JP2014120822A - System and method for action management - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable service reception related to action management with the elimination of a troublesome operation and inconvenience in carriage, and to easily obtain information necessary therefor.SOLUTION: A wrist terminal 11 having a shape wearable on a body, and a multifunctional mobile terminal 12 connectable to the wrist terminal 11 by short range radio communication, are provided. The wrist terminal 11 measures user action data, and transmits the action data to the mobile terminal 12 in real time according to a communication condition with the mobile terminal 12. The mobile terminal 12 analyzes the action data received from the wrist terminal 11, to access a health management server 16 or a runners server 17 on a network according to the type of the action data.

Description

  The present invention relates to a behavior management system and behavior management method for managing user behavior.

  In recent years, with the rapid spread of mobile terminals such as smart phones (multifunctional mobile phone devices), services for distributing various information over the network are overflowing. For this reason, it takes much time for the user to select and display only necessary information.

  On the other hand, people's interest in health management is increasing, and various services for supporting health management are provided on the Internet. In order to receive these services, it is necessary to access a server that provides the service and perform communication through the mobile terminal.

  Conventionally, a system that grasps a user's state history on the server side and selectively distributes information according to the user's state from various types of information has been considered (for example, see Patent Document 1). In addition, a system that supports health management on the Internet has been considered (see, for example, Patent Documents 2 and 3).

JP 2002-373176 A JP 2011-209871 A JP 2011-244848 A

  However, in general, in order to display various information on the Internet on a mobile terminal such as a smartphone, it is necessary to start an application (abbreviation of application software) by touching an icon on the screen each time. There is a problem that is very annoying.

  In addition, a generally known system for health management based on human behavior is overweight, and it is necessary to carry around a measuring instrument for measuring the movement of the user's daily life.

  The present invention has been made in view of the above points, eliminates troublesome operations and inconvenience of carrying around, can receive services related to behavior management, and can easily obtain necessary information for that. An object is to provide an action management system and an action management method.

  The behavior management system according to the present invention includes a first terminal having a shape that can be worn on the body, and a second terminal that can be connected to the first terminal by short-range wireless communication. The first terminal includes a measuring unit that measures user behavior data, a recording unit that records behavior data measured by the measuring unit, and the measuring unit according to a communication state with the second terminal. Communication data is transmitted to the second terminal in real time, or communication data stored in the recording means is transmitted to the second terminal in a lump. The second terminal accesses the predetermined server on the network according to the analysis means for analyzing the action data received from the first terminal and the type of the action data. Sending the resulting data, characterized by comprising a server access means for receiving a service of the server.

  According to the present invention, it is possible to eliminate troublesome operations and inconveniences of carrying around, receive a service relating to behavior management, and easily obtain necessary information.

FIG. 1 is a diagram showing a configuration of a network system according to an embodiment of the present invention. FIG. 2 is a diagram showing a wearing state of the wrist terminal in the embodiment. FIG. 3 is a diagram illustrating a relationship between the wrist terminal and the portable terminal in the embodiment. FIG. 4 is a diagram for explaining a display switching method of the wrist terminal in the embodiment. FIG. 5 is a block diagram showing a circuit configuration of the wrist terminal in the embodiment. FIG. 6 is a block diagram showing a circuit configuration of the mobile terminal in the embodiment. FIG. 7 is a flowchart showing the operation of the wrist terminal server in the embodiment. FIG. 8 is a diagram showing a configuration of a wrist terminal memory provided in the wrist terminal server in the embodiment. FIG. 9 is a flowchart showing an operation related to the list distribution application of the portable terminal in the embodiment. FIG. 10 is a flowchart showing the operation of the wrist terminal related to the health management service in the embodiment. FIG. 11 is a flowchart showing the operation of the mobile terminal regarding the health management service in the embodiment. FIG. 12 is a flowchart showing the operation of the mobile terminal regarding the running service in the embodiment. FIG. 13 is a flowchart showing the operation of the mobile terminal regarding the running service in the embodiment. FIG. 14 is a flowchart showing the operation of the wrist terminal information acquisition process in the embodiment. FIG. 15 is a flowchart showing the operation of the information display process of the wrist terminal in the embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram showing a configuration of an action management system according to an embodiment of the present invention.

