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WO2023184902A1 - 拍摄设备及其软件功能和拍摄参数自适应方法 - Google Patents

拍摄设备及其软件功能和拍摄参数自适应方法 Download PDF

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Publication number
WO2023184902A1
WO2023184902A1 PCT/CN2022/121140 CN2022121140W WO2023184902A1 WO 2023184902 A1 WO2023184902 A1 WO 2023184902A1 CN 2022121140 W CN2022121140 W CN 2022121140W WO 2023184902 A1 WO2023184902 A1 WO 2023184902A1
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WO
WIPO (PCT)
Prior art keywords
shooting
tag
module
parameters
software functions
Prior art date
Application number
PCT/CN2022/121140
Other languages
English (en)
French (fr)
Inventor
侯俊
黄衍豊
王斌斌
Original Assignee
深圳市猿人创新科技有限公司
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Application filed by 深圳市猿人创新科技有限公司 filed Critical 深圳市猿人创新科技有限公司
Publication of WO2023184902A1 publication Critical patent/WO2023184902A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/60Control of cameras or camera modules
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/60Control of cameras or camera modules
    • H04N23/667Camera operation mode switching, e.g. between still and video, sport and normal or high- and low-resolution modes
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/60Control of cameras or camera modules
    • H04N23/617Upgrading or updating of programs or applications for camera control
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06KGRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
    • G06K7/00Methods or arrangements for sensing record carriers, e.g. for reading patterns
    • G06K7/10Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation
    • G06K7/10009Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves
    • G06K7/10297Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves arrangements for handling protocols designed for non-contact record carriers such as RFIDs NFCs, e.g. ISO/IEC 14443 and 18092
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06VIMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
    • G06V10/00Arrangements for image or video recognition or understanding
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/60Control of cameras or camera modules
    • H04N23/62Control of parameters via user interfaces
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/60Control of cameras or camera modules
    • H04N23/64Computer-aided capture of images, e.g. transfer from script file into camera, check of taken image quality, advice or proposal for image composition or decision on when to take image
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/60Control of cameras or camera modules
    • H04N23/66Remote control of cameras or camera parts, e.g. by remote control devices
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/80Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication

Definitions

  • the present application relates to the field of photography, and in particular to a photography equipment and its software functions and a method for adaptive adjustment of photography parameters.
  • a camera is one of the essential travel tools.
  • the camera can effectively record the beautiful moments during the trip. Then, in different travel scenarios, the best software functions and shooting parameters of the camera are different.
  • the user enters an application scenario, or switches from one application scenario to another, he needs to manually adjust it to suit the current application scenario. software functions and shooting parameters, and the parameter adjustment process is very complicated, bringing many changes to users.
  • the purpose of this application is to provide a shooting device, its software functions and a method for adaptive adjustment of shooting parameters to solve the above technical problems.
  • the first aspect of this application provides a shooting device, including:
  • a shooting module used to be installed on a mounting carrier to capture images, wherein the mounting carrier is provided with a short-range identification tag;
  • a memory used to store a correspondence table between a number of preset tag identification codes and a number of shooting modes, where each shooting mode has corresponding software functions and shooting parameters;
  • a tag identification module configured to identify the tag identification code of the short-distance identification tag when the shooting device is close to the short-distance identification tag;
  • a processor configured to determine the shooting mode corresponding to the tag identification code from the correspondence table according to the tag identification code recognized by the tag identification module, and adaptively adjust the software of the shooting module according to the shooting mode. functions and shooting parameters.
  • the second aspect of this application provides a method for adaptively adjusting software functions and shooting parameters, which is applied to a shooting device.
  • the shooting device can be installed on an installation carrier to capture images, including:
  • the shooting mode corresponding to the tag identification code is determined from a correspondence table pre-stored by the shooting device, wherein the correspondence table includes correspondences between several shooting modes and several preset tag identification codes. relationship, each shooting mode has corresponding software functions and shooting parameters; and
  • the shooting equipment and its software functions and shooting parameters adaptive adjustment method of the present application can determine the current application scenario of the shooting device based on the tag identification code of the close range identification tag, and adaptively adjust the software functions and shooting parameters suitable for the application scenario. , more user-friendly and able to bring convenience to users.
  • Figure 1 is a schematic module diagram of a shooting system provided by an embodiment of the present application.
  • FIG. 2 is a schematic module diagram of a shooting device provided by the first embodiment of the present application.
  • Figure 3 is a schematic module diagram of a shooting device provided by the second embodiment of the present application.
  • FIG. 4 is a schematic flowchart of the software function and the adaptive adjustment method of shooting parameters provided by the first embodiment of the present application.
  • FIG. 5 is a schematic flowchart of the software function and the adaptive adjustment method of shooting parameters provided by the second embodiment of the present application.
  • FIG. 1 is a schematic module diagram of a shooting system 1000 in an embodiment of the present application.
  • the shooting system 1000 includes a shooting device 100 and an installation carrier 200 .
  • the photographing device 100 may be, but is not limited to, an action camera, an ordinary camera, or any other photographing device with photographing functions, such as a mobile phone, a tablet computer, etc.
  • the mounting carrier 200 is a bracket or carrier used in various application scenarios.
  • the mounting carrier 200 can be an anti-collision shell for outdoor skiing; or the mounting carrier 200 can be a diving shell. Waterproof shell; alternatively, the installation carrier 200 may be an anti-collision shell used in hiking sports; or the installation carrier 200 may be an anti-collision shell used in high-speed racing, etc.
  • the installation carrier 200 is provided with a short-range identification tag, such as an NFC tag.
  • the short-distance identification tag is disposed within a preset range of the installation position of the installation carrier 200 for installing the photographing device 100, so as to allow the photographing device 100 to be installed on the installation position of the installation carrier 200.
