JP6496679B2 - Terminal, information processing system, information processing method, and program - Google Patents

Description

  The present invention relates to a terminal, an information processing system, an information processing method, and a program.

  It is widely performed that a user causes a terminal such as a smartphone to execute self-positioning of the terminal and use a positioning result for a map application or the like. In this case, the self-positioning is performed using the GPS function or the like of the terminal. When the terminal frequently performs self-positioning, the terminal battery is consumed, so various proposals have been made to reduce the terminal battery consumption (for example, Patent Document 1).

  In addition, glasses-type and watch-type terminals (so-called wearable terminals) carried by users are becoming widespread, and users are also allowed to cause these terminals to perform self-positioning using a GPS function or the like. Yes.

JP2015-25810A

  In the conventionally proposed method, when a user carries one terminal, it is assumed that the battery consumption is suppressed, and the user has a plurality of terminals having a self-positioning function such as a smartphone or a wearable terminal. The case to carry was not assumed.

  Smartphones and wearable terminals carried by the same user are generally linked by short-range wireless communication, etc., and each terminal performs redundant processing, thereby consuming resources such as batteries wastefully. There was a fear.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to suppress the resource usage of a plurality of terminals carried by a user.

  In one aspect, it is a terminal carried by a user, the acquisition part which acquires the function and the remaining capacity of a resource which other terminals carried by the user have from the other terminals, the terminal, and the other The common function is activated from the terminal and the other terminal based on the specifying unit that identifies the common function common to the terminal and the remaining resources of the resources of the terminal and the other terminal. There is provided a terminal having a start control unit that selects a terminal and starts the common function of the selected terminal.

  It is possible to reduce the amount of resources used by a plurality of terminals carried by the user.

It is a figure which shows an example of the information processing system which concerns on this embodiment. It is a figure which shows an example of the operation | movement sequence which concerns on this embodiment. It is a figure which shows an example of the hardware constitutions of the terminal which concerns on this embodiment. It is a figure which shows an example of a function structure of the portable terminal which concerns on this embodiment. It is a figure which shows an example of the performance management table which concerns on this embodiment. It is a figure which shows an example of the resource management table which concerns on this embodiment. It is a figure which shows an example of the condition setting table which concerns on this embodiment. It is a figure which shows an example of the offset setting table which concerns on this embodiment. It is a figure which shows an example of a function structure of the wearable terminal which concerns on this embodiment. It is FIG. (1) which shows an example of the operation | movement flow which concerns on this embodiment. It is FIG. (2) which shows an example of the operation | movement flow which concerns on this embodiment.

<System configuration>
The system configuration of the information processing system 1 according to the present embodiment will be described with reference to FIG. FIG. 1 is a diagram illustrating an example of an information processing system 1 according to the present embodiment. The information processing system 1 includes a mobile terminal 20, a wearable terminal 30 (30A, 30B), a mobile phone base station 50 (hereinafter referred to as base station 50), a wireless LAN access point 40 (hereinafter referred to as AP 40), and a GPS satellite 60.

  The mobile terminal 20 is, for example, a mobile phone, a smartphone, or a tablet terminal. Alternatively, it is realized by a notebook PC or the like. The portable terminal 20 has a self-position specifying function that receives the GPS signal 65 and the like and specifies the self-position. The mobile terminal 20 includes an acceleration sensor, and detects the start of movement of the mobile terminal 20 and the stop of movement of the mobile terminal 20. The portable terminal 20 has a function of connecting to the Internet or the like by connecting to the base station 50 or the AP 40.

  Various applications are installed in the mobile terminal 20. The portable terminal 20 activates the map application in response to an instruction from the user. The terminal 20 executes processing related to identification of the self-location and measurement of acceleration necessary for operating the map application.

  The wearable terminal 30 is a terminal worn by the user. FIG. 1 shows a state in which a watch-type wearable terminal 30A and a glasses-type wearable terminal 30B are worn by a user. The wearable terminal 30 has a self-position specifying function for receiving the GPS signal 65 and the like and specifying the self-position. Wearable terminal 30 has an acceleration sensor, and detects the start of movement of wearable terminal 30, the stop of movement of wearable terminal 30, and the like.

