and a digital photograph, digital movie, digital audio file, or web link as a second medium. Furthermore, the MMR system facilitates business methods that take advantage of the combination of a portable electronic device, such as a portable video player or a portable audio player, and a paper document for the portable electronic device to provide information.
Another embodiment is described in the following. Voice Mail Figure 69 illustrates a block diagram of an MMR system
6900 that includes a voice mail server 6902 for processing hotspot information.
The voice mail server 6902 provides hotspot information related to the MMR document 500 to users in the form of voice mails. The MMR system 100 may provide voice mail content to the voice mail server 6902. A user also may provide voice mail content to update hotspot information. In the embodiments shown in Figures 69-74, the MMR system 100 may be the MMR system 100a or 100b. In an illustrative embodiment, the user may leave a comment such as a compliment or complaint, related to the particular item in a hot spot, such as a restaurant, museum or film. The MMR system 6900 may charge the user a fee to leave a message in the voice mail box. In one embodiment, the MMR document 500 may be a personal ad that provides a hot spot link to a voice mail box but does not include a phone number. This allows a user to place personal ads without publishing their phone number but allow respondents the ability to leave voice mails. In another embodiment, in MMR document 500 may include an ad with a hot spot for placing an order. The user leaves the order details in a voice mail and the entity placing the ad able to retrieve the message for handling the order.
The MMR system 6900 controls the updating of hotspot information using voice mails placed by the user. The voice mail server 6902 stores hotspot information related to MMR documents 500 in a voice mail memory 6904. In one embodiment, each hotspot has an associated voice mail box. The voice mail server 6902 may provide the voice mails to a voice mail box of the user. The MMR system 100 may transcribe the voice mail and store the transcription as updated hotspot information. A variety of technologies may be used for transcription including automatic voice recognition software such as the IBM Via Voice system, or manual transcription by a human operator, or a combination of automatic and manual techniques.
Figure 70 illustrates a flow chart of the methodology of updating hotspot information in the MMR system 6900.
The MMR system 6900 receives 7002 a user selection of a hotspot on the MMR document 500. The MMR system 6900 receives 7004 a user request to update hotspot information from the capture device 106 to the voice mail server 6902. The MMR system 6900 connects 7006 to the voice mail server 6902 and prompts 7008 the user to leave a voice mail in the voice mail server 6902. By using the hotspot and prompt, the user accesses the voice mail box without dialing a phone number or voice mail box number. The MMR system 6900 may prompt the user to categorize the voice mail. For example, for a movie review, the MMR system 6900 may prompt the user to enter a code on the capture device 106 to indicate whether the review is favorable, unfavorable, or indifferent. The MMR system 6900 may also prompt the user to authorize payment for leaving a voice mail. After authorization, the MMR system 6900 accepts the voice mail. This feature is useful in some applications that are pay for use, such as personal ads. This feature is also useful to discourage frivolous or mischievous use of voice mails.
The MMR system 6900 receives 7010 a voice mail from the user via the capture device 106, and provides 7012 the voice mail to the voice mail server 6902 to update the hotspot information. The MMR system 6900 updates 7014 index information for the associated hotspot.
Figure 71 illustrates a flow chart of the methodology of retrieving hotspot information in the MMR system 6900.
The MMR system 100 controls the user retrieval of voice mail hotspot information. The MMR system 100 receives 7102 a user selection of a hotspot on the MMR document 500. The MMR system 100 provides 7104 the capture device 106 with a menu of voice mail hotspots. The menu may be displayed on the capture device 106 or may be an audio menu . The menu may include categories of voice mails, such as favorable comments. The MMR system 100 retrieves 7106 a voice mail corresponding to a hotspot in response to a user selection of one of hotspots from the menu, and provides 7108 the voice mail to the capture device 106 for the user to listen to. In an alternative embodiment, the MMR system 6900 selects the voice mails to provide to the user. The MMR system 6900 may also prompt the user to authorize payment for receiving a voice mail. After authorization, the MMR system 6900 provides the menu of voice mail . As an illustrative example, the user may read an MMR document 500 that is a newspaper listing of movies. The user may select a movie hotspot with the capture device 106 and request reviews of the movie, which may be provided as voice messages. After listening to the reviews, the user decides to watch the movie. After the movie, the user wants to update the hotspot information by leaving a voice mail . The user again uses the newspaper listing of the movies to access the hotspot, but this time, the user sends a hotspot update request and leaves a review of the movie. Email
Figure 72 illustrates a block diagram of an MMR system 7200 that includes an email message server 7204 for processing hotspot information. The email message server 7204 may provide hotspot information to users in the form of email messages that are delivered in real time to the capture device 106 or a user computer 7206, or delivered asynchronously to the user computer 7206. In one embodiment, the communication channel between the MMR system 100 and the delivery site of the email is different than the communication channel between the MMR system 100 and the capture device 106. The MMR system 100 may provide the email message content to the email message server 7204. A user also may provide email message content to update hotspot information.
The MMR system 7200 controls the downloading of hotspot information using email messages sent to the user. The email message server 7204 stores hotspot information related to MMR documents 500. The email server 7204 may send the email to, for example, a telephone, a user selected email account, such as personal or business email address, or a cable television or satellite television for recording on a digital video recorder. The MMR system 100 may index the emails for searching in response to a query using conventional search tools
As an illustrative example, the user is reading a travel guide and requests more information. The user selects the hotspot to receive the hotspot information. If the size of the hotspot information is large, the user selects to receive the hotspot information in an email that the user will later read either on a computer with a larger screen or print out the document for reading.
Figure 73 illustrates a flow chart of methodology of retrieving hot spot information in the MMR system 7200. The MMR system 7200 receives 7302 a user selection of a hot spot in the MMR document 500. The MMR system 7200 connects 7304 to the email message server 7204 and prompts 7306 the user to select a destination of the email from the email message server 7204. By the using the prompt, the user may direct the email to the capture device 106 or the user computer 7206. The MMR system 7200 sends 7308 the email to the reguested address and sends 7310 a confirmation email to the capture device 106 if the user has selected that the email be sent to the user computer 7206 or a destination other than the capture device 106. In one embodiment, the MMR system 7200 sets a high priority flag on the email.
In one embodiment, the capture device 106 may be temporarily disconnected from the MMR system 100. During the disconnection, the capture device 106 stores the hot spot selections for later transmission. When the capture device 106 is reconnected to the MMR system 100, the capture device 106 transmits the requests to the MMR system 100 for processing.
Figure 74 illustrates a block diagram of an MMR system including a document database 7404. The MMR system 7400 is similar to the MMR system 7200, but further comprises the document database 7404. The document database 7404 stores MMR documents 500 that are read by the user and stores the hotspots information that are selected by the user. The document data base 7404 may be indexed and searchable by the user. The document database 7404 stores the readings for the user.
Figure 75 is a block diagram of an MMR system 7500 including a document shipping database 7504.
The MMR system 7500 is similar to the MMR system 7200, but includes a document shipping database 7504. The document shipping database 7504 stores MMR information of sellers of products or services. In this embodiment, the MMR system 100 provides the user access to the document shipping database 7504. The document database may be a travel book publisher providing a database of all MMR-enabled travel guides. The user requests the MMR system 100 to retrieve from the document shipping database 7504 documents that will be provided to the user that may be sent asynchronously. The document provider sends the hotspot information to the user by email.
In one embodiment, the document shipping database 7504 is not accessible via the Internet by or by Internet search engines. The document shipping database 7504 is accessed through the MMR system 100.
In another embodiment, the document may use a unique electronic product code (EPC) or a similar code to identify each page uniquely to identify the document and find the document in the document shipping database 7504.
In another embodiment, the entire page or a portion thereof of a printed document is used to create the unique identifier for the printed document. The unique identifier may be transmitted to the document shipping database 7504 instead of the image for determining the requested hotspot information.
In alternative embodiments, the MMR systems 7200, 7400 and 7500 further include a voice mail server 6902 for processing hotspot information as voice mail in addition to emails.
The MMR system of the present invention provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and text or data in electronic form, a digital picture, a digital photograph, digital movie, digital audio file, or web link as a second medium. Furthermore, the MMR system of the present invention facilitates business methods that take advantage of the combination of a portable electronic device, such as a cellular camera phone, and a paper document. The MMR system of the present invention includes an MMR processor, a capture device, a communication mechanism and a memory including MMR software. The MMR processor may also be coupled to a storage or source of media types, an input device and an output device. The MMR software includes routines executable by the MMR processor for accessing MMR documents with additional digital content, creating or modifying MMR documents, and using a document to perform other operations such business transactions, data queries, reporting, etc. The MMR system includes a voice mail server or an email server for using voice mail or email, respectively, for providing information related to a printed document.
A mixed media reality (MMR) system includes an MMR user, a MMR computer, a user printer that produces a printed document, a networked media server, an office portal, a service provider server, an electronic display that is electrically connected to a set-top box, a document scanner, a network, a capture device, a cellular infrastructure, wireless fidelity (Wi-Fi) technology, Bluetooth® technology, infrared (IR) technology, wired technology, and a geo location mechanism. The MMR system provides mechanisms for forming a mixed media document that includes media of at least two types, such as printed paper as a first medium and a digital photograph, digital movie, digital audio file, or web link as a second medium. Furthermore, the MMR system facilitates business methods that take advantage of the combination of a portable electronic device, voice mail or email, and a paper document.
Another embodiment is described in the following. Figure 76 illustrates a functional block diagram of one embodiment of the MMR system in accordance with the invention for use in ordering goods or services using MMR-individualized documents. The MMR system 7600 is configured for ordering and processing goods or services from a fulfillment house using a MMR-individualized commercially printed document 7601. Although FIG. 76 illustrates the example of using the MMR-individualized document 7601 with the MMR system 7600 for ordering goods or services, note that the MMR-individualized document 7601 may be used for any other types of business transaction. The MMR system 7600 is substantially same as the MMR system 100a illustrated in Figure IA, except that it additionally includes the fulfillment house software 7602 and the order process database (DB) 7604 for use with the MMR-individualized printed document 7601.