  This behavior management system includes a wrist terminal 11, a mobile terminal 12, various content servers 14 a, 14 b... Existing on a network 13 such as the Internet, a wrist terminal server 15, a health management server 16, and a runners server 17.

  The wrist terminal 11 and the portable terminal 12 correspond to the first terminal and the second terminal of the present invention. In the present embodiment, the wrist terminal 11 has a wristwatch shape that can be worn on the wrist of the user. On the other hand, the mobile terminal 12 is, for example, a smartphone or the like, and is a multifunctional mobile communication terminal device that can be carried in a bag or the like by the user. When the mobile terminal 12 is near the wrist terminal 11, the wrist terminal 11 and the mobile terminal 12 are connected by short-range wireless communication such as Bluetooth (registered trademark).

  Further, the mobile terminal 12 is connected to various content servers 14a, 14b..., A list terminal server 15, a health management server 16, and a runners server 17 on the network 13 through a wireless LAN (Wi-Fi), a 3G mobile phone line network, and the like. It has possible functions.

  The various content servers 14a, 14b,... Perform various services on the network 13 such as distribution of weather information of each region, distribution of music and movies. The wrist terminal server 15 is a dedicated server for managing information handled by the wrist terminal 11, and the information distributed from the various content servers 14 a, 14 b, the health management server 16, and the runners server 17 is displayed on the screen size of the wrist terminal 11. Processing such as processing according to.

  Here, how to use the wrist terminal 11 used as the first terminal of the present invention will be described.

  FIG. 2 is a diagram illustrating a wearing state of the wrist terminal 11, and FIG. 3 is a diagram illustrating a relationship between the wrist terminal 11 and the portable terminal 12.

  As shown in FIG. 2, the wrist terminal 11 includes a device main body 11a and bands 11b attached to both ends of the device main body 11a. As will be described later, the apparatus main body 11a of the wrist terminal 11 incorporates a motion detection sensor such as an acceleration sensor or an angular velocity sensor. When the wrist terminal 11 is worn on the user's wrist, the user waits for the arm in front of the face and performs an operation of turning the wrist (this is called a flip operation), thereby switching the display.

  As shown in FIG. 3, the wrist terminal 11 and the portable terminal 12 are connected by short-range wireless communication such as Bluetooth (registered trademark). When the portable terminal 12 receives the information of the various content servers 14 a, 14 b... And the information of the health management server 16 and the runners server 17, the portable terminal 12 transmits these information to the wrist terminal 11. In this case, since the screen of the wrist terminal 11 is smaller than that of the portable terminal 12, the wrist terminal server 15 shown in FIG. 1 processes the information of the various content servers 14a, 14b,. The processed information is sent to the list terminal 11 via the portable terminal 12 and displayed.

  Which information is displayed and how it is displayed are set on the mobile terminal 12 side. The reason for setting on the mobile terminal 12 side is that the screen of the wrist terminal 11 is small. The mobile terminal 12 is equipped with an application for synchronizing setting contents with the wrist terminal 11.

  FIG. 4 is a diagram for explaining a display switching method of the wrist terminal 11.

  In the wrist terminal 11, the display can be switched by performing an operation (flip operation) in which the user turns the wrist. In this example, from the state of the clock screen that is the initial screen, the first-time flip operation moves the rain cloud in the current region, the second flip-operation weather information for the specified region, the third flip-operation schedule, and the fourth flip-operation It shows how the tweet information can be switched sequentially. It can be set on the mobile terminal 12 side, including what information is displayed in what order.

The configuration and operation of each device will be described in detail below.
FIG. 5 is a block diagram showing a circuit configuration of the wrist terminal 11.

  The wrist terminal 11 includes a CPU 21, a display unit 22, a touch panel 23, a communication unit 24, a memory 25, a sensor unit 26, a clock unit 27, a GPS unit 28, and the like.

  The CPU 21 controls the operation of the wrist terminal 11 by starting up the program 25 a stored in the memory 25. In the present embodiment, the CPU 21 is provided with a communication control function 21a that transmits activity data in accordance with the communication state with the mobile terminal 12 that is the second terminal. The “activity data” referred to here is data representing the activity of the user, and is measured by the sensor unit 26 or the GPS unit 28.