  Various applications are installed in the wearable terminal 30. The application of the wearable terminal 30 may be set to operate in accordance with an instruction from the mobile terminal 20. For example, the map application of the wearable terminal 30 may receive an instruction from the mobile terminal 20 and execute processing related to identification of the self position and measurement of acceleration.

  Wearable terminal 30 may have a function of connecting to base station 50 or AP 40 to connect to the Internet or the like, or may be connected to the Internet or the like via portable terminal 20.

  The portable terminal 20 and the wearable terminal 30 perform signal transmission / reception using the short-range wireless 75. For example, the portable terminal 20 and the wearable terminal 30 perform signal transmission / reception using a short-range wireless 75 such as Bluetooth (registered trademark) or Bluetooth Low Energy.

  The GPS satellite 60 transmits a GPS signal 65. The portable terminal 20 and the wearable terminal 30 receive the GPS signal 65 and use it to identify its own position.

  The base station 50 transmits a cellular phone signal 55. The mobile terminal 20 and the wearable terminal 30 may use the mobile phone signal 55 to specify its own position.

  The AP 40 transmits a WLAN signal 45. The portable terminal 20 and the wearable terminal 30 may use the WLAN signal 45 to specify its own position.

  When the mobile terminal 20 or the wearable terminal 30 specifies the self-location using the mobile phone signal 55 and the WLAN signal 45 in addition to the GPS signal 65, or when specifying the self-location only from the GPS signal 65 In comparison, the accuracy of the specified position is increased.

  In the following description, when referring to both the mobile terminal 20 and the wearable terminal 30, they are simply referred to as a terminal.

<Operation sequence>
Next, an operation sequence according to the present embodiment will be described. The mobile terminal 20 and the wearable terminal 30 according to the present embodiment have common functions such as a function for specifying the self-location. In order to reduce the usage of resources such as batteries, the mobile terminal 20 is characterized by causing a function common to the mobile terminal 20 and a part of the wearable terminal 30 to be executed.

  FIG. 2 is a diagram illustrating an example of an operation procedure when the mobile terminal 20 receives an instruction to start a map application from the user.

  A user of the mobile terminal 20 carries the mobile terminal 20, wears two wearable terminals 30 (30A, 30B), and uses short-range radio between the mobile terminal 20, the wearable terminal 30A, and the wearable terminal 30B. It is assumed that signals can be transmitted and received.

  In step S <b> 201, the mobile terminal 20 receives a map application activation instruction from the user and displays the map application on the screen of the mobile terminal 20.

  In step S202, the portable terminal 20 inquires of the wearable terminal 30A about the functions and resource usage status of the wearable terminal 30A.

  In step S203, the mobile terminal 20 inquires of the wearable terminal 30B about the functions and resource usage status of the wearable terminal 30B.

  The portable terminal 20 may inquire of the wearable terminal 30 about the presence / absence of the self-location specifying function, the presence / absence of the acceleration measurement function, and the performance of the map application. Further, the mobile terminal 20 may inquire of the wearable terminal 30 about the remaining battery level, the processor usage rate, the memory usage rate, and the like as the resource usage status. The remaining amount of the battery may be represented by the operable time of the terminal.

  In step S204, the wearable terminal 30A responds to the mobile terminal 20 with the functions and resource usage status of the wearable terminal 30A.

  In step S205, the wearable terminal 30B responds to the mobile terminal 20 with the functions and resource usage status of the wearable terminal 30B.

  In step S206, the portable terminal 20 specifies a function (common function) that is common between the terminals. And the portable terminal 20 judges starting or a stop of the common function of each terminal. For the determination, the resource usage status of the mobile terminal 20, the wearable terminal 30A, and the wearable terminal 30B is used.