The MMR-individualized printed document 7601 is a MMR document printed in accordance with the MMR system and method as illustrated in, for example, Figures IA, IB, 4, and 52. The MMR document 7601 includes one or more hotspots or portions of the document that uniquely identify an individual or a user of the document 7601 as well as other hotspots identifying the document 7601. The hotspots are indexed and stored in the PD index 322 (or equivalently MMR database 3400) similar to other MMR documents as described herein. In one embodiment, the MMR document 7601 is a printed catalogue for ordering goods or services (a book, grocery, a travel package, home repair services, etc.) and includes hotspot text or images that identify the document (catalogue) as well as hotspots that identify one or more users or individuals associated with the catalogue. The MMR documents 7601 are "individualized" in the sense that the hotspots contain textual or image identifiers that identify one or more users or individuals associated with the document. For example, the document 7601 may include the name and address of the recipient of the document 7601 which can be recognized as a hotspot for identification of the user. For another example, the document 7601 may include bar codes or other identification numbers or images which can be recognized as a hotspot for identification of the user. In a specific implementation, the user identification information can appear as a mailing label on the document. The user can be identified by OCR (Optical Character Recognition) of the label or recognition of the postal bar code (known as the POSTNET bar code in the United States) . The mailing label can also contain a bar code or other information (e.g., printed text) that identifies the specific edition of the catalog, e.g., the Victoria Secrets Nov. 2006 catalog for the San Francisco Bay area. Thus, the mailing label contains information that identifies the individual user in the database 7622 who was sent the catalog and the catalog itself. This is sufficient to retrieve the user' s identifying information and a list of hotspots in the catalog. The hotspot data would include identification for items in the catalog, the pages on which they appear, and information needed to order the items. The user interface on the capture device 106 could use this information to provide the ability to order goods and services . Alternatively, the hotspot information could include information about the image features that correspond to each hotspot that could be used in a subsequent comparison step by the MDMR recognition system.
For still another example, the document 7601 does not include separate text or image for identification of the user, but includes minor variations in the appearance of the original text in the document itself, e.g., the shape, font size, orientation, color, etc. of the text and images that are originally included in the document 7601, which can be recognized as hotspots for identification of the user. An example is to have the descriptions of the items on the catalogue to include minor variations in the appearance, shape, font size, orientation, color, etc. , so that the users would not easily recognize the differences in the individualized MMR document 7601 but the MMR system 7600 may recognize the user by matching the hotspots with the fingerprints of the documents. In one example implementation, combinations of image characteristics, e.g., font and color, are associated with user identification information in database 7622. For example, a catalog might be printed with hotspots in an OCR-A font with blue #F86A ink. That font-color combination is assigned to the user in database 7622 who is sent the corresponding catalog. The MMR recognition software preprocesses every image for the font-color combination and sends the identity of the font and color to the order processing database 7604 that uses the font-color combination to look up the user identification information. A unique combination of image characteristics can be assigned to each user. This has the advantage that each hotspot uniquely identifies the intended recipient of the catalog. The same capability can be provided by shifting the positions of characters or words by small amounts horizontally or vertically. The shift amounts can encode digital information (e.g. , user identification and hot spots) in a text such that it's almost imperceptible to the reader but easily decoded by a recognition algorithm. In an alternate implementation, a combination of image characteristics is chosen from a limited set and assigned to each user in the database 7622. The MMR recognition software still recognizes the presence of those image characteristics and sends their identities to the order processing database (e.g., it might find OCR-A font in blue #F86A or certain character or word position shifts in the input image) . However, it also sends secondary user identification information from the MMR device 106, such as the registered owner of the device, as determined from a profile stored on the device, its telephone number, or the registered owner of the device as provided by the cell phone service provider 5318, service provider 5336, cable TV provider 5334, or other provider of an MMR-related service. The order processing database 7604 verifies that those image characteristics recognized by the MMR recognition system correspond with the secondary user identification information.
The capture device 106 can be any one of the capture devices illustrated in Figures IA, IB, and 2A-2E. For illustration purposes only, the capture device 106 for the application described in Figures 76 and 77 is a camera phone that includes both digital camera capabilities as well as cellular telephone capabilities. Note that the third-party software module 228 running on the capture device 106 includes a calendar application such as that included in Microsoft Outlook™ to keep track of various schedules. A user may point the capture device 106 over the MMR-individualized document 7601 over hotspots to scan the hotspot images. For example, the MMR document 7601 is a book catalogue listing a variety of books for an intended user of the catalogue. MMR hotspots identifying the book catalogue itself are included in the catalogue. In addition, hotspot (s) uniquely identifying the user are also included in the catalogue.
The document fingerprint matching module 226 of the capture device 106 (or alternatively on the MMR computer 112) extracts hotspot features from the captured hotspot images. The document fingerprint matching module 226, as further described with reference to Figures 6-33, accesses the document indices stored in the document event database 320 and matches the extracted features of the captured image and the indices to identify the particular MMR-individualized document 7601 from a database of documents as well as the user or individual associated with the document. In other words, the identities of the document (catalogue) 7601 and the user associated with the document are confirmed. The fulfillment house software 7602 includes software applications run by the computers of a fulfillment house 5332. For example, the MMR-individualized document 7601 is a book catalogue and the fulfillment house 5332 is a book company selling books using the book catalogue. The fulfillment house software 7602 includes order processing software 7610 and calendar synchronization software 7612.
Once the document and the associated user are identified, the order processing software 7610 accesses the user information database 7622 to retrieve user information associated with the identified user. User information may include the user' s name, address, telephone number, credit card information, and any other information that can be associated with the individual user.
The order processing software 7610 causes an order form (not shown) to be displayed on the display 212 of the capture device 106 remotely through the communication mechanism 104. The order form is displayed using known techniques for causing an application to run on remote devices through the communication mechanism 104, for example using Java™ applets. The capture device 106 can be accessed using known wireless communication techniques using, for example, the telephone number of the camera phone capture device 106. The order processing software 7610 causes the order form to be pre-populated with the user information retrieved from the user information DB 7622 so that the user does not have to enter the user information to complete the order . This allows for a much faster and more convenient purchase experience for the consumer.
Once the order is completed, the purchase order is processed as is typical with any on-line order of goods or services. Typically, order processing information such as expected or actual shipping date and expected or actual delivery date are stored in the shipping information database 7624. The order processing information is stored in the shipping information database 7624 associated with the identified user. The calendar synchronization software 7612 accesses the shipping information database 7624 and retrieves the order processing information. The calendar synchronization software 7612 causes the order processing information to be added to the calendar application 228 running on the capture device 106. If there is any change in the order processing information (such as expected shipping or expected delivery date) , the calendar synchronization software 7612 causes the calendar application 228 to be updated and to reflect such change as well. In this manner, the user may effectively track the processing and shipping of his order in real time.
Figure 77 illustrates a flow diagram of a method 7700 for ordering goods or services using an MMR-individualized document, such as a product or service catalogue embedded with hotspot images identifying the document and the user of the document. Referring to both Figures 76 and 77, the capture device 106 captures 7702 hotspot images of the MMR-individualized document 7601. Using the hotspot images, the MMR system 7600 identifies 7704 the particular document and the user associated with the document. The order processing software 7610 remotely causes an order form for goods or services to be displayed 7706 on the capture device 106 through the communication mechanism 104, with the order form pre-populated with the user information retrieved based on the user identity information obtained in step 7704. The user fills out the order form to complete 7708 the order transaction. The calendar synchronization software 7612 tracks 7710 the processing of the order (e.g. , estimated and actual shipping dates or estimated and actual delivery dates) , and adds or updates such processing dates to the calendar application 228 running on the identified user's capture device 106 so that the information in the calendar application 228 is synchronized 7712 with the order processing information stored in the shipping information DB 7624.
Although Figures 76 and 77 illustrate use of the MMR-individualized document in the context of purchasing goods or services, the MMR-individualized documents may be used for other purposes as well. For example, publishers who want to control illegal distribution of copyrighted materials may embed information (e.g., stenographic codes) of authorized users who have appropriately purchased the copyrighted materials in the printed MMR documents. The embedded user information may be used to identify authorized users, and thus will allow the publishers to track how their documents are used and to potentially identify those who illegally distribute or copy the copyrighted material without permission.
In one embodiment of the present invention, the mixed media reality document is embedded with hotspot images that uniquely identify a user associated with the document as well as hotspots that identify the document. Such "MMR-individualized" documents are used to identify a user associated with the document and retrieve user information associated with the identity of the user.
One application of the MMR-individualized documents is in ordering goods or services. The hotspots can be used to identify a user and retrieve user information associated with the identified user. On-line order forms displayed on the user's capturing device may be pre-populated with the retrieved user information. Furthermore, processing information of the order can be tracked, and a calendar application running on the capturing device of the identified user may be updated to include up-to-date processing information corresponding to the order.
In one particular embodiment, the mixed media document may also include hotspot images that uniquely identify a user associated with the mixed media document. Such individualized mixed media documents are used to identify users of the mixed media document, when orders for products or services are made using the mixed media documents through the MMR system. Another embodiment is described in the following. MMR a Universal Trigger for an Action As noted above with reference to Figure 5, the MMR document 500 in certain embodiments includes an associated action or second media 504, in addition to the representation 502 of a portion of the printed document 118, the index or hotspot 506, and the electronic representation 508 of the entire document 118. These components 502, 504, 506 and 508 of the MMR document 500 have been fully described above with reference to Figure 5, so that description will not be repeated for ease of understanding. The MMR document 500 structure is particularly advantageous because the ability to specify different actions for different MMR documents 500, combined with the ability to create any number of MMR documents 500 for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, additional processing or actions can be triggered or initiated based on MMR recognition. The additional processing can also advantageously be customized to consider: 1) the document identified by MMR recognition, 2) the page identified by MMR recognition, 3) the location on the page identified by MMR recognition, 4) the context of use of the capture device 106, including its geographic location, 5) external factors known to the MMR system or stored in the database 3400, 6) historical execution of the action by prior users, 7) the state or availability of MMR system components, 7) the state or availability of third party systems and resources, and 8) the identity to of the current user, and 9) the identity and location of the MMR database (s) that are interrogated and satisfy a given query
Referring now to Figure 78, one embodiment of the MMR system architecture 7800 for use as a universal trigger is shown. The description of this architecture is provided as one example of an operational context of the present invention where MMR recognition is used as a universal trigger, and to convey the general principles of operation for MMR as universal trigger. Those skilled in the art will recognize that MMR recognition could also be used as a universal trigger in a variety of other MMR architectures and configurations from the description that follows.