  • the photographing device 100 can establish a short-range communication connection with the short-range identification tag and perform point-to-point communication, thereby identifying the tag identification code of the short-range identification tag.
  • the short-range identification tag is an NFC tag. It can be understood that in other embodiments, the short-distance identification tag may also be other types of tags capable of short-distance identification.
  • FIG. 2 is a schematic module diagram of the shooting device 100 in the first embodiment of the present application.
  • the photographing device 100 includes a photographing module 110, a memory 120, a tag recognition module 130 and a processor 140.
  • the processor 140 is electrically connected to the shooting module 110, the memory 120 and the tag recognition module 130 respectively.
  • the photographing module 110 is installed on a mounting carrier 200 to capture images.
  • the memory 120 is used to store a correspondence table between a number of preset tag identification codes and a number of shooting modes, where each shooting mode has corresponding software functions and shooting parameters.
  • the tag identification module 130 is configured to identify the tag identification code of the short-distance identification tag when the photographing device 100 is close to the short-distance identification tag.
  • the processor 140 is configured to determine the shooting mode corresponding to the tag identification code from the correspondence table according to the tag identification code recognized by the tag identification module 130, and adaptively adjust the shooting mode according to the shooting mode. Set of software functions and shooting parameters.
  • the shooting device 100 can be applied to various application scenarios, such as various outdoor scenes underwater and on land, various application scenarios require different software functions and shooting due to differences in illumination, movement speed, etc. Only the parameters can achieve good shooting effect. Therefore, in this application, the shooting device 100 is provided with a tag recognition module 130.
  • the tag recognition module 130 can recognize the tag of the close range recognition tag on the installation carrier 200.
  • the identification code can determine the current application scenario of the shooting device based on the tag identification code of the short-range identification tag, and adaptively adjust the software functions and shooting parameters suitable for the application scenario, which is more user-friendly and can bring convenience to users.
  • the photographing module 110 is a photographing component with an image capturing function, which may be a camera itself or a camera module.
  • the memory 120 may be various types of memories with storage functions.
  • the tag recognition module 130 is a short-range tag recognition module, for example, an NFC tag recognition module.
  • the processor 140 may be various types of processing chips with data processing and control functions.
  • the short-range identification tag is an NFC tag, and the NFC tag is an active tag or a passive tag.
  • the NFC tag has identifiable data written in it, and the data is in read-only mode.
  • the software functions include but are not limited to recording, sharing, live broadcast, downloading, data transmission, editing, lighting effects, sounds, indicator lights, graphics, etc.
  • the shooting parameters may include but are not limited to shooting resolution, frame rate, white balance, exposure value, etc. It can be understood that the software functions and shooting parameters may also include other types of software functions and shooting parameters.
  • the shooting mode may include but is not limited to hiking mode, outdoor riding mode, diving mode, skiing mode, high-speed racing mode, etc. It can be understood that the shooting mode may also include other types of shooting modes.
  • the short-distance identification tag is written with a tag identification code corresponding to the outdoor riding mode.
  • the tag identification module 130 of the shooting device 100 recognizes the tag identification code corresponding to the outdoor riding mode, it determines that the current corresponding mode is the outdoor riding mode, and controls the shooting module to switch to the software function corresponding to the outdoor riding mode. and shooting parameters, such as shooting resolution, frame rate, white balance, exposure value, etc., to achieve an excellent user experience.
  • FIG. 3 is a schematic module diagram of the shooting device 100a in the second embodiment of the present application.
  • the photographing device 100a is similar to the photographing device 100, except that the photographing device 100a further includes an input unit 150.
  • the input unit 150 may be various types of input elements, for example, a key component with a key input function, a touch component with a touch input function, or a recording component with a voice input function, etc.
  • the input unit 150 is electrically connected to the processor 140 .
  • the input unit 150 is used to generate corresponding parameter adjustment signals in response to the user's parameter adjustment operations. For example, the user can manually debug different software functions and shooting parameters.
  • the processor 140 is configured to adjust the software functions and shooting parameters of the shooting module 110 in response to the parameter adjustment signal, and compare the adjusted software functions and shooting parameters with the close range identification tag on the installation carrier 200
  • the tag identification codes are matched and stored in the correspondence table of the memory 120 .
  • the processor 140 captures images of different areas according to the image sensor of the shooting module 110, obtains different exposure times of the image sensor, and adjusts appropriate white balance, resolution, ISO value, etc. according to the different exposure times.
  • the software functions and shooting parameters of each application scenario can be adjusted in a more refined manner, making it more suitable for the current application scenario.
  • the processor 140 controls the shooting module 110 Exit the shooting mode.
  • the photographing device 100a and the mounting carrier 200 cannot be recognized due to a long distance, it means that the photographing device 100a has been removed from the mounting carrier 200, and there is no need to continue shooting in the current environment. Therefore, Need to exit the current shooting mode.
  • the processor 140 after controlling the shooting module 110 to exit the shooting mode, the processor 140 also controls the shooting module 110 to enter the default shooting mode.
  • the default shooting mode may be one of the above shooting modes, or the default shooting mode may be other conventional shooting modes.
  • the processor 140 controls the software function of the shooting module 110 and The shooting parameters are adjusted to the latest software functions and shooting parameters of the shooting mode that match the tag identification code.
  • shooting can be performed based on the latest software functions and shooting parameters of the shooting mode matching the tag identification code, and the shooting effect can better meet the user's shooting needs.
  • the memory 120 when the shooting device 100a has multiple different users, the memory 120 also stores a correspondence table corresponding to each user, and the input unit 150 also has User information input functions, for example, input user information through face recognition, input user information through voice recognition, identify user information through text input, etc.