  For example, the mobile terminal 20 may activate the self-position specifying function of at least one of the mobile terminal 20, the wearable terminal 30A, and the wearable terminal 30B, and stop the self-position specifying function of other terminals. For example, the mobile terminal 20 may activate the acceleration measurement function of at least one of the mobile terminal 20, the wearable terminal 30A, and the wearable terminal 30B, and stop the acceleration measurement function of other terminals.

  The mobile terminal 20 determines whether to start and stop the common function with reference to the resource usage status of each terminal. The portable terminal 20 determines that the function is operated on a terminal having sufficient resources, that is, a terminal having a large remaining capacity of the resource.

  The remaining capacity of the resource is represented by, for example, “100% —resource usage rate”. The mobile terminal 20 may determine that the remaining capacity of the resource is large from a low battery usage rate, a low processor usage rate, a low memory usage rate, or a combination thereof.

  The portable terminal 20 may execute the function activation or deactivation determination based on the performance of the self-location specifying function and the acceleration measurement function of each terminal.

  In the above-described operation procedure, the mobile terminal 20 inquires the wearable terminal 30 about the function of the wearable terminal 30 after starting the map application. However, the mobile terminal 20 sends a short-range wireless signal to the wearable terminal. The function of the wearable terminal 30 may be acquired when it becomes a state where transmission / reception with the terminal 30 is possible.

  Here, in step S206, the mobile terminal 20 determines to activate the self-position specifying function and the acceleration measurement function of the wearable terminal 30A, and performs the self-position specifying function and the acceleration measurement function of the mobile terminal 20 and the wearable terminal 30B. The explanation will be made assuming that it has been decided to stop.

  In step S207, the mobile terminal 20 transmits an activation instruction for the self-position specifying function and the acceleration measurement function to the wearable terminal 30A.

  In step S208, wearable terminal 30A activates the self-location specifying function and the acceleration measurement function in accordance with the instruction, and executes processing.

  In step S209, the mobile terminal 20 receives the results of the self-position specifying process and the acceleration measuring process from the wearable terminal 30A.

  In step S210, the mobile terminal 20 displays the received processing result on the map application.

  Although the operation procedure for determining the activation and stop of each function of the terminal according to the activation of the map application has been described, the mobile terminal 20 can determine whether the function is activated or stopped at an arbitrary timing. is there.

  For example, the portable terminal 20 may acquire the resource usage status of each terminal again after a predetermined period of time has elapsed from the determination in step S206, and execute a determination regarding activation and stop of the function.

  For example, if the result of the self-location specifying process or the like cannot be acquired for a predetermined period, the mobile terminal 20 acquires the resource usage status of each terminal again and executes the determination regarding the activation and stop of the function. May be.

  For example, the mobile terminal 20 may execute a determination related to activation and deactivation of functions in response to changes in the usage status of each resource of the terminal. Here, the wearable terminal 30 detects that the resource usage status has changed by a predetermined range or more, for example, if the battery usage rate has changed by a predetermined value or more, or the remaining battery capacity has a predetermined value. When it falls below, the notification that the usage status has changed may be transmitted to the mobile terminal 20, and the mobile terminal 20 may execute the determination again in response to receiving the notification.

  Note that the mobile terminal 20 may decide to activate the common function of only one terminal and stop the common function of other terminals, or make a decision to activate the same common function in a plurality of terminals. Also good. From the viewpoint of reducing power consumption, it is preferable to activate the functions of only one terminal and stop the functions of other terminals. However, there are cases where it is preferable to activate a common function in a plurality of terminals. For example, a plurality of terminals may be caused to execute self-position specifying processing, and the mobile terminal 20 may improve the accuracy of the self-position by using information on positions specified by the plurality of terminals. When it is determined that the location information specified by the information includes an abnormal value, the location information specified by another terminal may be used.

<Hardware configuration>
Next, a hardware configuration of the mobile terminal 20 according to the present embodiment will be described.

  FIG. 3 is a diagram illustrating an example of a hardware configuration of the mobile terminal 20 in the present embodiment.