As shown in Figure 78, the exemplary MMR system architecture 7800 includes the rendered document 118, the user 110, the capture device 106, the database 3400, the MMR recognition module or software 226 or 610(, and the action processor 7802.
The rendered document 118 and the user 110 have been described above and are the same in this exemplary context. The rendered document 118 is given. This could be a paper printout or it could be an electronically rendered version as shown on a PC screen or an electronic book. The user interacts with the MMR system 7800 using the capture device 106, and the capture device 106 generates an image from the rendered document 118 as represented by the dashed lines in Figure 78. Numerous examples for the capture device 106 have been fully described above, any one of which can be used in this example. For ease of the understanding, the capture device 106 is a phone with a camera. The capture device 106 is coupled for communication with the MMR recognition module 226/610 and the action processor 7802 by signal lines 7808 and 7804, respectively. The database 3400 is similar to that described above with reference to Figures 34A-36. The database 3400 is coupled for communication by signal line 7806 to the MMR recognition module 226 and by signal line 7814 to the action processor 7802. In this embodiment, the action processor 7802 is shown as separate and apart from the database 3400. In other embodiments the action processor 7802 may be part of the database 3400 as shown in Figure 34A. The database 3400 is described in more detail below with reference to Figure 79.
The MMR recognition software 226/610 receives an image of a patch of text from that document 118 and MMR recognition software 226/610 identifies the MMR document 500 that contains it (doc. i), the page within that document (page j), and the x-y location within that page where the patch occurred. Various embodiment for the MMR recognition software 226/610 have been described above, any one of which may be employed here. The MMR recognition software 226/610 communicates with the MMR database 3400 that stores the relationships between images and text patches as well as "actions" attached to those patches.
The action processor 7802 is coupled to the MMR recognition software 226/610 by signal line 7810, the capture device 106 by signal line 7804 and the database 3400 by signal line 7814. The action processor 7802 has the functionality that has been described above with reference to action processor 3413, and that will be described below with reference to Figures 80-85. The action processor 7802 is coupled to capture device 106 to send and receive data and commands for generation of user interfaces that allow the user 110 to interact with the MMR system 7800 for controlling how actions are performed, receive data produced by actions, and input data need for actions. Such user interfaces are populated with information from the action specification. The action specification is preferably one or more commands and associated parameters that are sub-parts or tasks that need to be completed to perform the action. The user 110 can enter data that enables the execution of the action. Information about the result of that action is stored in the MMR database 3400 and presented to the user 110. In one embodiment, the MMR system 7800 stores historical information about an action such as when it was previously executed with an x-y location in a block of text. The MMR system architecture 7800 is advantageous because an action can be executed by pointing the capture device 106, a camera phone, at a block of text. For example, the action is manually clicking on the link to a portion of the text in a web version of that document, thereby retrieving the text in XML form to the capture device 106. In another example, the action is manually clicking on the link to retrieve a specification for an action to a portion of text in a web version of that document, thereby retrieving the specification for the action. Furthermore, the action processor 7802 is advantageous because it stores historical information about actions in the database 3400 or other storage device. The historical information about actions is stored in association with the x-y location in a block of text, and document and page. This information can then later be retrieved, searched and analyzed in the event the same block of text is captured. Referring now to Figure 79, a portion of one embodiment of the MMR database 3400 relating to the performance of actions is described in more detail. As has been noted above also with reference to Figure 34A, the MMR database 3400 stores document images 7902, actions 7904, and associations 7905 between x-y locations on document images and actions, in other words, MMR documents 500. The MMR database 3400 is dynamically updatable so that user applications can add actions on-the-fly. The MMR database 3400 allows for the attachment of actions to arbitrary x-y locations within text passages. Entries in the MMR database 3400 are comprised of pages linked to actions. The "page side" of a link is registered to a specific x-y location. The "action side" can comprise a nearly arbitrary description of data or an interaction. The MMR database 3400 includes an index table 7908 that maps MMR features onto their x-y locations 7906 within documents. This allows the MMR recognition software 226/610 to input the features it detects in an image and receive output that shows the x-y locations within documents where those features occur. An embodiment of such a data structure has been fully described above with reference to Figure 34A. As also noted above, the MMR system 7800 may also include multiple databases 3400a, 3400b. For example, the MMR system 7800 includes at least two databases: a shared database and a personal database. The shared database includes information that is accessible to all the users who have access rights to it. The personal database is accessible to an individual user and includes private information linked to x-y locations on pages in documents that the owner does not wish to share with anyone else. Those skilled in the art will understand that there might also be other databases that are shared on an ad-hoc basis between groups of users . While the MMR database 3400 is show generally as a single database, these databases could be portions of the same database or entirely separate databases although not shown.
Figure 80 is a flowchart of one embodiment of a method for executing actions of MMR documents 500 in accordance with the present invention. The process begins by obtaining 8002 an image of the rendered document 118 with the capture device 106. While the process is now described as beginning with the capturing of a particular image, those skilled in the art will understand that the process may begin with the user 110 in putting any information using the capture device 106 or another device, and that the capturing of images is only provided by way of example. Then the MMR system 7800 performs 8004 recognition on the input received by the system 7800 in step 8002. Next MMR system 7800 determines 8006 whether the MMR recognition process has returned a matching document, and whether the matching document includes an action to be performed. In order for the MMR system 7800 to execute an action, the MMR system 7800 must identify an action that the user 110 has specified for execution. This requires that MMR system 7800 identifies both a document and the action within or associated with that document. If the method determined in step 8006 that a matching document to the image captured in step 8002 could not be found, the system 7800 generates 8008 a message indicating that no match could be found and displays it to the user 110, such as on the display of the image capture device 106. Similarly, if the method determined in step 8006 that while there was a matching document, there is no action associated with that matching document; the system 7800 generates 8008 a message indicating that there is no action associated with the matching document and displays it to the user 110. Those skilled in the art will recognize that these messaging steps 8008 are optional. Upon completion of step 8008, the method loops back to the beginning of the method to capture additional images. On the other hand, if the MMR recognition process produced an MMR document 500 with an associated action to be executed, the method proceeds from step 8006 to step 8010. In step 8010, the method determines whether the action should be executed automatically. In one embodiment, each action stored in the MMR system 7800 may have a number of associated settings. One such associated setting may be whether the action is performed without additional user input, or "automatically." The method determines 8010 whether the setting for this action to be executed is set for automatic execution or not. If the action is to be performed automatically, the method continues from step 8010 directly to step 8018. However, if the action is not to be performed automatically, the method proceeds to step 8012. The MMR system 7800 then generates a message for display on the capture device 106 and notifies 8012 the user that an action is being performed by the MMR system 7800. The method receives 8014 information from the user. If no additional input is required from the user, the message only notifies the user of the action's execution. In some instances, execution of a particular action by the MMR system 7800 may require additional input from the user 110, such as confirmation. In those cases, the MMR system 7800 sends messages to the capture device 106 for presentation to the user 110, and the capture device 106 receives additional information from the user 110 that is input to the MMR system 7800. Such information can be identification or selection of different parameters used for execution of the action, or input of data needed for execution of the action. The interaction between the user 110 and the MMR system 7800 has been described above and this process can be used interactively to allow the user 110 to input additional information needed for the execution of the action using the GUIs of the present invention. Once the user 110 has completed interaction with the MMR system 7800, a final message asking the user to confirm that the action should be executed is sent by the system 7800 to the capture device 106 for presentation to the user.
Next, the method determines 8016 whether the user 110 confirmed that the action should be executed. If the user 110 has selected not to execute the action, the method is complete and ends. If the user 110 has selected to execute the action, the method proceeds to step 8018 and determines 8018 the action specified by the MMR document 500. Then the method performs 8020 the action specified by the MMR document 500. As has been noted above the MMR document 500 may include one or more actions that each has one or more commands and parameters. Examples of these commands and parameters will be described below, with reference to Figures 82A and 82B. The MMR document 500 may include one or more parameters necessary for execution of a command or alternatively, the parameters may be directly input by the user 110 and are received by the method in step 8014. It should be noted that an MMR document 500 may include several commands. As will be appreciated by those skilled in the art, this provides an MMR programming language in which complex transactions and user interactions may be performed by the MMR system 7800 - with only an MMR recognition being the trigger to their execution. Examples of such complex transactions and user interactions are described below. Once the execution of the action has been completed, the MMR system 7800 stores 8022 historical information about the action. For example, historical information about the action may include: the user that executed the action, the time when the action was executed, the MMR system components used to perform the action, the context in which the action was executed (including the geographic location of the capture device 106) , external resources utilized to perform the action (including business entities 5300) , an execution trace for the action that includes the commands executed, as well as the time, date, parameters for each command, and their completion status (including success, failure, and various degrees of partial success) . Once the historical information has been stored in the MMR system 7800, the method is complete in the process ends.
One notable aspect of the present invention is its use with text passages or text blocks. There are two general methods that the MMR architecture 7800 is used for creating action triggers based on text passages. First, the user 110 can point a capture device 106 at a passage of text in a paper document 118 and an action is retrieved and executed that was previously linked to that text passage. Second, the user 110 can create an action, such as using the capture device 106 like a cell phone, and link the action to a passage of text in an electronic document by pointing the capture device 106 at the passage of text in a printed paper version of the electronic document. The action can be static where the action processor 7802 executes a specified command using input parameters, or it can be dynamic and include a series of commands with the user 110 instructed to take a series of steps and the outcome is unknown. For example, a set of linked menus with choices and results attached to each choice may be presented to the user 110. Pointing the capture device 106 at a document means the image the capture device 106 obtains is recognized by the MMR system 7800. This identifies the x-y location within a page in the document at which the capture device 106 is being pointed. It should be note that the text in a document is not included in order to identify the document. MMR recognition derives features from a configuration of text that allow us to identify it as a side-effect of its two-dimensional layout on a printed page as has been fully described above with regard to patch matching. This distinguishes MMR recognition from bar code recognition or serial number recognition where the bar code or number is explicitly included to identify the document . Thus, the present invention is particularly advantageous because no additional markings to a printed document are added or required for the MMR system to be able to identify and recognize a location in a document.