  In the sensor unit 26, a motion (behavior) of the user's daily life is measured by a motion detection sensor such as an acceleration sensor. The GPS unit 28 measures the current position of the user by GPS (Global Positioning System). In the communication control function 21 a, activity data measured by the sensor unit 26 or the GPS unit 28 is transmitted to the mobile terminal 12 in real time or stored in the memory 25 according to the communication state with the mobile terminal 12. The activity data is transmitted to the portable terminal 12 at once.

  Further, the CPU 21 is provided with an information acquisition function 21b for acquiring various types of information and a display control function 21c for selectively displaying information related to items set in advance from various types of information based on a predetermined operation of the user. ing. The “predetermined operation” is an operation of turning the user's wrist (flip operation) (see FIG. 4).

  The display unit 22 includes an LCD (Liquid Crystal Display) and displays various information in color. The touch panel 23 is placed on the display screen of the display unit 22 and is used for performing an input instruction by a touch operation. The display unit 22 and the touch panel 23 constitute an integrated input display device, and the user can give an input instruction by a touch operation while watching the display on the screen.

  The communication unit 24 performs data transmission / reception processing with an external terminal (here, the mobile terminal 12) by short-range communication such as Bluetooth (registered trademark).

  The memory 25 stores various data necessary for processing operations of the CPU 21 in addition to a program 25a for controlling the CPU 21. The program 25a includes a program for realizing the functions 21a, 21b, and 21c described above.

  The sensor unit 26 includes a motion detection sensor including a three-axis acceleration sensor that can detect acceleration in the x-axis, y-axis, and z-axis directions. The clock unit 27 is a part for realizing the clock function of the wrist terminal 11 and clocks the current time. The GPS unit 28 detects the current position by GPS.

  FIG. 6 is a block diagram showing a circuit configuration of the mobile terminal 12.

  The mobile terminal 12 includes a CPU 31, a display unit 32, a touch panel 33, a first communication unit 34a, a second communication unit 34b, a memory 35, a GPS unit 36, and the like.

  The CPU 31 controls the operation of the mobile terminal 12 by starting up the program 35 a stored in the memory 35. In the present embodiment, the CPU 31 includes a setting function 31a for performing various settings related to information display of the wrist terminal 11, an information collecting function 31b for periodically accessing the wrist terminal server 15 and collecting content information, and content information. An information transfer function 31c for transferring to the wrist terminal 11 is provided.

  Further, the CPU 31 accesses the predetermined server on the net according to the analysis function 31d for analyzing the activity data received from the wrist terminal 11 and the type of the activity data, and transmits the data obtained as the analysis result to the server. The server access function 31e for receiving the service is provided.

  The display unit 32 and the touch panel 33 constitute an integrated input display device in the same manner as the display unit 22 and the touch panel 23 of the wrist terminal 11, and the user can give an input instruction by a touch operation while viewing the screen display. .

  The first communication unit 34a performs data transmission / reception processing by wireless communication with an external terminal (list terminal 11) by a short-range communication function such as Bluetooth (registered trademark). The second communication unit 34b is connected to the content servers 14a, 14b,..., The list terminal server 15, the health management server 16, and the runners server 17 on the network 13 by a wireless LAN (Wi-Fi), a 3G mobile phone network, or the like. to access.

  The memory 35 stores various data necessary for the processing operation of the CPU 31 in addition to a program 35a for controlling the CPU 31. The program 35a includes a program for realizing the functions 31a, 31b, and 31c described above.

  The content servers 14a, 14b..., The wrist terminal server 15, the health management server 16, and the runners server 17 are general-purpose computers including a CPU, a ROM, a RAM, and the like.

  Next, the operation of the behavior management support system in the present embodiment will be described separately for (a) information distribution, (b) health management service, (c) running service, and (d) information acquisition / information display operations. . Here, “behavior management” is a general term for user health management and running management.

(A) Information Distribution FIG. 7 is a flowchart showing the operation of the wrist terminal server 15 regarding information distribution. The process shown in this flowchart is executed by a CPU (not shown) provided in the wrist terminal server 15 reading a predetermined program.

  The wrist terminal server 15 receives distribution information from the various content servers 14a and 14b, the health management server 16, and the runners server 17 existing on the network 13 (step A11), and processes the distribution information for the wrist terminal. (Step A12). The wrist terminal server 15 stores the processed distribution information in the wrist terminal memory 41 shown in FIG. 8 (step A13).