  The portable terminal 20 includes a CPU 201, a ROM 202, a RAM 203, a storage device 204, an input / output device 205, a display 206, a communication I / F 207, an acceleration sensor 208, a self-position specifying device 209, and a short-range wireless communication device 210. Note that each component of the hardware of the mobile terminal 20 is connected to each other via the bus B.

  The CPU 201 is a computer that executes various programs stored in the storage device 204.

  The ROM 202 is a nonvolatile memory. The ROM 202 stores various programs and data necessary for the CPU 201 to execute various programs stored in the storage device 204.

  The RAM 203 is a main storage device such as a DRAM (Dynamic Random Access Memory). The RAM 203 functions as a work area that is expanded when various programs are executed by the CPU 201.

  The storage device 204 stores various programs.

  The input / output device 205 includes functions of an input device that inputs various instructions to the mobile terminal 20 and an output device that outputs a processing result processed by the mobile terminal 20.

  The display 206 displays information received from the input / output device 205. The display 206 and the input / output device 205 may be realized by a touch panel.

  The communication I / F 207 performs communication with an external network such as the Internet via the base station 50 and the AP 40.

  The acceleration sensor 208 detects the magnitude of acceleration applied to the mobile terminal 20 and the direction of acceleration.

  The self-position specifying device 209 is realized by a GPS receiver or the like. The self-position specifying device 209 receives the GPS signal and specifies the position of the mobile terminal 20. When the position of the mobile terminal 20 is specified, information on the AP 40 and the base station 50 may be acquired via the communication I / F 206 and used for the self-position specifying process.

  The short-range wireless communication device 210 performs short-range wireless communication with the wearable terminal 30 using Bluetooth (registered trademark), Bluetooth Low Energy (registered trademark), or the like.

  Each function of the portable terminal 20 can be realized by the CPU 201 executing a program stored in the storage device 204 or the like.

  The wearable terminal 30 also has the same hardware configuration as the portable terminal 20. The device used for the wearable terminal 30 is adjusted according to the nature of the wearable terminal 30. For example, in the case of the glasses-type wearable terminal 30, a head mounted display may be used. In addition, instead of the touch panel, the wearable terminal 30 may be an input device that supports voice input.

<Functional configuration>
(1) Mobile terminal The functional configuration of the mobile terminal 20 will be described using FIG. FIG. 4 is a diagram illustrating an example of a functional configuration of the mobile terminal 20.

  The mobile terminal 20 includes a transmission / reception unit 220, a self-position specifying unit 230, an acceleration measurement unit 240, an information acquisition unit 250, an activation control unit 260, an input / output control unit 270, an information storage unit 280, and an application control unit 290. The information storage unit 280 includes a performance management table 281, a resource management table 282, a condition setting table 283, an offset setting table 284, and a state storage table 285.

  The transmission / reception unit 220 transmits / receives data to / from the wearable terminal 30 using short-range radio. The transmission / reception unit 220 is connected to the Internet or the like via the base station 50 or the AP 40 and transmits / receives data.

  The self-position specifying unit 230 specifies the position where the mobile terminal 20 is located in response to an instruction from the activation control unit 260. Specifically, the self-position specifying unit 230 receives the GPS signal 65 from the GPS satellite 60 and specifies the position where the mobile terminal 20 is located. The self-position specifying unit 230 may specify the position of the mobile terminal 20 using the signal 55 from the base station 50 and / or the signal 45 from the AP 40 in addition to the GPS signal 65.

  The acceleration measurement unit 240 receives an instruction from the activation control unit 260, measures the acceleration applied to the mobile terminal 20 and the direction in which the acceleration is applied, and detects the start of movement of the mobile terminal 20 and the stop of movement of the mobile terminal 20. .

  The information acquisition unit 250 acquires the function and resource usage status of the wearable terminal 30. The information acquisition unit 250 acquires the resource usage status of the mobile terminal 20 at a predetermined timing. When the resource usage rate of the wearable terminal 30 changes by a predetermined range or more, or when the remaining resource capacity of the wearable terminal 30 falls below a predetermined threshold, the information acquisition unit 250 uses the resource usage status from the wearable terminal 30. Receive. The information acquisition unit 250 stores the acquired information in the information storage unit 280.