Another notable aspect of the present invention is that action triggers are provided for non-document images as well text documents. This is similar to augmented reality in that it combines a captured image with a digital or electronic version of the same scene. With the MMR architecture 7800 a whole scene can be identified from an image of a subset, or the scene can be identified from some substantial or significant subsets (visually distinct or unique arrangement of subsets) similar to the way in which MMR identifies a document from any text patch but not from the blank areas or the images within the document. For example, from the image of a car, the MMR architecture 7800 can identify the unique car from the license plate or VIN tags. Considering an analogy to a text document, this would be like identifying a document from a bar code attached to it. The MMR architecture 7800 also identifies a unique car from an image of the tread wear pattern of its tires. Furthermore, one application is the identification of people from their images. The MMR analysis of non-document input can include video as well as audio. People can be identified by the MMR architecture 7800 from comparison of images of their fingertips, images of their face, DNA from their hair, images of the configuration of their teeth, video of their gait while walking, etc. The MMR architecture 7800 can assign individualized actions to specific fingers. For example, when the right index finger is imaged, the system 7800 could retrieve the list of phone numbers you dialed with that finger. Similarly, for music and other sounds, a group of notes can be used to identify an MMR document 500 in the same way a listener is able to identify a song from a sequence of notes.
The method for performing actions triggered by the MMR recognition of non-document images begins by creating or providing a database 3400 that associates images of .objects and x-y locations within those objects to actions. Alternatively for music or sound, the database 3400 would associate waveforms of sounds and time locations in those waveforms to actions. The database 3400 in both cases is dynamically updatable and actions can be added on the fly. A capture device 106 is next provided that includes storage and an optional communications channel. The capture device 106 is used to capture a still image, a video clip or a sound recording. The captured object is analyzed either at the capture device 106 or the MMR processor 102. Next an MMR object and the position in the object is identified. For a single image, it is a position within that image, for a video clip, it is a subset of frames, and for a sound recording it is a sample. For the matching MMR object, retrieve the action with the matching position. Finally, the action is executed on the image capture device 106 or on a MMR processor 102. The execution could be synchronous with the capture of the image data or it could be asynchronous. An example of synchronous action execution would be retrieval of museum opening times from a travel guidebook. An example of asynchronous execution would be attachment of images to a conference guide after a user returns to the office and uploads the data to their PC. Referring now to Figure 81, one embodiment of a method for viewing historical information about actions in accordance with the present invention is described. The method begins by obtaining 8002 an image with the capture device 106, and performing 8004 MMR recognition to determine the document and a location. These steps have been described above with reference to Figure 80 and a variety of other figures above, therefore, that description will not be repeated here. Next, the method searches 8106 the database 3400 for information about actions related to the location. The output of the recognition process is a document and a location within that document. This output is used as a basis to generate a query to search the database 3400. As has been noted above, the database 3400 includes historical data as to when particular actions associated with particular MMR documents were performed. Furthermore, the database 3400 stores other information or metadata such as but not limited to the time an action was executed, the number of times an action was executed, the user that performed the action, the resources that were used to execute the action, etc. The results for the query of the database 3400 that was performed in step 8106 can then be analyzed to produce certain conclusions with regard to the historical information stored about the action. In certain instances, this step may be omitted with the action processor 7802 just sending the results of the query to the capture device 106 for display. Finally, in step 8110, the MMR system 7800 presents the historical information about actions related to the location to the user 110 and the method is complete and ends.
Referring now to Figures 82A and 82B, one embodiment of a method for performing commands associated with actions in accordance with the present invention is shown. An exemplary set of commands and parameters was described in detail above with reference to Figures 34A-36. The commands described here with reference to Figures 82A and 82B have similar functionality and are therefore described in a more general fashion. In this embodiment, an action specifies commands and parameters that include an identifier for a document, a page within the document, and x-y locations within the page. The parameters specified depend on the particular command, and every parameter xs not necessarily pertinent to every command. In general, the method for performing commands associated with actions begins by determining the type of action being performed in steps 8202, 8204, 8206, 8208, 8210, 8212, 8250 and 8252; then performs the steps particular to that command.
The method begins by determining 8202 whether the action is the "RETRIEVE" command. The "RETRIEVE" command retrieves data linked to the recognized x-y location with the document. That data can include menus that specify subsequent steps to be performed on the capture device 106. It could also be static data that will be displayed on the capture device 106. If so, the method retrieves 8214 data from the MMR document 500 or other source. In one embodiment, the retrieve data is stored as part of the MMR document 500. In another embodiment, the retrieve data is stored in the database 3400, and the MMR document 500 includes a reference to the location within the MMR database 3400, where the data is stored. In yet another embodiment, the retrieve data is stored at a remote location outside the MMR system 7800, and the action processor 7802 performs the steps necessary to retrieve the data from the remote location. For example, the remote location may be a web page stored on a web server outside the MMR system 7800, or a location within another proprietary system (not shown) that allows interconnection with the MMR system 7800 through conventional connection mechanism such as a network connection, a VPN connection, or a secure Web interface. The action processor 7802 performs the steps necessary to present menus, receive data and interact with the user 110. The method then sends 8216 the retrieved data to the capture device 106 for presentation to the user 110. After step 8216, the method transitions to step 824, which will be described below.
If the method determines in step 8202 that the action was not the "RETRIEVE" command, the method determines 8204 whether the action is the "INSERT-. TO" command. The INSERT-. TO command inserts data at the x-y location specified by the image patch. The conference guide is an example in which the user adds image files such as JPEG files captured on the capture device 106 to x-y locations within the electronic originals for the paper documents. If so, the method identifies 8218 the data for the command. For example, the data to be inserted may be text input using the capture device 106 or an image or video clip obtained by the capture device. Then, the method identifies 8220 a location at which the received data should be inserted. It should be noted that the location at which the received data should be inserted could be within the MMR document 500, at a location such as in database 3400 in the MMR system 7800, or in a remote location of a system coupled to the MMR system 7800. The data is then inserted 8222 at the location identified in step 8220. After step 8222, the method transitions to step 8242 that is described below.
If the method determines in step 8204 that the action was not the "INSERT-.JTO" command, the method determines 8204 whether the action is the "INSERT-._FROM" command. The "INSERT_FROM" command inserts data from an x-y location determined by an image patch into another document. For example, the user can select text phrases in a printout and add them to a PowerPoint file. If action is the "INSERT-,_FROM" command, the method identifies 8218 a data source for the command. As in the retrieving step described above, the data source may be within the MMR document 500, at a location within the MMR system 7800 or external to the MMR system 7800. Once the data source has been identified, this step may also include the step of retrieving the identified data. This is similar to step 8214 discussed above. After step 8224, the method continues to steps 8220 and 8222, to identify a location at which the data is to be inserted and performs the insertion, respectively. Again, the location at which the data is to be inserted may be within this or another MMR document 500, at a location within the MMR system 7800, or in a remote location in a system coupled to the MMR 7800. After step 8222, the method transitions to step 8242 that is described below.
If the method determines in step 8206 that the action was not the "INSERT-ι_FROM" command, the method determines 8208 whether the action is the "TRANSFER" command. The "TRANSFER" command transfers data linked to an x-y location from a source to a destination. Either the source or the destination could be the MMR client device. An example is the document grabber application in which the PDF for a given paper document is retrieves and transferred to the captured device 106. If the action is the "TRANSFER" command, the method identifies 8226 data and the source for the transfer, and then identifies 8228 a destination for the data. These identification steps 8226, 8228 are similar to the other identification steps 8218, 8220 and 8224 described above. Then the method sends 8230 the data to the destination. The transfer of the data in step 8230 may be done in any of variety of ways such as but not limited to through server to server communication, through a file transfer protocol, or through the e-mail. After step 8230, the method transitions to step 8242 that is described below.
If the method determines in step 8208 that the action was not the "TRANSFER" command, the method determines 8210 whether the action is the "-PURCHASE" command. The "PURCHASE" command performs purchasing of merchandise linked to an x-y location in a document. If the action is the "PURCHASE" command, the method identifies 8226 the item being purchased the seller. In one embodiment, this step may not be necessary where the purchaser and the item are specified or coded as a parameter to the action. In other words, the actions are predefined to purchase a specified item from specified sellers. This increases the number of different commands in the MMR system 7800, however, if the user is using the capture device 106 to specify the goods and the seller as part of his interaction with the MMR system 7800 step5032 must be performed. Then the method purchase of the goods from the seller, such as using an online transaction via the World Wide Web. Those skilled in the art will recognize that the MMR system 7800 may have couplings to various existing entities such as banks, cellular service providers, and couriers and may connect with such entities systems to complete the transaction in any number of ways that combine online retailing mechanisms as well as traditional retailing mechanisms. Once the transaction has been completed, the method continues to step 8242 described below. If the method determines in step 8210 that the action was not the "PURCHASE" command, the method determines 8212 whether the action is the "AUTHOR" command. The "AUTHOR" command creates a new action and adds it to the x-y location specified by the image patch. For example, a user could create a voice annotation and add it to an arbitrary x-y location within a document. If the action is the "AUTHOR" command, the method identifies 8228 the present MMR document 500. If the user is creating a new MMR document, this step of identifying is replaced by the step of creating an MMR document 500. Then the MMR system 7800 identifies a new action and parameters for that new action using input received from the user 110 via the capture device 106. While the step is shown as being a single step, those skilled in the art will recognize that this step may include the presentation of GUIs to the user 110 and receipt from the user 110 of information via the capture device 106 repetitively. Thus, the MMR system 7800 provides the user with the ability to perform on-the-fly modification or creation of actions associated with a particular MMR document 500. Once the MMR document 500, action and parameters have been identified, the action is created and added to the MMR document 500, whether it is an existing MMR document 500 or one that was created in this process. In one embodiment, this step is accomplished by storing a new action and parameters in the database 3400 and linking the action to the NMR document 500 stored in the database 3400. After step 8240, the method transitions to step 8242 that is described below.