  • the processor 140 determines the current user according to the input user information, matches the corresponding correspondence table for the user, and adjusts the software functions and shooting parameters of the shooting module 110 according to the corresponding correspondence table matched by the user. to the software functions and shooting parameters corresponding to the tag identification code in the installation carrier 200 in the correspondence table that matches the user.
  • the corresponding correspondence table is set according to the preferences of each user, so that each user has more personalized software functions and shooting parameters in the corresponding application scenario, and is more humane.
  • the shooting device 100a further includes a speed sensor 160.
  • the speed sensor 160 is used to sense the movement speed of the shooting device 100a and generate a corresponding speed sensing signal.
  • the processor 140 determines the movement speed of the shooting device 100a in response to the speed sensing signal. It can be understood that the processor 140 also dynamically adjusts the software functions and shooting parameters in the current shooting mode of the shooting module 110 according to the movement speed of the shooting device 100a to match the movement of the shooting device 100a. Match the speed to achieve better shooting results.
  • the photographing device 100a further includes a light sensor 170.
  • the light sensor 170 is electrically connected to the processor 140 .
  • the light sensor 170 is used to sense the current ambient light and generate a corresponding light sensing signal.
  • the processor 140 is configured to determine the current light intensity in response to the light sensing signal, and dynamically adjust the software functions and shooting parameters of the shooting module 110 in the current shooting mode according to the light intensity to match the required light intensity.
  • the illumination intensity of the current environment of the shooting device 100a is matched to achieve better shooting effects.
  • FIG. 4 is a schematic flowchart of the software function and the adaptive adjustment method of shooting parameters in the first embodiment of the present application.
  • the method is applied to a photographing device.
  • the photographing device may be the above-mentioned photographing device 100 or the photographing device 100a.
  • the photographing device can be set up on a mounting carrier 200 to capture images.
  • the installation carrier 200 is provided with a short-range identification tag.
  • the method includes step 410: identifying a tag identification code of a short-distance identification tag when the photographing device is close to the short-distance identification tag.
  • 430 Adaptively adjust the software functions and shooting parameters of the shooting module 110 according to the shooting mode.
  • the shooting equipment can be applied to various application scenarios, such as various outdoor scenes underwater and on land, various application scenarios require different software functions and shooting parameters due to differences in illumination, movement speed, etc. Only in this way can we have a good shooting effect. Therefore, in this application, the shooting device can identify the tag identification code of the short-distance identification tag on the installation carrier 200, and determine the current application scenario of the shooting device based on the tag identification code, and can be adaptive. The software functions and shooting parameters are adjusted to suit the application scenario, which is more user-friendly and can bring convenience to users.
  • the software functions and shooting parameters may include but are not limited to shooting resolution, frame rate, white balance, exposure value, etc. It can be understood that the software functions and shooting parameters may also include other types of software functions and shooting parameters.
  • the shooting mode may include but is not limited to hiking mode, outdoor riding mode, diving mode, skiing mode, high-speed racing mode, etc. It can be understood that the shooting mode may also include other types of shooting modes.
  • the short-distance identification tag is written with a tag identification code corresponding to the outdoor riding mode.
  • the tag identification module 130 of the shooting device recognizes the tag identification code corresponding to the outdoor riding mode, it determines that the current corresponding mode is the outdoor riding mode, and controls the shooting module to switch to the software function corresponding to the outdoor riding mode and Shooting parameters, such as shooting resolution, frame rate, white balance, exposure value, etc., to achieve an excellent user experience.
  • FIG. 5 is a schematic flowchart of the software function and the adaptive adjustment method of shooting parameters in the second embodiment of the present application.
  • the software function and shooting parameter adaptive adjustment method includes steps: 510:
  • the tag recognition module 130 of the shooting device is close to the short-range recognition tag of the installation carrier 200, and establishes a point-to-point communication connection with the short-range recognition tag.
  • step 520 Whether the tag identification module 130 successfully identifies the tag identification code of the short-range identification tag installed on the carrier 200. If the identification is successful, step 530 is entered. If the identification is unsuccessful, step 520 is repeated.
  • each shooting mode has corresponding software functions and shooting parameters.
  • the software functions and shooting parameters of each application scenario can be more finely adjusted, and can be more adapted to the current application scenario.
  • the shooting device and the installation carrier 200 cannot be recognized due to a long distance
  • the close-range identification tag is located on the mounting carrier 200 , it indicates that the shooting device 100 has been removed from the mounting carrier 200 , and there is no need to continue shooting in the current environment. Therefore, it is necessary to exit the current shooting mode.
  • the method for adaptive adjustment of software functions and shooting parameters further includes the step of: after controlling the shooting module 110 to exit the shooting mode, also controlling the shooting module 110 to enter the default mode.
  • the default shooting mode may be one of the above shooting modes, or the default shooting mode may be other conventional shooting modes.
  • the software function and shooting parameter adaptive adjustment method further includes the step of: when controlling the tag identification module 130 to recognize the tag identification code of the short-distance identification tag again, control the The software functions and shooting parameters of the shooting module 110 are adjusted to the latest software functions and shooting parameters of the shooting mode that match the tag identification code.
  • shooting can be performed based on the latest software functions and shooting parameters of the shooting mode matching the tag identification code, and the shooting effect can better meet the user's shooting needs.
  • a correspondence table corresponding to each user is also stored in the shooting device, and the software functions and shooting parameters are adaptive
  • the adjustment method also includes the steps of: determining the current user based on the input user information;
  • the corresponding correspondence table is set according to the preferences of each user, so that each user has more personalized software functions and shooting parameters in the corresponding application scenario, and is more humane.