  The information acquisition unit 250 acquires information on the position specified by the self-position specifying unit 230 or the wearable terminal 30 and stores the information in the information storage unit 280 as the position of the mobile terminal 20.

  The information acquisition unit 250 acquires information on acceleration measured by the acceleration measurement unit 240 or the wearable terminal 30 and stores the information in the information storage unit 280 as the acceleration of the mobile terminal 20.

  The activation control unit 260 identifies a function common to the terminals, and selects a terminal that activates the identified function and a terminal that stops the identified function. At the time of selection, the activation control unit 260 uses information stored in each table of the information storage unit 280. The activation control unit 260 transmits an instruction to activate or stop the function of the wearable terminal 30 to the wearable terminal 30 based on the selection result. The activation control unit 260 instructs the self-position specifying unit 230, the acceleration measurement unit 240, and the like to start or stop.

  The activation control unit 260 determines whether or not to change the terminal that activates the function in accordance with the change in the resource usage status of the terminal.

  For example, the activation control unit 260 may determine whether or not to change a terminal that activates a function when a predetermined period has elapsed since selection.

  For example, when the activation control unit 260 receives a notification from the information acquisition unit 250 that the resource usage status of the mobile terminal 20 or the wearable terminal 30 has changed, it determines whether to change the terminal that activates the function. You may do. In this case, the activation control unit 260 notifies the wearable terminal 30 of a condition (notification condition) for the wearable terminal 30 to notify the resource usage status via the information acquisition unit 250. As the notification condition, for example, a condition is set such that the remaining capacity of the battery falls below a predetermined threshold. In addition, the activation control unit 260 may notify a maintenance resource condition described later as a notification condition.

  In addition, when changing the terminal which starts a function, the starting control part 260 may transmit the instruction | indication which stops the function of the terminal before a change, after receiving the notification of the result of a process from the terminal after a change. Thereby, the continuity of the processing result can be maintained. Also, if the information acquisition unit 250 does not receive a processing result notification from the changed terminal even after a predetermined period has elapsed since the activation control unit 260 transmitted the activation instruction to the changed terminal, The control unit 260 may continuously activate the function of the terminal before the change. The predetermined period may be provided for each process executed by the function to be switched. For example, in the process of specifying the self-location, it may take time to acquire the GPS signal when moving in a building or a tunnel. For this reason, it is preferable that the activation control unit 260 stops the function of the terminal before the change after confirming that the function is operating normally in the terminal after the change after a predetermined period.

  The input / output control unit 270 receives various instructions from the user of the mobile terminal 20 and displays various information on the screen of the mobile terminal 20. The input / output control unit 270 accepts an instruction for starting an application and executing various functions from a user. The input / output control unit 270 displays the execution status of the application on the screen. For example, when a map application is executed, the input / output control unit 270 displays a map and information indicating the position of the terminal on the map on the screen.

  The input / output control unit 270 displays the determination result of the activation control unit 260 on the screen. In response to the input / output control unit 270 receiving an instruction from the user to accept, the activation control unit 260 may execute function activation and deactivation processing.

  The information storage unit 280 stores information used for controlling the mobile terminal 20. The activation control unit 260, the application control unit 290, and the like execute control with reference to the table stored in the information storage unit 280. Information stored in each table will be described later.

  The application control unit 290 activates an application based on an instruction from the user and executes various processes related to the application. When the position of the terminal and the movement state are necessary at the time of executing the application, the application control unit 290 instructs the activation control unit 260 to execute the self-position specifying process and the acceleration measuring process. Upon receiving the instruction, the activation control unit 260 selects a terminal that performs the self-position specifying process and the acceleration measuring process. The application control unit 290 refers to the state storage table 285 and identifies the position and acceleration of the terminal. When executing the map application, the application control unit 290 may display the position and acceleration (moving or stopping) of the identified terminal on the map so that the user can recognize the current position and moving state. .