If the method determines in step 8212 that the action was not the "AUTHOR" command, the method determines 8250 whether the action is the "PRISTINE_PATCH" command. The "PRISTINEJPATCH" command retrieves an electronic representation for the specified document and extracts an image patch centered at x-y with predefined radius. If the action is the "PRISTINE_PATCH" command, the method identifies 8254 the MMR document 500. Since MMR document 500 an electronic representation of the document or a reference to it, the information from the MMR document 500 is used to retrieve the electronic representation of the document and extract 8256 an image patch generated directly from electronic representation. After step 8256, the method transitions to step 8242 that is described below. If the method determines in step 8250 that the action was not the "PRISTINE_PATCH" command, the method determines 8252 whether the action is the "ACCESS_DATABASE" command. The "ACCESS_DATABASE" command modifies the access controls to any given database to allow the user 110 to access the database using his capture device 106. If the action is the "ACCESS_DATABASE" command, the method identifies 8259 the database 3400 to which access is being granted, and then the MMR system 780 modifies the access for the identified database so that the user can access it. After step 8256, the method transitions to step 8242 that is described below. Finally, the method determines 8242 whether there are additional actions or commands associated with the MMR document
500. As has been noted above, the MMR document 500 may include any number of actions, commands and parameters. As an analogy to computer programming, actions may be considered to be subroutines, commands can be thought of as individual instructions, and the parameters can be thought of as variables or data used by the instructions. In step 8242, the method determines whether there are any additional actions or additional commands for the MMR document 500 that was matched. If not the method is complete and ends. On the other hand, if the MMR document 500 includes any additional actions or commands, the method retrieves 8244 the next command and its parameters and returns to step 8202 to process the next command. It should be noted that the action processor 7802 or the MMR server 8302 (See also Figure 83) includes a MMR Action Execution Queue in one embodiment for ordering performance of actions. The execution of actions in an MMR system 7800 is controlled by an ordered queue. When an action is entered in the queue it is associated with a priority and the resources required for performing the action. The queue ordering function repeatedly inspects the queue and determines the highest priority action waiting for execution for which all the required resources are available. An action in the queue can expire if its resources do not become available in a suitable period of time. An example action is a RETRIEVE command issued by a user interface application that provides up-to-the-minute information about stock prices linked to an image of text from a page of stock market listings. The MMR architecture 7800 can insert this in the action execution queue with an IMMEDIATE priority. If the link to current stock prices is available, the action can executed as soon as it is received. If the link to current stock prices is not available, the action can be inserted in the queue with a timeout value. For something as volatile as stock prices, the timeout might be as little as 30 seconds. If the required resources are not available within that time, the action would be expired (i.e., never executed).
Another example of ordering the action execution queue would be the addition of an action that inserts a video clip at an x-y location in an electronic document determined by an image of a patch of text. That could be assigned a priority WHEN_CONNECTED that would include a specification for the database that's needed. This could be the MMR database on the user's PC that might only be connected to the capture device 106 at some future time. The timeout value could be unlimited since it could be as valid to perform the action years in the future as it is to perform the action in the next five minutes.
A unique aspect of the MMR Action Execution architecture is its ability to be suspended by the MMR Document Fingerprint Matching system as shown in Figures 6 and 7. The control structure 714 constantly monitors input from the quality assessment module 712. When it detects a video frame that could be recognized (e.g., it contains an image that appears to be machine-printed text) , it can send an interrupt signal to the processor 210 that suspends execution of a currently running MMR action. This is done to maximize the computational resources available to the document fingerprint matching system. The previously suspended MMR action can be resumed later.
The use of the commands and how they allow the MMR architecture 7800 to provide numerous applications or uses will now be described. This list is not exhaustive, but rather provided by way of example to illustrate the end result achieved, the use of the capture device 106 by the user 110 and the commands and parameters that are used to perform or trigger the action. For each example, the action and commands to achieve that action are provided.
Conference Guide: In this usage scenario, the user 110 captures a multimedia file such as a video clip using a phone 106 and attaches it to the electronic original for a document by pointing at a text patch in the conference guide. The action of adding multimedia to a patch of text is performed using the INSERT Command to add data and the multimedia file at the location of the patch of text in the corresponding MMR document 500.
Travel Guidebook: In this usage scenario, the user 110 retrieves a multimedia file by pointing at a passage of text. For example, the multimedia file could be a clip about a new exhibit at a particular place described by the text, or the multimedia file can be updated text indicating the opening and closing times of an establishment. The action of retrieving a multimedia file linked to a patch is performed using the RETRIEVE command at the location of the patch of text in the corresponding MMR document 500.
Stock Listings: In this usage scenario, the user 110 retrieves up-to-date information about a stock by pointing at the stock page in a newspaper. Data in the MMR document 500 points back to personalized information about the user including his brokerage account and holdings. This is derived from another application (e.g., Quicken®) on the user's desktop PC, MMR computer 112. The action of data retrieval (stock holdings) and financial transaction (stock purchase) is initiated or triggered by the RETRIEVE command at the location of the patch of text from a shared database that includes stock ticker information.
MMR Integrated with Advertisements in Commercially Printed Documents: In this usage scenario, advertisements are MMR-linked to products associated with the advertisement. For example, a movie advertisement in a printed magazine can be linked to the Fandango web site where one can purchase tickets. The actions are retrieving information linked to advertisement and charging the user 110 for that benefit. The action is initiated or triggered by the RETRIEVE command at the location of the patch of text in the corresponding MMR document 500, where the MMR document is the movie advertisement.
Multimedia Tagging: In this usage scenario, phrases extracted from a printed document are chosen and attached to newly captured multimedia. The action is selecting text phrases from an MMR-ready document and attaching them to multimedia captured by the capture device 106. The action is triggered by the INSERT_FROM command to insert data at the location of the patch of text into a MMR document 500 along with the multimedia captured on capture device 106.
MMR Document Grabber: In this usage scenario, the user 110 uses the MMR architecture 7800 to select a document and transfer it to the capture device 106. The action is identifying and transferring electronic version of the document from the server 114 to the capture device 106. The action is performed with the TRANSFER command to send data at the location of the patch of text from the server 114 to the MMR client on the capture device 106.
MMR Front End for Scheduling Applications: In this usage scenario, the user captures a date, selects it from an MMR-ready document and adds the date to a calendar manager application. The action is selecting "dates" from an MMR-ready document and inserting them in another software application on the capture device 106. The action is initiated by the INSERT_FROM command on data at the location of the patch of text into calendar manager application on the capture device 106. MMR as a UI for Purchasing Media Files; In this scenario, the scanning of a story about a television programs such as "Desperate Housewives" in a magazine such as "People Magazine" triggers the presentation to the user 110 of the option to purchase episodes of the series. The action is the purchasing of episode and the downloading to a user account (TiVo, iPOD, or online iTunes account) . The action performed by the PURCHASE command for data at the location of the patch of text, and the TRANSFER command to transfer the purchase files from their source to the user's account or digital video recorder.
Uniqueness Measurement with MMR: In this scenario, a logo or other graphic is proposed and its distinctiveness against data in a given MMR database is measured. The logo designer is given feedback about the logo's uniqueness. This is an example where the action could be recursive, and the MMR action triggers other MMR actions. The trigger for this a RETRIEVE command to identify the number of MMR documents that approximate the data at the location of the patch of text, and then further analysis can be done to determine a level of distinctiveness.
Collaborative Annotation for MMR: In this scenario, multiple users 110 add annotations to a blog about a given document or book (e.g., kids trade their commentaries about sections of Harry Potter) . The same mechanism could be used to share test questions and answers. Exercises at the end of a chapter are linked to their answers. The answers could be contributed by others or they could be the official answers from the book' s author. The action is retrieving and/or adding multimedia to a shared MMR database 3400 for a publication. The commands used to perform this action are the RETRIEVE command to retrieve data and the INSERTJTO command to put the data at the location of the patch of text.
Intermedia Linking: In this scenario, Monarch Notes (or Cliff Notes) are linked to passages in Shakespeare and vice versa. This could also be used to compare various editorial or critical comments about works or theories. The action is retrieving a pointer to an x-y location within a page of a different publication. The action is performed using the RETRIEVE command for data at the location of the text patch in Cliff Notes and creating a pointer to a text patch in the original work,
Shakespeare's Romeo and Juliet as printed by Scholastic Press.
MMR for On-The-Fly Document Authoring: In this scenario, phrases from MMR-ready documents are chosen and added to another document (e.g., a PowerPoint file) that' s being drafted on the spot. The action is adding data to another document, add is accomplished with the INSERT_FROM command using data and storing at the location of the patch of text in a PowerPoint file.
MMR for Location-Aware Applications: In this scenario, by scanning an ad for a restaurant chain you' re provided a list of those restaurants that are close by to the user' s location. The action is retrieve information based on the MMR result and the capture device 106' s location. The action is triggered by a RETRIEVE command for data matching text patch and in close proximity to capture device 106' s current location. MMR for MP3 Players; When an MMR user 110 points their capture device 106 at a document their associated MP3 player plays a recording that' s been pre-cached on their MP3 player. The capture device 106 communicates with the MP3 player wirelessly by Bluetooth. The action is to initiate an action on another device that's not the capture device 106 or part of the MRR architecture 7800. The command used to accomplish this is the RETRIEVE command.
MMR plus Voicemail: Voice mail is the underlying server for the data provided by MMR. The capture device 106 or other MMR client device retrieves its multimedia by dialing a voice mail box and playing the messages stored there. This is advantageous because not separate server infrastructure is required for MMR, and it can use other computing resources already available to many companies. The action is automated interaction with voice mail system to dial-in and retrieve the multimedia associated with a hot spot. Users 110 could also add audio to a voice mail box. The command used to accomplish this is the AUTHOR command.
MMR Integrated with E-mail: The result of an MMR action is the initiation of steps that cause an email to be delivered to the user's email address. The action is initiating steps that result in the sending of an email message.
MMR Integrated with Calendar Applications: A user 110 captures and the system 7800 recognizes an advertisement and orders merchandise from a non-MMR-database entity. That occurs and a reminder about the expected completion of that transaction is entered in the user's calendar. The action is insertion of time-sensitive information into a user's calendar application. The action can be initiated or triggered by the PURCHASE command, after which the additional processing in invisible to the user.
Personalized Ads in Commercially Printed Document: In a catalog example, individual advertisements are printed in a way that personal information (e.g., credit card number) is steganographically encoded in the ad. In another case, it is the identification of the publication (e.g., number of the catalog) . That data is extracted by the MMR process and transmitted to the server together with the user' s id as provided by the capture device 106. This guarantees that the MMR request is from the user for whom the catalog was printed. The action is identity verification and transaction (purchase catalog merchandise) , and is triggered by the PURCHASE command.