  • the software function and shooting parameter adaptive adjustment method further includes the steps of: sensing the movement speed of the shooting device;
  • the software functions and shooting parameters in the current shooting mode of the shooting module 110 are dynamically adjusted according to the movement speed of the shooting equipment to match the movement speed of the shooting equipment.
  • the software function and shooting parameter adaptive adjustment method further includes the steps of: sensing current light intensity;
  • the software functions and shooting parameters of the shooting module 110 in the current shooting mode are dynamically adjusted according to the illumination intensity to match the illumination intensity of the current environment of the shooting device.
  • each embodiment has its own emphasis in description.
  • parts that are not described in detail in a certain embodiment please refer to the relevant descriptions of other embodiments.
  • the disclosed embodiments of the shooting devices 100 and 100a are only illustrative, and other implementation forms are possible.
  • the division of units is only a logical function division. In actual implementation, there may be other division methods. For example, multiple units or components may be combined or integrated into another system, or some features may be ignored or not executed. .

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Abstract

本申请提供一种拍摄设备及其软件功能和拍摄参数自适应方法。拍摄设备包括:拍摄模组,用于被安装在一安装载体上以拍摄图像,安装载体上设置有近距离识别标签;存储器,用于存储若干预设标签识别码与若干拍摄模式的对应关系表,每种拍摄模式具有对应的软件功能和拍摄参数;标签识别模块,用于在拍摄设备靠近一近距离识别标签时识别近距离识别标签的标签识别码;处理器,用于根据标签识别模块识别的标签识别码从对应关系表中确定标签识别码对应的拍摄模式,并根据拍摄模式自适应调整拍摄模组的软件功能和拍摄参数。本申请能够根据近距离识别标签的标签识别码确定拍摄设备当前的应用场景,并自适应的调整到适合应用场景的软件功能和拍摄参数。

Description

拍摄设备及其软件功能和拍摄参数自适应方法 技术领域
本申请涉及拍摄领域,尤其涉及一种拍摄设备及其软件功能和拍摄参数自适应调整方法。
背景技术
对于户外爱好者而言,照相机是必备的旅行工具之一,照相机可以有效地记录旅行过程中的美好瞬间。然后,在不同的旅行场景下,照相机的最佳软件功能和拍摄参数是不同的,当用户进入一个应用场景,或者从一个应用场景切换到另外一个应用场景时,需要手动调整到适合当前应用场景的软件功能和拍摄参数,而且参数调整过程非常复杂,为用户带来诸多不变。
发明内容
本申请的目的在于提供一种拍摄设备及其软件功能和拍摄参数自适应调整方法,以解决上述技术问题。
为了解决上述技术问题,本申请第一方面提供了一种拍摄设备,包括:
拍摄模组,用于被安装在一安装载体上以拍摄图像,其中,所述安装载体上设置有近距离识别标签;
存储器,用于存储若干预设标签识别码与若干拍摄模式的对应关系表,其中,每种拍摄模式具有对应的软件功能和拍摄参数;
标签识别模块,用于在所述拍摄设备靠近一所述近距离识别标签时识别所述近距离识别标签的标签识别码;
处理器,用于根据所述标签识别模块识别的标签识别码从所述对应关系表中确定所述标签识别码对应的拍摄模式,并根据所述拍摄模式自适应调整所述拍摄模组的软件功能和拍摄参数。
本申请第二方面提供了一种软件功能和拍摄参数自适应调整方法,应用于一拍摄设备上,所述拍摄设备能够被安装在一安装载体上以拍摄图像,包括:
在所述拍摄设备靠近一位于所述安装载体上的近距离识别标签时识别所述近距离识别标签的标签识别码;
根据识别的标签识别码从所述拍摄设备预存的对应关系表中确定所述标签识别码对应的拍摄模式,其中,所述对应关系表中包括了若干拍摄模式与若干预设标签识别码的对应关系,每种拍摄模式具有对应的软件功能和拍摄参数;以及