  If an Internet connection function is required when executing an application, the application control unit 290 instructs the activation control unit 260 to execute an Internet connection process. Upon receiving the instruction, the activation control unit 260 selects a terminal to be connected to the Internet. In this case, an Internet connection is executed via the selected terminal.

(2) Information stored in each table of the information storage unit Next, information stored in the information storage unit 280 will be described.

  FIG. 5 is a diagram illustrating an example of the performance management table 281. The performance management table 281 stores the function and performance of the terminal acquired by the information acquisition unit 250 in association with the terminal identifier.

  FIG. 5 shows an example in which the self-location specifying function, the acceleration measuring function, and the Internet connection function of each terminal are stored, but the stored functions are not limited to this. In the example of FIG. 5, “high”, “medium”, or “low” is set as the performance, but specific performance may be stored. For example, in the case of the self-location specifying function, the measurement processing time and the measurement error may be stored. For example, in the case of the acceleration measurement function, a range where a specific acceleration can be detected may be stored. For example, in the case of the Internet connection function, a communication speed and a usable wireless access system may be stored.

  FIG. 6 is a diagram illustrating an example of the resource management table 282. The resource management table 282 stores the resource usage status of the terminal acquired by the information acquisition unit 250. In the example of FIG. 6, the battery usage rate, the processor usage rate, and the memory usage rate are stored in the resource management table 282, but the usage status of the stored resources is not limited to this. For example, the operable time of the terminal may be stored. Note that the operable time may be acquired by the information acquisition unit 250 from the terminal and stored, or the operable time estimated from the battery usage rate may be stored.

  FIG. 7 is a diagram illustrating an example of the condition setting table 283. The activation control unit 260 refers to the condition setting table 283 and selects a terminal that activates the function and a terminal that deactivates the function. Further, the activation control unit 260 refers to the condition setting table 283 and changes the terminal that activates the function and the terminal that deactivates the function.

  The condition setting table 283 stores performance conditions, resource conditions, selection conditions, and switching conditions for each function to be activated or stopped in each terminal.

  In the performance condition, a performance condition required when a function is executed by a map application or the like is set. In the example of FIG. 7, a terminal having a “self-position specifying function” performance of “medium” or higher is a target for starting the “self-position specifying function”.

  In the maintenance resource condition, the remaining capacity of the resource that is required when the function is executed is set. In the example of FIG. 7, the maintenance resource condition is set to have a predetermined remaining capacity in the battery of the terminal. The maintenance resource condition is provided in order to avoid the situation where the terminal resource is consumed by activating the function and the terminal cannot be operated. In the example of FIG. 7, the remaining battery capacity is set in the maintenance resource condition, but it is a matter of course that other resource states may be set. Further, as in the example of FIG. 7, the maintenance resource condition may be set separately for the mobile terminal 20 and the wearable terminal 30 or may be set for each terminal. In the example of FIG. 7, the maintenance resource condition of the mobile terminal 20 is set to be higher than the maintenance resource condition of the wearable terminal 30, and the resource consumption of the mobile terminal 20 is set to be suppressed.

  The selection condition is set such that the activation control unit 260 selects a terminal that activates the function. In the example of FIG. 7, the activation control unit 260 refers to the resource management table 282 and selects a terminal having “the largest remaining battery capacity”. In this case, the activation control unit 260 stops the functions of terminals other than the selected terminal. The activation control unit 260 selects a terminal satisfying the selection condition from terminals satisfying the performance condition and the resource condition.

  In the switching condition, a condition for the activation control unit 260 to change the terminal that activates the function is set. In the example of FIG. 7, the switching condition is ““ remaining battery capacity (%) of selected terminal + offset value ≦ remaining battery capacity (%) of change destination candidate terminal ”(condition 1) and“ change The battery remaining capacity is the largest among the previous candidate terminals ”(condition 2)”. The offset value is a value provided in order to avoid frequent changes in the terminal that activates the function. The offset value is stored in the offset setting table 284. Here, the condition 1 represents that the remaining capacity of the resource of the change destination candidate terminal is larger than the remaining capacity of the battery of the selected terminal by a predetermined value or more.