Referring now to Figure 83, an embodiment of a distributed MMR system architecture 8300 according to the present invention is shown. The distributed MMR system architecture 8300 includes some of the same components with the same functionality as described above with reference to Figure 78. For ease of understanding and clarity of description, like terms and reference numbers are used to denote like devices as those above ing Figure 78. The distributed MMR system 8300 includes the rendered document 118, the user 110, the capture device 106, the database 3400, the MMR recognition module or software 226/610, and the action processor 7802 as part of an MMR server 8302. As can be seen, the components 106, 3400 and 7802 of the distributed MMR system 8300 include software suite 222a-c and all the functionality it provides as has been described above. Those skilled in the art will recognize that each instance of the software suite 222a-n may be a full version of the software suite 222 with all its functionality, only those parts of the software suite 222 relevant to the operations that are capable of being performed on the particular component, or any portion in between.
The MMR server 8302 is any one of the servers that have been described above and can include any portion or all of their functionality. The MMR server 8302 includes additional logic and functionality as has been described above to couple to and interact with other systems. For example, although not shown the MMR server 8302 can be coupled to the cellular infrastructure 132, the wireless fidelity (Wi-Fi) technology 134, Bluetooth technology 136, and/or infrared (IR) technology 138. These and other such coupling such as via network 128 are shown in Figure 83 as direct lines to other devices and generally denoted as signal lines 8304. More particularly, the MMR server 8302 is coupled for communication with the user computer 112, the media server 114, the service provider 122, the set-top box 126, the office portal 120, a first third party (TP) server 8306 and an nth third party server 8308. Like the components of the distributed MMR system 8300, the user computer 112, the media server 114, the service provider 122, the set-top box 126, the office portal 120, a first third-party (TP) server 8306 and an nth third-party server 8308 each include the MMR software suite 222d-n. Again, the each instance of the software suite 222d-n may be a full version of the software suite 222 with all its functionality or only those parts of the software suite 222 relevant to the operations that are capable of being performed on the particular component. The user computer 112, the media server 114, the service provider 122, the set-top box 126, the office portal 120, a first third party
(TP) server 8306 and an nth third party server 8308 each have similar functionality as has been described above. It should be noted that the first third party (TP) server 8306 through nth third party servers 8308 represent other systems to which the MMR system 8300 may be coupled for interoperability. For example, the third party servers 8306, 8308 may be a system of a bank, a cable company, a corporation, etc.
The distributed MMR system 8300 is particularly advantageous for a number of reasons. First, the distributed architecture with many of the components including the software suite 222 allow the MMR processing to be distributed across the MMR system 8300 in any number of ways such as by off loading MMR processing to other systems 112, 114, 122, 126, 120, 8306 and 8308. Second, since all the devices or systems 106, 3400, 8302, 112, 114, 122, 126, 120, 8306 and 8308 interact using the software suite 222, a single consistent set of user interfaces are used whenever the users 110 interact with the MMR system 8300. Third, distributed MMR system 8300 enables use of capabilities of other system 114, 122, 126, 120, 8306 and 6838 to perform actions and commands that the distributed MMR system 8300 would not otherwise be able to perform alone. Fourth, the MMR matching can be used as a trigger to start processes which are performed on other systems 114, 122, 126, 120, 8306 and 6608.
One application for this distributed architecture is to perform more computational functions on the capture device 106. For example, automatically translate a document when it's copied by a server such as multifunction printer, but deposit the copied document on the capture device. Similarly, any one of the MMR servers could also translate and apply text-to-speech to the copied document . This could be an output for assistive technology on the copier that does not require people to stand in front of the copier while they use it. Then the user interface for the copier is exported and displayed on the capture device 106. Handicapped users could plug in their cell phone headset and use that to interact with the copier. It could reply with voice prompts or beeps and vibrations. Users could also practice using the copier on the camera phone before they are standing in front of the copier.
Figure 84 is a flowchart of one embodiment of a method for using the MMR system 8300 for as an input control and output of another third-party system 8306, 8308 in accordance with the present invention. The method begins by obtaining 8002 an image and performing 8004 MMR recognition as described above. Next, a method establishes 8402 a connection between the MMR system 8300, in particular the action processor 7802, and a third-party server 8306. Next, the method presents 8404 data to the user. In one embodiment, this is performed by sending data to the GUI of the capture device 106. In another embodiment, this is accomplished by having the third-party server 8306 present data to the user. For example, if the third-party server 8306 is the cable television infrastructure, the data may be presented to the user by the third-party server 8306 sending data to the set-top box 126 for presentation to the user on the electronic display 124. Those skilled in the art will recognize that this is just one example of how the third-party server 8306 can present the data to the user. There are a variety of other mechanisms that can be used to present the data to the user depending on capabilities and functionality provided by the third-party server 8306. The MMR system 8300 next receives 8406 input at the capture of device 106. The MMR system 8300 receives processes and sends the input to the third-party server 8306. The third-party system 8306 receives the input from the MMR system 8300 and performs 8408 the task associated with the input. Next, the method determines 8410 whether the interaction with the third-party system 8306 is completed. If so the method is complete and ends. On the other hand, if the interaction with the third-party server 8306 is not complete, the method returns to step 8404 to present data to the user, or present a request to the user. The example of use of MMR with a cable television infrastructure could enable a cell phone with a camera to be the control device to the cable TV system. For example, data can be input from the capture device 106 to the MMR system 8300, then to the third party system 8306 (cable television infrastructure) . The third party system 8306 can then use is infrastructure, the set-top box 126 to communicate with the user 110, or communicate back through the MMR system 8300 and the capture device 106. Thus by capturing images of a screen and using the keypad on the capture device 106, the user 100 could order products shown on the television, control the operation of the set-top box 126, pay bills, perform banking, order movies or any number of other operations . This is only the use of the capture device 106, the MMR system 8300 and a third party system 8306. Those skilled in the art will understand the possibilities where multiple third party systems 8306, 8308 are used together with the MMR system 8300. Referring now to Figure 85, a method for using the MMR system 8300 in an office environment where the system 8300 interacts with third party systems 8306 is described. The method begins with a request being input 8502 to the MMR system 8300. This request is for access to the office environment functionality provided by the MMR system 8300. Since the MMR system 8300 is coupled to the MMR computer 112, and the office portal 120, it is capable of providing additional information and documents that are related to a given document such as by its context. Moreover, additional actions can be initiated that related to the office environment in which a rendered document is used. Next, the MMR system 8300 presents 8504 to the user 110 the MMR document processing options that are available with the system 8300. Such options include, but are not limited to: 1) retrieve the original editable form of a document (e.g. Word file) with MMR; 2) retrieve the path to the editable form of the document; 3) retrieve the edit history for a document; 4) retrieve other documents in the same directory as the editable form of the document; 5) add a voice annotation to the original editable form of the document; 6) view "events" associated with the document such as captured by the office portal; 7) physically locate other versions of a given document; 8) listen to conversations that occurred when this document was on top of your desk; 9) determine other people who printed a given document or versions of it; 10) determine who has read a given section of a document on or off-line; 11) communicate with others who have recently read a given section of a document; 12) perform collaborative document review; or 13) other special operations.
The method next receives 8506 input from the user 110. The method continues by determining 8508 whether the user 110 has input a request to obtain the history of a document. If the user 110 has requested the history of a document, the method continues to find 8510 the document history and present it to the user 110. For example, by pointing at a section of a document, the user 110 can see on the capture device 106 or other system 8300 display when, where, and who created or modified the document. The user 110 may also retrieve the original editable form of a document (e.g. Word file) with MMR. Other history information and operations include: retrieving other documents in the same directory as the editable form of the document; viewing "events" associated with the document (e.g., the conversations that occurred near the user' s PC 112 when the document was printed -- these events may be captured by another device, e.g., the office pl20, different from the one that printed the document) ; viewing the history of creating the document that includes the PC events that occurred when the document was open such as the web pages browsed, videos viewed, etc.; viewing other documents that were physically adjacent to the present document at some time which implies the use of some other device to capture images of a desktop or identify documents - it could use RFID and apply MMR recognition to those images. The retrieval system provides images of those documents and the events and history attached to them. In this way, a graph of a document' s physical lifecycle could be generated. The method then continues to step 8524.
If the user 110 has not input an obtain history request, the method continues by determining 8512 whether the user 110 has an add annotation to the document request. If the user 110 has input a request to add an annotation to the document, the method captures 8514 the annotation and adds it to the MMR document 500. For example, the user 110 can add a voice annotation, or a picture or a video clip to the original editable form of the document. The method then continues to step 8524.
If the user 110 has not input an add annotation request, the method continues by determining 8516 whether the user 110 has selected a contact others request. If the user 110 has input a contact others request, the method determines 8518 others that have accessed the MMR document 500 and contacts them so that the user 110 can communicate with others who have recently read a given section of a document. For example, by pointing a capture device 106 at a paragraph, the user 110 gets a list of people who recently read a section of the MMR document 500 and can immediately initiate a conversation with them. This could be done by triggering a cell phone call or starting an IM session with a selected person on the list. Alternatively, an MMR document may include an action such that others are notified in real-time when a particular document is read or accessed. The method then continues to step 8524 .