根据所述拍摄模式自适应调整所述拍摄模组的软件功能和拍摄参数。
本申请的拍摄设备及其软件功能和拍摄参数自适应调整方法,能够根据近距离识别标签的标签识别码确定拍摄设备当前的应用场景,并自适应的调整到适合应用场景的软件功能和拍摄参数,更加人性化,能够为用户带来便利。
附图说明
为了更清楚地说明本申请实施例的技术方案,下面将对实施方式中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图是本申请一些实施方式,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其它的附图。
图1是本申请一实施例提供的拍摄系统的模块示意图。
图2是本申请第一实施例提供的拍摄设备的模块示意图。
图3是本申请第二实施例提供的拍摄设备的模块示意图。
图4是本申请第一实施例提供的软件功能和拍摄参数自适应调整方法的流程示意图。
图5是本申请第二实施例提供的软件功能和拍摄参数自适应调整方法的流程示意图。
具体实施方式
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本申请一部分实施例,而不是 全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有付出创造性劳动前提下所获得的所有其它实施例,都属于本申请保护的范围。
除非另有定义,本文所使用的所有的技术和科学术语与属于本申请的技术领域的技术人员通常理解的含义相同。本文中在本申请的说明书中所使用的术语只是为了描述具体的实施方式的目的,不是旨在于限制本申请。
本申请的说明书和权利要求书及上述附图中的术语“第一”、“第二”等是用于区别不同对象,而非用于描述特定顺序。本申请中使用的“一个”、“一”或“该”等类似词语也不表示数量限制,而只是用来表示存在至少一个。“包括”或者“包含”等类似的词语意指出现该词语前面的元件或物件涵盖出现在该词后面列举的元件或者物件及其等同,而不排除其它元件或物件。“连接”或者相连等类似的词语并非限定于物理的或者机械的连接,而是可以包含电性的连接,不管是直接的还是间接的。
在本说明书的描述中,参考术语“实施例”、“具体实施例”、“示例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或者特点包含于本申请的至少一个实施例或示例中。在本说明书中,对上述术语的示意性表述不一定指的是相同的实施例或示例。而且,描述的具体特征、结构、材料或者特点可以在任何的一个或多个实施例或示例中以合适的方式结合。
请参考图1,图1为本申请一实施例中的拍摄系统1000的模块示意图。所述拍摄系统1000包括拍摄设备100和安装载体200。所述拍摄设备100可以是但不限于运动相机、普通相机或者其它各种具有拍摄功能的拍摄设备,例如手机、平板电脑等。所述安装载体200为应用于各种应用场景的支架或者载体,例如,所述安装载体200可以是用于户外滑雪运动的防撞壳;或者,所述安装载体200可以是用于潜水运动的防水壳;或者,所述安装载体200可以是应用于徒步运动的防撞壳;或者,所述安装载体200可以是应用于高速赛车的防撞壳等。所述安装载体200上设置有近距离识别标签,例如,NFC标签。所述近距离识别标签设置在所述安装载体200的用于安装所述拍摄设备100的安装位的预设范围内,以允许所述拍摄设备100安装在所述安装载体200 的安装位上时,所述拍摄设备100能够与所述近距离识别标签建立近距离通信连接,并进行点对点的通信,从而识别所述近距离识别标签的标签识别码。本实施例中,所述近距离识别标签是NFC标签。可以理解的是,在其它实施例中,所述近距离识别标签还可以是其它类型的能够近距离识别的标签。
请参考图2,图2为本申请第一实施例中的拍摄设备100的模块示意图。所述拍摄设备100包括拍摄模组110、存储器120、标签识别模块130和处理器140。其中,所述处理器140分别与所述拍摄模组110、存储器120和标签识别模块130电性连接。所述拍摄模组110用于架设在一安装载体200上以拍摄图像。所述存储器120用于存储若干预设标签识别码与若干拍摄模式的对应关系表,其中,每种拍摄模式具有对应的软件功能和拍摄参数。所述标签识别模块130用于在所述拍摄设备100靠近一所述近距离识别标签时识别所述近距离识别标签的标签识别码。所述处理器140用于根据所述标签识别模块130识别的标签识别码从所述对应关系表中确定所述标签识别码对应的拍摄模式,并根据所述拍摄模式自适应调整所述拍摄模组的软件功能和拍摄参数。
由于所述拍摄设备100可以应用到各种不同的应用场景,例如,水下、陆地上的各个户外场景等,各种应用场景由于光照度、移动速度等的不同,需要采用不同的软件功能和拍摄参数才能有好的拍摄效果,因此,本申请中,所述拍摄设备100上设置有标签识别模块130,所述标签识别模块130能够识别所述安装载体200上的所述近距离识别标签的标签识别码,能够根据近距离识别标签的标签识别码确定拍摄设备当前的应用场景,并自适应的调整到适合应用场景的软件功能和拍摄参数,更加人性化,能够为用户带来便利。
进一步地,在其中一实施例中,所述拍摄模组110为具有图像拍摄功能的拍摄组件,其可以是照相机本身,也可以一照相模组。所述存储器120可以是各种类型的具有存储功能的存储器。所述标签识别模块130为近距离标签识别模块,例如,NFC标签识别模块。所述处理器140可以是各种类型的具有数据处理和控制功能的处理芯片。本实施例中,所述近距离识别标签为NFC标签,所述NFC标签为有源标签或者无源标签,所述NFC标签内写有可被识别 的数据,且该数据为只读模式。
进一步地,在其中一实施例中,所述软件功能包括但不限于录像、分享、直播、下载、数据传输、编辑、灯效、声音、指示灯、图形等。所述拍摄参数可以包括但不限于拍摄的分辨率、帧率、白平衡和曝光值等。可以理解的是,所述软件功能和拍摄参数还可以包括其它类型的软件功能和拍摄参数。