  The activation control unit 260 refers to the resource management table 282 and determines whether to change to a terminal that satisfies the switching condition. The activation control unit 260 selects a terminal satisfying the selection condition from terminals satisfying the performance condition and the resource condition.

  For example, when the mobile terminal 20, the wearable terminal 30A, and the wearable terminal 30B satisfy performance conditions and resource conditions, the remaining battery capacity of the mobile terminal 20 is 50%, the remaining battery capacity of the wearable terminal 30A is 80%, The determination of the change when the remaining battery capacity of the wearable terminal 30B is 70% and the offset value is set to 10% will be described.

  In this case, the activation control unit 260 determines that the wearable terminal 30A and the wearable terminal 30B satisfy the condition 1, and further, since the remaining battery capacity of the wearable terminal 30A is larger than the remaining battery capacity of the wearable terminal 30B, the wearable terminal The function of 30A is activated, and a determination is made to stop the functions of the mobile terminal 20 and the wearable terminal 30B.

  FIG. 8A is a diagram illustrating an example of the offset setting table 284. The offset value used when the activation control unit 260 determines whether or not the switching condition is satisfied is stored. In the example of FIG. 8A, 10% is set as the offset value, but other values may be set. An offset value may be provided for each function to be determined. Note that a unit value other than a percentage may be set as the offset value. For example, when the switching condition is set based on “operation possible time”, time is set as the offset value.

FIG. 8B is a diagram illustrating an example of the state storage table 285. The information acquisition unit 250 stores the acquired position information and acceleration information. In the example of FIG. 8, the position information is represented by latitude and longitude, and the acceleration information is represented by direction (°) and size (m / s ² ).

(3) Wearable Terminal Next, the functional configuration of the wearable terminal 30 will be described. It is a figure which shows an example of a function structure of the wearable terminal 30 using FIG.

  The wearable terminal 30 includes a transmission / reception unit 320, a self-position specifying unit 330, an acceleration measurement unit 340, an information acquisition unit 350, an activation control unit 360, an input / output control unit 370, and an information storage unit 380. In addition, the information storage unit 380 includes a notification condition setting table 381.

  The transmission / reception unit 320 transmits / receives data to / from the mobile terminal 20 and other wearable terminals 30 using short-range radio. The transmission / reception unit 320 may connect to the Internet or the like via the base station 50 or the AP 40 to transmit / receive data.

  The self-position specifying unit 330 receives the instruction from the activation control unit 360 and specifies the position of the wearable terminal 30. The position specifying method is the same as the self-position specifying unit 230 of the mobile terminal 20.

  In response to an instruction from the activation control unit 360, the acceleration measurement unit 340 measures the magnitude of acceleration applied to the wearable terminal 30 and the direction in which the acceleration is applied.

  The information acquisition unit 350 acquires the functions and resource usage status of the wearable terminal 30 and notifies the mobile terminal 20 of the acquired information in response to a request from the mobile terminal 20.

  The information acquisition unit 350 sends the resource usage status to the mobile terminal 20 when the usage status of the resource changes by a predetermined range or more or when the remaining capacity of the resource falls below a predetermined threshold. Send.

  The information acquisition unit 350 acquires information on the position specified by the self-position specifying unit 330 and stores the information in the information storage unit 380. Further, the information acquisition unit 350 transmits information on the specified position to the mobile terminal 20.

  The information acquisition unit 350 acquires information on acceleration measured by the acceleration measurement unit 340 and stores the information in the information storage unit 380. In addition, the information acquisition unit 350 transmits information on the measured acceleration to the mobile terminal 20.

  The information acquisition unit 350 stores the notification condition acquired from the mobile terminal 20 in the notification condition setting table 381 of the information storage unit 380. The information acquisition unit 350 notifies the mobile terminal 20 of the resource usage status when the notification condition is satisfied.

  In response to an instruction from the mobile terminal 20, the activation control unit 360 activates and stops functions such as the self-position specifying unit 330 and the acceleration measurement unit 340.