If the user 110 has not input a contact others request, the method continues by determining 8520 whether the user 110 has selected a special operation to be performed. If the user 110 selected that a special operation be performed, the method proceeds and performs 8522 that special operation. The MMR system 8300 is able to perform a number of special operations that are useful in an office environment. A few examples are described here by way of example to illustrate the capabilities of the MMR system 8300. For example, one special operation is to physically locate other versions of a given document. As above, this operation uses a separate image capture system such as a PTZ camera to watch other users' desktops and applies MMR recognition to the images it captures. The presence of documents is logged into a shared database system. A second special operation is listening to conversations that occurred when this document was on top of your desk. This operation uses a camera-based document tracker plus an audio capture system that attaches recordings to documents the camera captures. A third special operation is determining other people who printed a given document or versions of it, when they printed it and what printers were used. This utilizes a shared database and a version matching program with logic that determines how similar documents are to one another. A fourth special operation determines who has read a given section of a document online. This operation uses screen monitoring software that matches the text written on a PC screen to a database on an ongoing basis. The matching process uses either the MMR recognition algorithms or text-based matching. Alternatively, the screen text can be acquired from the GDI engine we' re currently using to capture printed documents since it often generates the text shown on the screen. A fifth special operation determines who has read a given section of a document offline . This operation uses a desktop video monitoring system that capture images of what a user 110 reads. The MMR recognition algorithms identify documents and sections within them, and store the information in a shared database. A sixth special operation is adding the reading history of a document (either online or offline) as meta data to a web browser. This provides a Windows-application-independent method of storing and representing this data. A seventh special operation generates one's reading history (both online and offline) as a timeline. Finally, an eighth special operation is collaborative document review where more than one reader of different versions of the same paper document reviews comments applied by others by pointing their capture device 106 at any section of the document. The annotations are displayed as overlays on top of a document image thumbnail. As noted above these are just sample of some of the special operations the MMR system 8300 is able to executed. After either step 8522 or step 8520, the method determines 8524 whether the interaction with a third party server 8306 is complete. If the interaction is not complete, the method returns to step 8506 to receive further input from the user. If however, the interaction is complete, the method is finished and the process ends. Yet another application of the MMR system 8300 is to provide a unique way of interacting with a personal computer 112 or other computing environment. The MMR recognition is used as a mechanism to trigger or initiate activities that are executed on the personal computer 112. For example, MMR recognition is used to initiate video replay on the personal computer 112. By pointing the capture device 106 at a section of a paper document, the user 110 is shown video clips that show changes in the personal computer 112' s display while that section was visible. This combines capture of the desktop video with the indexing of the text displayed on the screen. In a second example, MMR recognition is used as a web page reminder. By panning a video camera over a document, the user 110 is presented with the traces of the web pages that were viewed while the corresponding section of the document were shown on the personal computer 112' s display. The web pages could be shown in the browser, overlaid on the camera phone's screen, etc. In a third example, the MMR recognition is used to review how a form has been completed. By pointing at a blank form, a user is shown the history of everything they've entered on that form in the past. This could be used with online forms displayed in web browsers. The history of the data entered on those documents could be captured with our screen capture system. In a final example, the MMR recognition is used for retrieving version of a document independent of time . MMR is used to retrieve source files and printed representations for past and future (printed after the document in hand) versions of a document. These examples are just a few ways of using MMR to interact with the personal computer 112 and those skilled in the are will recognize what a powerful tool MMR can be for interacting with the personal computer 112. In one embodiment of the present invention, the MMR system includes an action processor and methods, and MMR documents with an associated action. The MMR document structure is particularly advantageous because the ability to specify different actions for different MMR documents, combined with the ability to create any number of MMR documents for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, addition processing or actions can be triggered or initiated based on MMR recognition. The action processor receives the output of the MMR recognition process which yields an MMR document including at least one action. The action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system. The MMR system architecture is advantageous because an action can be executed by pointing the capture device at a block of text, and the action is performed. For example, the action may be retrieving the text in electronic form to the capture device, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions. The action processor stores historical information about actions in the database. The historical information about actions is stored in association with the x-y location in a block of text, and document and page. This information can then later be retrieved, searched and analyzed in the event the same block of text is captured.
A Mixed Media Reality (MMR) system and associated techniques provide mechanisms for forming a mixed media document that includes media of at least two types (e.g., printed paper as a first medium and digital content and/or web link as a second medium) . The MMR system includes an action processor and methods, and an MMR document with having an associated action. The MMR document specifies different actions for different MMR documents, and creates any number of MMR documents for a particular location on any media, thereby allowing the MMR architecture to serve as a universal trigger or initiator for additional processing. The action processor receives the output of the MMR recognition process which yields an MMR document including at least one action. The action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system. The MMR system architecture can perform action such as retrieving the electronic form of the document to the capture device, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions.
In one embodiment of the present invention, the MMR system includes an action processor and method, and MMR documents with an associated action. The MMR document structure is particularly advantageous because the ability to specify different actions for different MMR documents, combined with the ability to create any number of MMR documents for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, addition processing or actions can be triggered or initiated based on MMR recognition. The action processor receives the output of the MMR recognition process which yields an MMR document including at least one action. The action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system. The MMR system architecture is advantageous because an action can be executed by pointing the capture device at a block of text, and the action is performed. Example actions include retrieving the text in electronic form to the capture device, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions. The MMR system includes a variety of user applications (one or more actions) initiated by the MMR recognition of a text patch such as information retrieval for a travel guide book, stock listings or advertisements; information capture such as recording content from a conference, recording and storing multimedia associated with the document, capturing information for a calendar and on the fly authoring; purchasing media files for storage on any part of an MMR document.
In one particular embodiment, the MMR system includes an action processor and method, and MMR documents with an associated action. The MMR document structure is particularly advantageous because the ability to specify different actions for different MMR documents, combined with the ability to create any number of MMR documents for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, addition processing or actions can be triggered or initiated based on MMR recognition. The action processor receives the output of the MMR recognition process which yields an MMR document including at least one action. The action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system. The MMR system architecture is advantageous because an action can be executed by pointing the capture device at a block of text, and the action is performed. Example actions include retrieving the text in electronic form to the capture device, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions. The MMR system includes a variety of user applications (one or more actions) initiated by the MMR recognition of a text patch such as information retrieval for a travel guide book, stock listings or advertisements; information capture such as recording content from a conference, recording and storing multimedia associated with the document, capturing information for a calendar and on the fly authoring; purchasing media files for storage on any part of an MMR document . In one embodiment of the present invention, the MMR system includes an action processor and method, and MMR documents with an associated action. The MMR document structure is particularly advantageous because the ability to specify different actions for different MMR documents combined with the ability to create any number of MMR documents for a particular location on any media, allows the MMR architecture to serve as a universal trigger or initiator for additional processing. In other words, addition processing or actions can be triggered or initiated based on MMR recognition. The action processor receives the output of the MMR recognition process which yields an MMR document including at least one action. The action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system. The MMR system architecture is advantageous because an action can be executed by pointing the capture device at a rendered document, and the action is performed. Example actions include retrieving the electronic form of the rendered document, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions. The MMR system executes the action using other system and the MMR software is distributed among the MMR system and these other systems. In another embodiment, the MMR system, in particular MMR recognition and the input/output capabilities of the capture device are used as a control mechanism for a third party system.
In one embodiment of the present invention, the MMR system includes an action processor and method, and MMR documents with an associated action. The MMR document structure specifies different actions for different MMR documents combined with the ability to create any number of MMR documents for a particular location on any media, which allows the MMR architecture to serve as a universal trigger or initiator for additional processing. The action processor receives the output of the MMR recognition process which yields an MMR document including at least one action. The action processor executes that action which includes various commands to the MMR system or other systems coupled to the MMR system. The MMR system executes the action using other system and the MMR software is distributed among the MMR system and these other systems. The MMR system architecture is advantageous because an action can be executed by pointing the capture device at a rendered document, and the action is performed. Example actions include retrieving the electronic form of the rendered document, retrieving the specification for the action, inserting data to a MMR document, transferring data between documents, purchasing items, authoring actions or reviewing historical information about actions. In another embodiment, the MMR system, in particular MMR recognition and the input/output capabilities of the capture device, are used as a control mechanism for a third party system. The algorithms presented herein are not inherently related to any particular computer or other apparatus. Various general-purpose and/or special purpose systems may be programmed or otherwise configured in accordance with embodiments of the present invention. Numerous programming languages and/or structures can be used to implement a variety of such systems, as will be apparent in light of this disclosure. Moreover, embodiments of the present invention can operate on or work in conjunction with an information system or network. For example, the invention can operate on a stand alone multifunction printer or a networked printer with functionality varying depending on the configuration. The present invention is capable of operating with any information system from those with minimal functionality to those providing all the functionality disclosed herein.
The foregoing description of the embodiments of the present invention has been presented for the purposes of illustration and description . It is not intended to be exhaustive or to limit the present invention to the precise form disclosed. Many modifications and variations are possible in light of the above teaching. It is intended that the scope of the present invention be limited not by this detailed description, but rather by the claims of this application. As will be understood by those familiar with the art, the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. Likewise, the particular naming and division of the modules, routines, features, attributes, methodologies and other aspects are not mandatory or significant, and the mechanisms that implement the present invention or its features may have different names, divisions and/or formats. Furthermore, as will be apparent to one of ordinary skill in the relevant art, the modules, routines, features, attributes, methodologies and other aspects of the present invention can be implemented as software, hardware, firmware or any combination of the three. Also, wherever a component, an example of which is a module, of the present invention is implemented as software, the component can be implemented as a standalone program, as part of a larger program, as a plurality of separate programs, as a statically or dynamically linked library, as a kernel loadable module, as a device driver, and/or in every and any other way known now or in the future to those of ordinary skill in the art of computer programming. Additionally, the present invention is in no way limited to implementation in any specific programming language, or for any specific operating system or environment. Accordingly, the disclosure of the present invention is intended to be illustrative, but not limiting, of the scope of the present invention, which is set forth in the following claims.
The present invention is based on United States priority applications S.N. 11/461,017 filed July 31, 2006, S.N. 11/461,024 filed July 31, 2006, S.N. 11/461,032 filed July 31, 2006, S.N. 11/461,049 filed July 31, 2006, S.N. 11/461,064 filed July 31, 2006, S.N.11/461, 075 filed July 31, 2006, S.N.11/461,090 filed July 31, 2006, S.N. 11/461,126 filed July 31, 2006, S.N. 11/461,143 filed July 31, 2006, S.N. 11/461,268 filed July 31, 2006, S.N. 11/461,272 filed July 31, 2006, S.N. 60/710,767 filed August 23, 2005, S.N. 60/792,912 filed April 17, 2006, S.N. 60/807,654 filed July 18, 2006, the entire contents of which are hereby incorporated by reference.

Claims

1. A system for creating a mixed media environment that utilizes a first type of medium and a second type of medium, the system comprising: a capture device for capturing a first representation of the first type of medium; a mixed media processor for relating the first representation to a mixed media document having a second representation of the first type of medium and an index; and a media storage for a storing the mixed media document .
2. The system of claim 1, further comprising: a communication mechanism for coupling the capture device to the mixed media processor.