  The wrist terminal memory 41 is provided for each wrist terminal. In the list terminal memory 41, ID information (identification information) unique to the list terminal 11 held by the user, the distribution content type selected by the user, and other various setting information are recorded as the user information 41a. Further, as the distribution information 41b, distribution information received from the various content servers 14a and 14b, the health management server 16, and the runners server 17 and processed for the wrist terminal is stored. “Processing for wrist terminal” means performing processing such as editing content information in accordance with the screen of wrist terminal 11 having a wristwatch size.

  The wrist terminal server 15 refers to the wrist terminal memory 41 and selectively receives various pieces of content information for each user, processes each of them, and stores them in the wrist terminal memory 41.

  FIG. 9 is a flowchart showing the operation of the mobile terminal 12 relating to information distribution. Note that the processing shown in this flowchart is executed by the CPU 31 provided in the mobile terminal 12 reading the program 35 a stored in the memory 35.

  First, the user taps a setting icon (not shown) provided on the screen of the mobile terminal 12 to activate the “list terminal setting” function. When the “list terminal setting” function is activated (Yes in step B11), the mobile terminal 12 (specifically, the CPU 31) connects to the wrist terminal server 15 via the network 13, and the wrist terminal server 15 sets the wrist terminal setting. A predetermined setting screen is received and displayed (step B12).

  When the user performs a setting operation on the screen of the mobile terminal 12 (step B13), the mobile terminal 12 retains the information set by the setting operation in the memory 35 and transmits it to the wrist terminal server 15. (Step B14), the setting information is registered in the wrist terminal memory 41 of the wrist terminal server 15 (Step B15).

  Note that the setting information at this time may be sent to the wrist terminal 11. Thereby, the user can confirm the setting contents at any time on the screen of the wrist terminal 11.

  When the preset traveling time is reached (Yes in step B16), the mobile terminal 12 accesses the wrist terminal server 15 via the network 13 and receives the content information stored in the wrist terminal memory 41 ( Step B17). The content information received at this time is stored in a predetermined area of the memory 35. Then, when there is a distribution request from the list terminal 11 (Yes in Step B18), the portable terminal 12 reads the content information stored in the predetermined area of the memory 35 and transfers it to the list terminal 11 (Step B19). ). The content information transferred from the portable terminal 12 to the wrist terminal 11 has already been processed for the wrist terminal by the wrist terminal server 15.

  The content information transferred to the wrist terminal 11 is displayed according to a preset priority order when the user performs a predetermined operation. The predetermined operation is an operation of turning the wrist (flip operation).

(B) Health Management Service A user subscribes to a health management server 16 that manages health. The health management server 16 provides services such as delivering messages useful for health management from activities of daily life of users. Daily activities include, for example, meal (breakfast) → walking (commuting) → work → meal (lunch) → jogging → work → walking (leaving) → meal (dinner) → sleeping as daily activities.

  Access to the health management server 16 is performed on the mobile terminal 12 side. That is, the mobile terminal 12 is equipped with a health management application. When the data of the motion detection sensor is received from the wrist terminal 11, it analyzes what the user is doing and sends it to the health management server 16, for example, every 5 minutes.

  Hereinafter, the operation related to the health management service will be described in detail by dividing the operation of the wrist terminal 11 and the operation of the mobile terminal 12.

(Operation of wrist terminal 11)
FIG. 10 is a flowchart showing the operation of the wrist terminal 11 regarding the health management service. Note that the processing shown in this flowchart is executed by reading the program 25 a stored in the memory 25 by the CPU 21 provided in the wrist terminal 11. The same applies to the processing shown in the flowcharts of FIGS. 12, 14 and 15 described later, and is executed by the CPU 21 reading the program 25a.

  The wrist terminal 11 (specifically, the CPU 21) checks whether there is an output from the motion detection sensor provided in the sensor unit 26 (step C11). When there is an output from the motion detection sensor (Yes in step C11), the wrist terminal 11 determines that the user is wearing the wrist terminal 11 and is acting, and the motion output from the motion detection sensor at that time Data is acquired (step C12).