进一步地,在其中一实施例中,所述拍摄模式可以包括但不限于徒步模式、户外骑行模式、潜水模式、滑雪模式和高速赛车模式等。可以理解的是,所述拍摄模式还可以包括其它类型的拍摄模式。
以户外骑行为例,所述近距离识别标签写入的是与户外骑行模式对应的标签识别码。当拍摄设备100的标签识别模块130识别到户外骑行模式对应的标签识别码时,确定当前对应的模式为户外骑行模式,并控制所述拍摄模组切换为户外骑行模式对应的软件功能和拍摄参数,比如拍摄的分辨率、帧率、白平衡、曝光值等,从而达到用户极佳的体验效果。
请参考图3,图3为本申请第二实施例中的拍摄设备100a的模块示意图。所述拍摄设备100a与所述拍摄设备100类似,区别之处在于,所述拍摄设备100a还包括输入单元150。所述输入单元150可以是各种类型的输入元件,例如,具有按键输入功能的按键组件,或者具有触摸输入功能的触摸组件,或者,具有语音输入功能的录音组件等。所述输入单元150与所述处理器140电性连接。所述输入单元150用于响应用户的参数调整操作而产生相应的参数调整信号,例如,用户可以手动调试不同的软件功能和拍摄参数。所述处理器140用于响应所述参数调整信号而调整所述拍摄模组110的软件功能和拍摄参数,并将调整后的软件功能和拍摄参数与所述安装载体200上的近距离识别标签的标签识别码匹配后存储在所述存储器120的对应关系表中。例如,所述处理器140根据所述拍摄模组110的图像传感器捕获不同区域的图像,获取图像传感器不同曝光时间,并根据不同的曝光时间调整合适的白平衡、分辨率、ISO值等。
从而,每个应用场景上的软件功能和拍摄参数都可以得到更加精细化的调 整,能够更适应当前的应用场景。
可选择地,在其中一实施例中,当所述拍摄设备100a与所述安装载体200之间的距离大于所述标签识别模块130的识别距离时,所述处理器140控制所述拍摄模组110退出所述拍摄模式。
从而,当所述拍摄设备100a与所述安装载体200因距离较远而无法识别时,表明所述拍摄设备100a已从所述安装载体200上取下,无需在当前环境下继续拍摄,因此,需要退出当前拍摄模式。
可选择地,在其中一实施例中,所述处理器140控制所述拍摄模组110退出所述拍摄模式后,还控制所述拍摄模组110进入默认拍摄模式。所述默认拍摄模式可以是上述拍摄模式的其中一种,或者,所述默认拍摄模式是其它的常规拍摄模式。
可选择地,在其中一实施例中,所述处理器140在控制所述标签识别模块130再次识别所述近距离识别标签的标签识别码时,控制将所述拍摄模组110的软件功能和拍摄参数调整为与所述标签识别码匹配的拍摄模式的最新软件功能和拍摄参数。
从而,可以根据与所述标签识别码匹配的拍摄模式的最新软件功能和拍摄参数进行拍摄,拍摄效果能够更符合用户的拍摄需求。
可选择地,在其中一实施例中,当所述拍摄设备100a具有多个不同的用户时,所述存储器120中还存储有与每个用户对应的对应关系表,所述输入单元150还具有用户信息输入功能,例如,通过人脸识别输入用户信息、通过语音识别输入用户信息、通过文字输入识别用户信息等。所述处理器140根据输入的用户信息确定当前用户,并为所述用户匹配相应的对应关系表,且根据所述用户匹配的对应关系表将所述拍摄模组110的软件功能和拍摄参数调整到与所述用户相匹配的对应关系表中与所述安装载体200中的标签识别码对应的软件功能和拍摄参数。
从而,在具有多个用户时,根据每个用户的喜好设置对应的对应关系表,使得每个用户在对应的应用场景具有更个性化的软件功能和拍摄参数,更加人 性化。
可选择地,在其中一实施例中,所述拍摄设备100a还包括速度传感器160。所述速度传感器160用于感应所述拍摄设备100a的运动速度,并产生相应的速度感应信号。所述处理器140响应所述速度感应信号而确定所述拍摄设备100a的运动速度。可以理解的是,所述处理器140还根据所述拍摄设备100a的运动速度动态地调整所述拍摄模组110当前的拍摄模式下的软件功能和拍摄参数,以与所述拍摄设备100a的运动速度相匹配,从而达到更好的拍摄效果。
从而,无论所述拍摄设备100a的运动速度的快与慢,都不会影响所述拍摄设备100的拍摄效果。
可选择地,在其中一实施例中,所述拍摄设备100a还包括光照感测器170。所述光照感测器170与所述处理器140电性连接。所述光照感测器170用于感应当前的环境光线并产生相应的光照感应信号。所述处理器140用于响应所述光照感应信号而确定当前光照强度,并根据所述光照强度动态地调整所述拍摄模组110在当前的拍摄模式下的软件功能和拍摄参数,以与所述拍摄设备100a的当前所处环境的关照强度相匹配,从而达到更好的拍摄效果。
从而,本申请无论是晴天、阴天或者下雨天等,都会有良好的拍摄效果。
请参考图4,图4为本申请第一实施例中的软件功能和拍摄参数自适应调整方法的流程示意图。所述方法应用于一拍摄设备上,所述拍摄设备可以是上述拍摄设备100或者拍摄设备100a,所述拍摄设备能够被架设在一安装载体200上以拍摄图像。其中,安装载体200上设置有近距离识别标签。所述方法包括步骤:410:在拍摄设备靠近一近距离识别标签时识别所述近距离识别标签的标签识别码。
420:根据识别的标签识别码从对应关系表中确定所述标签识别码对应的拍摄模式,其中,所述拍摄设备中存储若干预设标签识别码与若干拍摄模式的对应关系表,每种拍摄模式具有对应的软件功能和拍摄参数。
430:根据所述拍摄模式自适应调整拍摄模组110的软件功能和拍摄参数。
由于所述拍摄设备可以应用到各种不同的应用场景,例如,水下、陆地上的各个户外场景等,各种应用场景由于光照度、移动速度等的不同,需要采用不同的软件功能和拍摄参数才能有好的拍摄效果,因此,本申请中,所述拍摄设备能够识别安装载体200上的近距离识别标签的标签识别码,并根据标签识别码确定拍摄设备当前的应用场景,且能够自适应的调整到适合应用场景的软件功能和拍摄参数,更加人性化,能够为用户带来便利。