3. The system of claim 1, wherein the communication mechanism is one from the group of a network, a wired coupling, a infrared link, a Bluetooth link, a wireless communication link, a cellular communication link, a data communication link, a mobile data service, a Global System for Mobile Communications, and a public switched telephone network.
4. The system of claim 1, wherein the first type of medium is a paper document, and the second type of medium is one from the group of a data structure, a command, text, audio, video, an image, a digital photograph, web link text, an application file, updated information and services.
5. The system of claim 1, wherein the mixed media processor is adapted to compare the first representation with the second representation to relate the first representation to the mixed media document, and the mixed media processor performs an action in response to a relationship between the first representation to the mixed media document.
6. The system of claim 5, wherein the action is one from the group of retrieving information, placing an order, retrieving a video, retrieving a sound, storing information, creating a new document, printing a document or image, displaying a document or image, searching information, or presenting information.
7. The system of claim 1, wherein the capture device includes a portable input device for capable of capturing digital data or an image representing a portion of the first type of medium.
8. The system of claim 1, wherein the capture device includes a portable output device capable of outputting the second type of medium.
9. The system of claim 1, wherein the capture device is one from the group of a cellular camera phone; a Personal Digital Assistant device; a digital camera; a barcode reader; a radio frequency identification (RFID) reader; a computer peripheral; a web camera; or a video card.
10. The system of claim 1, further comprising a memory coupled to the mixed media processor, the memory for storing instructions and/or data executable by the mixed media processor, the memory storing a content-based retrieval component that retrieves content-based information from a text or image patch.
11. The system of claim 1, further comprising a base media storage for storing the second type of medium in their original form, the base media storage coupled to the mixed media processor.
12. The system of claim 1, further comprising a mixed media storage for a plurality of mixed media documents each having a second representation and an index, the mixed media storage coupled to the mixed media processor.
13. The system of claim 1, further comprising an output device for outputting the second type of medium in response to a signal from the mixed media processor, the output device coupled to the mixed media processor.
14. The system of claim 1, wherein the first representation is a text finger print of a printed document having at least two lines that is usable for pattern matching.
15. The system of claim 1, wherein the first representation uniquely identifies a location in a printed document and is a matchable portion of a printed document.
16. The system of claim 15, wherein the first representation is a text finger print of a printed document having a portion of a first line and a portion of an adjacent second line.
17. The system of claim 1, wherein the mixed media document further comprises a file or data structure of the second type of medium, and wherein the index is link between the file and the second representation.
18. The system of claim 18, wherein the mixed media document further comprises a plurality of files of the second type of medium.
19. The system of claim 1, wherein the mixed media document further comprises text to be presented or one or more commands to be executed, and wherein the index is a link between the text to be presented or one or more commands to be executed file and the second representation.
20. The system of claim 1, wherein the mixed media document further comprises an electronic representation of a document in the first type of medium corresponding to the first representation, and wherein the index is link between the electronic representation and the second representation.
21. The system of claim 1, wherein the index associates the second representation, the mixed media document and the second type of medium.
22. The system of claim 1, wherein the mixed media document has a plurality of second representations each having a corresponding index.
23. A capture device for a mixed media system, the capture device comprising: an input device for capturing a representation of a first media type; a communication transceiver coupled to the input device and the output device for sending and receiving information and commands to and from a mixed media system; and a mixed media processor for comparing the representation to a plurality of mixed media documents each having a corresponding representation, and for performing an action specified by a matching mixed media document if the representation matches the corresponding representation of the matching mixed media document .
24. The system of claim 23, wherein the first media type is a printed document.
25. The system of claim 23, wherein the action is one from the group of retrieving information, placing an order, retrieving a video, retrieving a sound, storing information, creating a new document, printing a document or image, displaying a document or image, searching information, or presenting information.
26. The system of claim 23, further comprising an output device for presenting a second media type, the output device coupled to the mixed media processor to receive instructions and data to be output by the output device.
27. The system of claim 26, wherein the action is outputting the second media type, and the second media type is one from the group of a data structure, a command, text, audio, video, an image, a digital photograph, web link text, an application file, updated information and services.
28. The system of claim 23, wherein the mixed media processor includes a content-based retrieval component that retrieves content-based information from a text or image patch, and wherein the representation of the first media type first is a patch of text.
29. The system of claim 23, wherein the capture device includes a storage device for storing a plurality of mixed media documents.
30. The system of claim 23, wherein the mixed media processor compares representation of the first media type to the corresponding representation by comparing a text finger print of a printed document having a portion of a first line and a portion of an adjacent second line.
31. A device for relating a first media type and a second media type, the device comprising: a mixed media processor having an input and an output for comparing a first representation of a first media type to a plurality of mixed media documents each having a second representation to determine a matching mixed media document, and for performing an action specified by the matching mixed media document, the input of the mixed media processor coupled to receive the first representation; and a storage device for storing the plurality of mixed media documents, the storage device coupled to the mixed media processor.
32. The device of claim 31, further comprising a communication mechanism for coupling a capture device to the mixed media processor.
33. The device of claim 31, wherein the first media type is a paper document, and at least one mixed media document includes a second media type that is one from the group of a data structure, a command, text, audio, video, an image, a digital photograph, web link text, an application file, updated information and services.
34. The device of claim 31, wherein the action is one from the group of retrieving information, placing an order, retrieving a video, retrieving a sound, storing information, creating a new document, printing a document or image, displaying a document or image, searching information, or presenting information.
35. The device of claim 31, further comprising a memory coupled to the mixed media processor, the memory for storing instructions and/or data executable by the mixed media processor, the memory storing a content-based retrieval component that retrieves content-based information from a text or image patch.
36. The device of claim 31, wherein the storage device store second media types in their original form.
37. The device of claim 31, wherein the mixed media documents further comprise an index and a file or data structure, and wherein the index is link between the file and the second representation.
38. The device of claim 31, wherein the mixed media document further comprises an electronic representation of a document of the first media type corresponding to the first representation, and an index that links the electronic representation and the second representation.
39. The device of claim 31, wherein the first representation is a text finger print of a printed document having at least two lines that is usable for pattern matching.
40. A method for providing a mixed media environment for interacting with documents of a first media type and a second media type, the method comprising: generating a representation of a document of a first media type; indexing the generated representation of the document to a mixed media document; acquiring an input representation; comparing the input representation to the generated representation; and performing an action specified by the mixed media document if the input representation is similar to the generated representation .
41. The method of claim 40, wherein the generating the representation of the document of the first media type comprises automatically capturing a text layout of a printed document .
42. The method of claim 41, wherein the automatically capturing is done by one from a group of a printed document capture module, an operating system, a print driver, a scanner, a file transfer mechanism.
43. The method of claim 40, wherein the generated representation is one from the group of a representation of the entire document, a representation of patch of text, a representation of single word, a representation of a section of an image, and any other representation of a matchable portion of the document .
44. The method of claim 40, wherein indexing the generated representation includes association of one from the group of an index, an electronic representation of the document, a second media type, and an action, with the generated representation .
45. The method of claim 40, wherein indexing the generated representation includes one from the group of specifying x-y locations of characters of a printed document, specifying x-y locations of words of the printed document, specifying x-y locations of an image or a portion of an image in a printed document, performing an OCR operation and specifying x-y locations of characters and/or words, performing feature extraction and specifying x-y locations of characters and/or words.
46. The method of claim 40, wherein acquiring an input representation comprises one from the group of scanning a patch of text, scanning a patch of text and preprocessing to determine the likelihood that an intended feature description is extracted correctly, scanning a machine-readable identifier, inputting data that identifies the document, receiving email with the document attached, receiving the document by file transfer, scanning a portion of an image, and inputting the document.
47. The method of claim 40, wherein comparing the input representation to the generated representation further comprises performing pattern matching between the input representation and the generated representation.
48. The method of claim 47, wherein the pattern matching is performed by comparing the document fingerprint of the input representation to the document fingerprint of the generated representation.
49. The method of claim 48, wherein comparing the document fingerprint includes extracting features from a captured image, composing descriptors from those features, and looking up a document and patch that contain a percentage of those descriptors.
50. The method of claim 40, wherein performing an action specified by the mixed media document comprises retrieving a predetermined action that is associated with the mixed media document having the matching generated representation.
51. The method of claim 40, wherein the action is one from the group of retrieving information, writing information to a location, performing a search for information, displaying information on a client device, conducting an interactive dialog, deferring the action for later execution, modifying a document, purchase of a product, and input of a command to another system.
EP06796848A 2005-08-23 2006-08-22 System and methods for creation and use of a mixed media environment Ceased EP1917638A4 (en)

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US71076705P 2005-08-23 2005-08-23
US79291206P 2006-04-17 2006-04-17
US80765406P 2006-07-18 2006-07-18
US11/461,032 US7672543B2 (en) 2005-08-23 2006-07-31 Triggering applications based on a captured text in a mixed media environment
US11/461,049 US7920759B2 (en) 2005-08-23 2006-07-31 Triggering applications for distributed action execution and use of mixed media recognition as a control input
US11/461,024 US7991778B2 (en) 2005-08-23 2006-07-31 Triggering actions with captured input in a mixed media environment
US11/461,268 US7639387B2 (en) 2005-08-23 2006-07-31 Authoring tools using a mixed media environment
US11/461,143 US8156427B2 (en) 2005-08-23 2006-07-31 User interface for mixed media reality
US11/461,090 US7551780B2 (en) 2005-08-23 2006-07-31 System and method for using individualized mixed document
US11/461,064 US7669148B2 (en) 2005-08-23 2006-07-31 System and methods for portable device for mixed media system
US11/461,126 US8195659B2 (en) 2005-08-23 2006-07-31 Integration and use of mixed media documents
US11/461,272 US8005831B2 (en) 2005-08-23 2006-07-31 System and methods for creation and use of a mixed media environment with geographic location information
US11/461,075 US7812986B2 (en) 2005-08-23 2006-07-31 System and methods for use of voice mail and email in a mixed media environment
US11/461,017 US7702673B2 (en) 2004-10-01 2006-07-31 System and methods for creation and use of a mixed media environment
PCT/JP2006/316814 WO2007023994A1 (en) 2005-08-23 2006-08-22 System and methods for creation and use of a mixed media environment

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