  Here, if the mobile terminal 12 is near the wrist terminal 11 and is in a state where short-range wireless communication is possible (Yes in step C13), the wrist terminal 11 transmits motion data obtained from the motion detection sensor during that time to the mobile terminal. 12 in real time (step C14).

  On the other hand, when it is not in a state where short-range wireless communication is possible, that is, for example, when the mobile terminal 12 is placed at home and only the wrist terminal 11 is worn (No in Step C13), the wrist terminal 11 Stores the motion data obtained during that time in a predetermined area of the memory 25 (step C15). When the short-distance wireless communication is possible (steps C16 and C17), the wrist terminal 11 collectively transmits the motion data stored in a predetermined area of the memory 25 to the mobile terminal 12 (step S16). C18).

(Operation of mobile terminal 12)
FIG. 11 is a flowchart showing the operation of the mobile terminal 12 regarding the health management service. Note that the processing shown in this flowchart is executed by the CPU 31 provided in the mobile terminal 12 reading the program 35 a stored in the memory 35. The same applies to the processing shown in the flowchart of FIG. 13 described later, and is executed by the CPU 31 reading the program 35a.

  Now, it is assumed that the health management application is activated in the mobile terminal 12.

  When receiving the data (Yes in Step D11), the portable terminal 12 (specifically, the CPU 31) determines whether the data is motion data sent from the wrist terminal 11 in real time (Step D12).

  If the received data is motion data sent from the wrist terminal 11 in real time (Yes in step D12), the mobile terminal 12 accumulates the motion data in a predetermined area of the memory 35 (step D13). When the motion data is accumulated for a predetermined time (Yes in Step D14), the mobile terminal 12 reads out from the memory 35 and analyzes how it is operating (Step D15).

  The reason why the motion data is accumulated for a predetermined time is that the user's behavior cannot be judged correctly unless analysis is performed with a certain amount of time. The analyzed result is sent from the portable terminal 12 to the health management server 16 via the network 13 every predetermined time (for example, 5 minutes) (step D16).

  On the other hand, when motion data is sent all at once from the wrist terminal 11, that is, when motion data stored in step C15 is sent (Yes in step D17), the mobile terminal 12 An analysis process is performed using the accumulated data (step D18). The analyzed result is sent from the portable terminal 12 to the health management server 16 via the network 13 every predetermined time (for example, 5 minutes) (step D16).

  In addition, the GPS unit 28 is installed in the wrist terminal 11, and the current position data is sent to the mobile terminal 12 while the user is wearing the wrist terminal 11 and acting. When the mobile terminal 12 receives the position data from the wrist terminal 11 (Yes in Step D19), the mobile terminal 12 analyzes the moving route, the moving speed, and the like (Step D20). The analysis result is sent from the portable terminal 12 to the health management server 16 via the network 13 in the same manner as the motion data analysis (step D16).

  In this way, simply by wearing the wrist terminal 11, data relating to the activities of the user's daily life is collected and sent to the mobile terminal 12 for analysis when communication with the mobile terminal 12 is enabled. The The analyzed result is sent to the health management server 16. Thereby, it is possible to receive advice on health management from the health management server 16 without carrying the portable terminal 12.

(C) Runners Service The user subscribes to the runners server 17 separately from the health management server 16. The runners server 17 is a site that advises the user's running, and provides services such as comparison with other people by registering the distance and course of running.

  The user has the mobile terminal 12 and starts the running application to run. The running position data is recorded by the GPS unit 36 of the mobile terminal 12 and transmitted to the runners server 17 by a user operation.

  On the other hand, when running with the mobile terminal 12 placed, position data is recorded by the GPS unit 28 of the wrist terminal 11. When the mobile terminal 12 becomes communicable, the recorded position data is sent from the mobile terminal 12 to the wrist terminal 11 and automatically transmitted to the runners server 17 when it is determined that the user has run. Further, instead of running, for example, the mobile terminal 12 may be placed to move to a conference room in another room. In such a case, the position data is output to the health management application described above.

  Below, operation | movement regarding a running service is demonstrated in detail, dividing into operation | movement of the wrist terminal 11 and operation | movement of the portable terminal 12. FIG.

(Operation of wrist terminal 11)
FIG. 12 is a flowchart showing the operation of the mobile terminal 12 regarding the running service.