进一步地,在其中一实施例中,所述软件功能和拍摄参数可以包括但不限于拍摄的分辨率、帧率、白平衡和曝光值等。可以理解的是,所述软件功能和拍摄参数还可以包括其它类型的软件功能和拍摄参数。
进一步地,在其中一实施例中,所述拍摄模式可以包括但不限于徒步模式、户外骑行模式、潜水模式、滑雪模式和高速赛车模式等。可以理解的是,所述拍摄模式还可以包括其它类型的拍摄模式。
以户外骑行为例,所述近距离识别标签写入的是与户外骑行模式对应的标签识别码。当拍摄设备的标签识别模块130识别到户外骑行模式对应的标签识别码时,确定当前对应的模式为户外骑行模式,并控制所述拍摄模组切换为户外骑行模式对应的软件功能和拍摄参数,比如拍摄的分辨率、帧率、白平衡、曝光值等,从而达到用户极佳的体验效果。
请参考图5,图5为本申请第二实施例中的软件功能和拍摄参数自适应调整方法的流程示意图。所述软件功能和拍摄参数自适应调整方法包括步骤:510:拍摄设备的标签识别模块130靠近安装载体200的近距离识别标签,并与所述近距离识别标签建立点对点通信连接。
520:标签识别模块130是否成功识别安装载体200的近距离识别标签的标签识别码,如果识别成功,则进入步骤530,如果识别不成功,则重复步骤520。
530:根据标签识别模块130识别的标签识别码从对应关系表中确定所述标签识别码对应的拍摄模式,其中,所述拍摄设备中存储若干预设标签识别码与若干拍摄模式的对应关系表,每种拍摄模式具有对应的软件功能和拍摄参 数。
540:响应用户的调整参数操作而调整拍摄模组110的软件功能和拍摄参数,并将调整后的拍摄模组110的软件功能和拍摄参数与近距离识别标签的标签识别码匹配后存储在存储器120的对应关系表中。
550:按照调整后的软件功能和拍摄参数控制拍摄模组110开始录影。
560:是否因距离较远而断开了拍摄设备的标签识别模块130与安装载体200的近距离识别标签的通讯连接。如果是,则结束,如果否,则重复步骤550。
从而,每个应用场景上的软件功能和拍摄参数都可以得到更加精细化的调整,能够更适应当前的应用场景,并且,当所述拍摄设备与所述安装载体200因距离较远而无法识别位于所述安装载体200上的近距离识别标签时,表明所述拍摄设备100已从所述安装载体200上取下,无需在当前环境下继续拍摄,因此,需要退出当前拍摄模式。
可选择地,在其中一实施例中,所述软件功能和拍摄参数自适应调整方法还包括步骤:控制所述拍摄模组110退出所述拍摄模式后,还控制所述拍摄模组110进入默认拍摄模式。所述默认拍摄模式可以是上述拍摄模式的其中一种,或者,所述默认拍摄模式是其它的常规拍摄模式。
可选择地,在其中一实施例中,所述软件功能和拍摄参数自适应调整方法还包括步骤:在控制所述标签识别模块130再次识别所述近距离识别标签的标签识别码时,控制将所述拍摄模组110的软件功能和拍摄参数调整为与所述标签识别码匹配的拍摄模式的最新软件功能和拍摄参数。
从而,可以根据与所述标签识别码匹配的拍摄模式的最新软件功能和拍摄参数进行拍摄,拍摄效果能够更符合用户的拍摄需求。
进一步地,在其中一实施例中,当所述拍摄设备具有多个不同的用户时,所述拍摄设备中还存储有与每个用户对应的对应关系表,所述软件功能和拍摄参数自适应调整方法还包括步骤:根据输入的用户信息确定当前用户;
为所述用户匹配相应的对应关系表;
根据所述用户匹配的对应关系表将所述拍摄模组110的软件功能和拍摄 参数调整到与所述用户相匹配的对应关系表中与所述安装载体200中的标签识别码对应的软件功能和拍摄参数。
从而,在具有多个用户时,根据每个用户的喜好设置对应的对应关系表,使得每个用户在对应的应用场景具有更个性化的软件功能和拍摄参数,更加人性化。
可选择地,在其中一实施例中,所述软件功能和拍摄参数自适应调整方法还包括步骤:感测所述拍摄设备的运动速度;
根据所述拍摄设备的运动速度动态地调整所述拍摄模组110当前的拍摄模式下的软件功能和拍摄参数,以与所述拍摄设备的运动速度相匹配。
从而,无论所述拍摄设备的运动速度的快与慢,都不会影响所述拍摄设备100的拍摄效果。
可选择地,在其中一实施例中,所述软件功能和拍摄参数自适应调整方法还包括步骤:感测当前光照强度;
根据所述光照强度动态地调整所述拍摄模组110在当前的拍摄模式下的软件功能和拍摄参数,以与所述拍摄设备的当前所处环境的关照强度相匹配。
从而,无论是晴天、阴天或者下雨天等,都会有良好的拍摄效果。
在上述实施例中,对各个实施例的描述都各有侧重,某个实施例中没有详细描述的部分,可以参见其它实施例的相关描述。
应该理解的是,在本申请所提供的一个或者多个实施例中,所揭露的拍摄设备100、100a的实施例仅是示意性的,也可以有其它的实现形式。例如所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。
以上是本申请实施例的实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本申请实施例原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也视为本申请的保护范围。

Claims (18)

  1. 一种拍摄设备,其特征在于,包括:
    拍摄模组,用于被安装在一安装载体上以拍摄图像,其中,所述安装载体上设置有近距离识别标签;
    存储器,用于存储若干预设标签识别码与若干拍摄模式的对应关系表,其中,每种拍摄模式具有对应的软件功能和拍摄参数;
    标签识别模块,用于在所述拍摄设备靠近一所述近距离识别标签时识别所述近距离识别标签的标签识别码;
    处理器,用于根据所述标签识别模块识别的标签识别码从所述对应关系表中确定所述标签识别码对应的拍摄模式,并根据所述拍摄模式自适应调整所述拍摄模组的软件功能和拍摄参数。
  2. 根据权利要求1所述的拍摄设备,其特征在于,所述拍摄设备还包括输入单元,所述输入单元用于响应用户的参数调整操作而产生相应的参数调整信号,所述处理器用于响应所述参数调整信号而调整所述拍摄模组的软件功能和拍摄参数,并将调整后的软件功能和拍摄参数与所述安装载体上的近距离识别标签的标签识别码匹配后存储在所述存储器的对应关系表中。
  3. 根据权利要求1所述的拍摄设备,其特征在于,当所述拍摄设备与所述安装载体之间的距离大于所述标签识别模块的识别距离时,所述处理器控制所述拍摄模组退出所述拍摄模式。
  4. 根据权利要求3所述的拍摄设备,其特征在于,所述处理器在控制所述标签识别模块再次识别所述近距离识别标签的标签识别码时,控制将所述拍摄模组的软件功能和拍摄参数调整为与所述标签识别码匹配的拍摄模式的最新软件功能和拍摄参数。
  5. 根据权利要求1所述的拍摄设备,其特征在于,当所述拍摄设备具有多个不同的用户时,所述存储器中还存储有与每个用户对应的对应关系表,所述处理器根据输入的用户信息确定当前用户,并为所述用户匹配相应的对应关系表,且根据匹配的所述对应关系表将所述拍摄模组的软件功 能和拍摄参数调整为与所述用户相匹配的对应关系表中的与所述安装载体中的标签识别码对应的软件功能和拍摄参数。
  6. 根据权利要求1所述的拍摄设备,其特征在于,所述拍摄设备为运动相机并应用于户外运动场景。
  7. 根据权利要求1所述的拍摄设备,其特征在于,所述安装载体为用于水下运动的防水壳或者户外非水下运动的防撞壳。
  8. 根据权利要求1所述的拍摄设备,其特征在于,所述拍摄设备还包括速度传感器,所述速度传感器与所述处理器电性连接,所述速度传感器用于感应所述拍摄设备的运动速度并产生相应的速度感应信号;所述处理器还响应所述速度感应信号而确定所述拍摄设备的运动速度,并根据所述拍摄设备的运动速度进一步动态地调整所述拍摄模组当前的拍摄模式下的软件功能和拍摄参数,以与所述拍摄设备的运动速度相匹配。
  9. 根据权利要求1所述的拍摄设备,其特征在于,所述拍摄设备还包括光照感测器,所述光照感测器与所述处理器电性连接,所述光照感测器用于感应当前的环境光线并产生相应的光照感应信号,所述处理器用于响应所述光照感应信号而确定当前光照强度,并根据所述光照强度动态地调整所述拍摄模组在当前的拍摄模式下的软件功能和拍摄参数,以与所述拍摄设备的当前所处环境的关照强度相匹配。
  10. 一种软件功能和拍摄参数自适应调整方法,应用于一拍摄设备上,所述拍摄设备能够被安装在一安装载体上以拍摄图像,其特征在于,包括:在所述拍摄设备靠近一位于所述安装载体上的近距离识别标签时识别所述近距离识别标签的标签识别码;
    根据识别的标签识别码从所述拍摄设备预存的对应关系表中确定所述标签识别码对应的拍摄模式,其中,所述对应关系表中包括了若干拍摄模式与若干预设标签识别码的对应关系,每种拍摄模式具有对应的软件功能和拍摄参数;以及根据所述拍摄模式自适应调整所述拍摄模组的软件功能和拍摄参数。
  11. 根据权利要求10所述的软件功能和拍摄参数自适应调整方法,其特征在于,所述方法还包括:响应用户的参数调整操作而产生相应的参数 调整信号;
    响应所述参数调整信号而调整所述拍摄模组的软件功能和拍摄参数;以及将调整后的软件功能和拍摄参数与所述安装载体上的近距离识别标签的标签识别码匹配后存储在所述拍摄设备的对应关系表中。
  12. 根据权利要求10所述的软件功能和拍摄参数自适应调整方法,其特征在于,所述方法还包括:判断所述拍摄设备与所述安装载体之间的距离是否大于近距离识别标签的识别距离时;
    当所述拍摄设备与所述安装载体之间的距离大于识别距离时,控制所述拍摄模组退出所述拍摄模式。
  13. 根据权利要求12所述的软件功能和拍摄参数自适应调整方法,其特征在于,所述方法还包括:再次启动近距离标签识别功能时,控制将所述拍摄模组的软件功能和拍摄参数调整为与所述拍摄模式相匹配的最新软件功能和拍摄参数。
  14. 根据权利要求11所述的软件功能和拍摄参数自适应调整方法,其特征在于,当所述拍摄设备具有多个不同的用户时,所述拍摄设备中还存储有与每个用户对应的对应关系表,所述方法还包括:根据输入的用户信息确定当前用户;
    为所述用户匹配相应的对应关系表;以及
    根据所述用户匹配的对应关系表将所述拍摄模组的软件功能和拍摄参数调整到与所述用户相匹配的对应关系表中与所述安装载体中的标签识别码对应的软件功能和拍摄参数。
  15. 根据权利要求10所述的软件功能和拍摄参数自适应调整方法,其特征在于,所述拍摄设备为运动相机并应用于户外运动场景。
  16. 根据权利要求10所述的软件功能和拍摄参数自适应调整方法,其特征在于,所述安装载体为用于水下运动的防水壳或者户外非水下运动的防撞壳。
  17. 根据权利要求10所述的软件功能和拍摄参数自适应调整方法,其特征在于,所述拍摄设备还包括速度传感器,所述方法还包括:
    所述速度传感器感应所述拍摄设备的运动速度并产生相应的速度感 应信号;
    响应所述速度感应信号而确定所述拍摄设备的运动速度,并根据所述拍摄设备的运动速度进一步动态地调整所述拍摄模组当前的拍摄模式下的软件功能和拍摄参数,以与所述拍摄设备的运动速度相匹配。
  18. 根据权利要求1所述的软件功能和拍摄参数自适应调整方法,其特征在于,所述拍摄设备还包括光照感测器,所述方法还包括:
    所述光照感测器用于感应当前的环境光线并产生相应的光照感应信号;
    响应所述光照感应信号而确定当前光照强度,并根据所述光照强度动态地调整所述拍摄模组在当前的拍摄模式下的软件功能和拍摄参数,以与所述拍摄设备的当前所处环境的关照强度相匹配。
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