  The wrist terminal 11 (specifically, the CPU 21) determines whether or not short-range wireless communication is possible with the mobile terminal 12 (step E11). If the short-range wireless communication is not possible (No in Step E11), the wrist terminal 11 determines that the user is running with the mobile terminal 12 or is performing some action, and then The position data detected by the GPS unit 28 of the wrist terminal 11 is recorded in a predetermined area of the memory 25 (step E12).

  Here, when the user returns to the vicinity of the mobile terminal 12 and the wrist terminal 11 and the mobile terminal 12 are in a state where short-range wireless communication is possible (Yes in step E13), the wrist terminal 11 stores the predetermined data in the memory 25. The position data recorded in the area is transmitted to the portable terminal 12 (step E14).

(Operation of mobile terminal 12)
FIG. 13 is a flowchart showing the operation of the mobile terminal 12 regarding the running service.

  First, the mobile terminal 12 (specifically, the CPU 31) determines whether or not the runners app is activated (step F11). When the runner's application is activated (Yes in step F11), the mobile terminal 12 determines that the user is running, and the position data detected by the GPS unit 36 of the mobile terminal 12 at that time is stored in the memory 25. Recording is performed in a predetermined area (step F12).

  In addition, when the runner's application is activated, the mobile terminal 12 has priority, and even if position data is sent from the wrist terminal 11, the position data is not used but detected by the mobile terminal 12. Position data is used as data for running.

  Here, if there is a predetermined transmission operation by the user (Yes in Step F13), the position data recorded in the predetermined area of the memory 25 is transmitted to the runners server 17 via the network 13 (Step F14). Further, since this position data is necessary for grasping the activities of daily life of the user, it is also output to the health management application (step F15).

  On the other hand, when the runner's application is not activated (No in Step F11), when the portable terminal 12 receives the position data from the wrist terminal 11 (Yes in Step F16), the portable terminal 12 analyzes the position data (Step F17). It is determined whether or not the user is running (step F18). In this case, it can be determined that the vehicle is running if it is moving on a route registered in advance as a running course or moving at a speed faster than walking.

  When it is determined that the vehicle is running (Yes in Step F18), the mobile terminal 12 transmits the position data received from the wrist terminal 11 to the runners server 17 (Step F14). Further, the mobile terminal 12 outputs the position data at this time to the health management application (step F15).

  Further, for example, when the moving distance is short or the moving speed is slow, it is determined that the user has simply moved the place, not running. When it is determined that the vehicle is not running (No in Step F18), the portable terminal 12 does not transmit the position data received from the wrist terminal 11 to the runners server 17 and outputs only the health management application (Step F19).

  In this way, if the user runs with the mobile terminal 12, the position data detected in the meantime can be sent to the runners server 17 to receive advice on running. In addition, when running with the mobile terminal 12 placed, the position data received from the wrist terminal 11 can be sent to the runners server 17 to receive advice on running as described above.

(D) Information Acquisition / Information Display The list terminal 11 can acquire and display various content information on the network through the mobile terminal 12. The various content information includes information provided from the health management server 16 and the runners server 17 described above. As described with reference to FIG. 9, these pieces of information are once processed for the wrist terminal by the wrist terminal server 15 and then given to the wrist terminal 11 through the portable terminal 12.

  FIG. 14 is a flowchart showing the operation of the information acquisition process of the wrist terminal 11.

  The wrist terminal 11 (specifically, the CPU 21) checks the connection state with the portable terminal 12 at regular intervals (step G11) and determines whether communication is possible (step G12). If communication is possible, that is, if wrist terminal 11 and portable terminal 12 are in a state in which short-range wireless communication is possible (Yes in step G12), wrist terminal 11 receives content information from portable terminal 12 and It is stored in 35 predetermined areas (step G13). This content information is periodically received by the mobile terminal 12 from the wrist terminal server 15 (see step B17 in FIG. 9), and is processed for the wrist terminal.

  FIG. 15 is a flowchart showing the operation of the information display process of the wrist terminal 11.

  The wrist terminal 11 (specifically, the CPU 21) analyzes the output data of the motion detection sensor provided in the sensor unit 26, and determines how the user is moving based on the analysis result (step H11). ).

  Here, when the user is turning the wrist (Yes in Step H12), the wrist terminal 11 determines that the flip operation shown in FIG. 4 is performed, and switches from the clock screen as the reference screen to the information display. . That is, the wrist terminal 11 selectively reads out various information from a predetermined area of the memory 25 based on the number of times the user turns the wrist, and displays it on the screen of the display unit 22 (step H13). The various information includes advice from the health management server 16 and the runners server 17. In this case, the order in which various information is displayed is set in advance.

  In addition, when the user performs an operation with the arm lowered (Yes in Step H14), the wrist terminal 11 returns from the information display to the clock screen that is the reference screen (Step H15).

  As described above, according to the present embodiment, the wrist terminal 11 having a shape that can be worn on the body, and the multifunctional portable terminal 12 that can be connected to the wrist terminal 11 by short-range wireless communication are used. Can support health care.

  In this case, the wrist terminal 11 is provided with a motion detection sensor such as an acceleration sensor. Therefore, if the wrist terminal 11 is worn, the user's daily life movement can be measured without always carrying the mobile terminal 12, and the measurement result is sent from the wrist terminal 11 to the health management server 16 through the mobile terminal 12. In this way, you can receive advice on health management.

  The wrist terminal 11 is provided with a position detection function using GPS. Therefore, if the wrist terminal 11 is worn, the travel distance when running can be measured without always carrying the mobile terminal 12, and the measurement result is sent from the wrist terminal 11 to the runners server 17 through the mobile terminal 12. So you can get advice on running.

  On the other hand, since the mobile terminal 12 is also provided with a position detection function using GPS, if the user runs while holding the mobile terminal 12, the travel distance at that time can be measured and sent to the runners server 17.

  In addition, the wrist terminal 11 can confirm various information on the network received by the mobile terminal 12. In this case, when the user performs a predetermined operation while holding the wrist terminal 11, information relating to preset items is selectively displayed from these pieces of information. Therefore, it is possible to easily display and check only necessary information at any time without a troublesome operation for displaying information.

  The wrist terminal 11 has a wristwatch shape that can be worn on the user's wrist, and acquires various types of information by short-range wireless communication from a portable terminal placed in a bag or the like. The user can selectively view these pieces of information simply by performing an operation such as turning the wrist while wearing the wrist terminal 11 on the wrist.

  In addition, although some embodiment of this invention was described, these embodiment is shown as an example and is not intending limiting the range of invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

Hereinafter, the invention described in the scope of claims of the present application will be appended.
[1]
In an action management system comprising a first terminal having a shape that can be worn on the body and a second terminal that can be connected to the first terminal by short-range wireless communication,
The first terminal is
Measuring means for measuring user behavior data;
Recording means for recording behavior data measured by the measuring means;
Depending on the state of communication with the second terminal, the action data measured by the measuring means is transmitted to the second terminal in real time, or the action data stored in the recording means is collectively Communication control means for transmitting to the second terminal,
The second terminal is
Analyzing means for analyzing the action data received from the first terminal;
And a server access unit that accesses a predetermined server on the network according to the type of the behavior data, transmits data obtained by the analysis unit, and receives a service of the server. system.

[2]
The measuring means is
Measuring movement data of the user's daily life as the behavior data,
The server access means is
The behavior management system according to [1], wherein when the behavior data is the motion data, the motion data is transmitted by accessing a first server that supports health management, and advice on health management is received.

[3]
The measuring means is
Measuring the position data indicating the current position of the user as the behavior data,
The server access means is
When the behavior data is the position data and the user can determine that the user is running, the user accesses a second server that supports running, transmits the position data, and receives advice related to running [ 1] The behavior management system according to the above.

[4]
The second terminal is
A position measuring means for measuring the current position of the user;
The server access means is
The behavior management system according to [1], wherein the second server is accessed by a predetermined operation and the position data measured by the position measuring means is transmitted.

[5]
The first terminal is
Information acquisition means for acquiring various types of information from the second terminal;
[1] The display control means for selectively displaying information on a preset item from among various information acquired by the information acquisition means by a predetermined operation of the user Behavior management system.

[6]
The first terminal is
It has the shape of a watch that can be worn on the user's wrist,
The information acquisition means
A variety of information is acquired by near field communication from the second terminal existing near the first terminal in a state where the first terminal is worn on the wrist of the user. 5] The behavior management system according to the above.

[7]
A method for managing user behavior using a first terminal having a shape that can be worn on the body and a second terminal that can be connected to the first terminal by short-range wireless communication,
The first terminal is
Measure user behavior data,
Record this measured behavior data in memory,
Depending on the state of communication with the second terminal, the measured behavior data is transmitted to the second terminal in real time, or the behavior data stored in the memory is batched to the second terminal. Send it to your device,
The second terminal is
Analyzing behavior data received from the first terminal,
A behavior management method comprising: accessing a predetermined server on the network according to a type of the behavior data, transmitting an analysis result of the behavior data, and receiving a service of the server.

  DESCRIPTION OF SYMBOLS 11 ... Wrist terminal, 11a ... Device main body, 11b ... Band, 12 ... Mobile terminal, 13 ... Network, 14a, 14b ... Content server, 15 ... Wrist terminal server, 16 ... Health management server, 17 ... Runners server, 21 ... CPU 21a ... Communication signal control function, 21b ... Information acquisition function, 21c ... Display control function, 22 ... Display unit, 23 ... Touch panel, 24 ... Communication unit, 25 ... Memory, 25a ... Program, 26 ... Sensor unit, 27 ... Clock Unit, 28 ... GPS unit, 31 ... CPU, 31a ... setting function, 31b ... information collecting function, 31c ... information transfer function, 31d ... analysis function, 31e ... server access function, 32 ... display unit, 33 ... touch panel, 34a ... 1st communication part, 34b ... 2nd communication part, 35 ... Memory, 35a ... Program, 36 ... GPS part, 41 ... List end Use memory, 41a ... user information, 41b ... delivery information.

Claims (7)

In an action management system comprising a first terminal having a shape that can be worn on the body and a second terminal that can be connected to the first terminal by short-range wireless communication,
The first terminal is
Measuring means for measuring user behavior data;
Recording means for recording behavior data measured by the measuring means;
Depending on the state of communication with the second terminal, the action data measured by the measuring means is transmitted to the second terminal in real time, or the action data stored in the recording means is collectively Communication control means for transmitting to the second terminal,
The second terminal is
Analyzing means for analyzing the action data received from the first terminal;
And a server access unit that accesses a predetermined server on the network according to the type of the behavior data, transmits data obtained by the analysis unit, and receives a service of the server. system. The measuring means is
Measuring movement data of the user's daily life as the behavior data,
The server access means is
2. The behavior management system according to claim 1, wherein when the behavior data is the motion data, the behavior data is received by accessing a first server that supports health management, transmitting the motion data, and receiving advice on health management. The measuring means is
Measuring the position data indicating the current position of the user as the behavior data,
The server access means is
The behavior data is the position data, and when the user can determine that the user is running, the user accesses a second server that supports running, transmits the position data, and receives advice related to running. Item 1. The behavior management system according to item 1. The second terminal is
A position measuring means for measuring the current position of the user;
The server access means is
2. The behavior management system according to claim 1, wherein the second server is accessed by a predetermined operation and the position data measured by the position measuring means is transmitted. The first terminal is
Information acquisition means for acquiring various types of information from the second terminal;
2. The display control means for selectively displaying information related to a preset item from among various information acquired by the information acquisition means by a predetermined operation of the user. Behavior management system. The first terminal is
It has the shape of a watch that can be worn on the user's wrist,
The information acquisition means
6. Various information is acquired by short-range wireless communication from the second terminal located near the first terminal in a state where the first terminal is worn on a user's wrist. The behavior management system described. A method for managing user behavior using a first terminal having a shape that can be worn on the body and a second terminal that can be connected to the first terminal by short-range wireless communication,
The first terminal is
Measure user behavior data,
Record this measured behavior data in memory,
Depending on the state of communication with the second terminal, the measured behavior data is transmitted to the second terminal in real time, or the behavior data stored in the memory is batched to the second terminal. Send it to your device,
The second terminal is
Analyzing behavior data received from the first terminal,
A behavior management method comprising: accessing a predetermined server on the network according to a type of the behavior data, transmitting an analysis result of the behavior data, and receiving a service of the server.

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