  The input / output control unit 370 receives various instructions from the user of the wearable terminal 30 and displays various information on the screen of the wearable terminal 30.

  The information storage unit 380 stores information used for controlling the wearable terminal 30. The information storage unit 380 stores the information acquired by the information acquisition unit 350. The notification condition setting table 381 stores the notification conditions received from the mobile terminal 20.

<Operation flow>
The operation flow of the mobile terminal 20 according to the present embodiment will be described with reference to FIGS. 10 and 11.

(1) Selection of Terminal FIG. 10 is a diagram illustrating an example of an operation flow when the mobile terminal 20 selects a terminal that activates a function. Here, it is assumed that the mobile terminal 20 is in a state in which data can be transmitted and received with the wearable terminal 30A and the wearable terminal 30B by short-range wireless communication.

  In the following, the case of selecting a terminal for starting the self-position specifying process will be described, but it goes without saying that the same procedure can be applied to the case of selecting another function.

  In step S1001, the input / output control unit 270 of the mobile terminal 20 receives an application activation process from the user. When the input / output control unit 270 accepts the application activation process, the application control unit 290 recognizes that it is necessary to specify the self-location of the mobile terminal 20 in order to operate the application, and the activation control unit 260 Is instructed to select a terminal for performing self-location identification processing.

  In step S1002, the activation control unit 260 instructs the information acquisition unit 250 to acquire the resource usage status of the mobile terminal 20. The activation control unit 260 instructs the wearable terminal 30A and the wearable terminal 30B to confirm the presence / absence and performance of the self-location specifying function. In addition, the activation control unit 260 instructs the information acquisition unit 250 to acquire the usage status of the resources of the wearable terminal 30A and the wearable terminal 30B.

  In step S <b> 1003, the activation control unit 260 selects a terminal that performs a self-position specifying process based on the information acquired by the information acquisition unit 250. The activation control unit 260 refers to the condition setting table 283 and selects a terminal. For example, when the condition setting table 283 in FIG. 7 is used, the activation control unit 260 selects a terminal having the largest remaining battery capacity among terminals satisfying the performance condition and the resource condition. Here, the description will proceed assuming that the activation control unit 260 has selected the wearable terminal 30A.

  In step 1004, activation control unit 260 instructs wearable terminal 30A to start the self-position specifying process.

(2) Change of Terminal FIG. 11 is a diagram illustrating an example of an operation flow when changing a terminal whose function is activated by the mobile terminal 20. As in the case of FIG. 10, the mobile terminal 20 is in a state in which it can communicate with the wearable terminal 30 </ b> A and the wearable terminal 30 </ b> B by short-range wireless communication.

  In the following, the case of changing the terminal that activates the self-position specifying process will be described, but it goes without saying that the same procedure can be applied to the case of selecting another function.

  In step S1101, the information acquisition unit 250 of the mobile terminal 20 acquires the result of the self-position specifying process from the wearable terminal 30A and stores the result in the state storage table 285.

  In step S1102, activation control unit 260 determines whether or not a change process of a terminal that activates the self-position specifying process is necessary. When the predetermined condition is satisfied (step S1102 Yes), the process proceeds to step S1103, and the terminal change process is started. If the predetermined condition is not satisfied (No in step S1102), the process is terminated.

  For example, the activation control unit 260 may determine that the predetermined condition is satisfied when a predetermined period has elapsed since the wearable terminal 30A was selected. This is because there is a high possibility that the resource usage status of each terminal has changed.

  For example, the activation control unit 260 may determine that the predetermined condition is satisfied when the result of the self-position specifying process has not been received from the selected wearable terminal 30A for a predetermined period. This is because there is a high possibility that the selected terminal is interrupting the processing.

  For example, the activation control unit 260 may determine that a predetermined condition is satisfied when a notification that the resource usage state has changed and the condition for the maintenance resource is not satisfied is received from the selected wearable terminal 30A. . This is because the wearable terminal 30A being selected may not be able to continue processing due to lack of resources. The condition for the wearable terminal 30A to transmit the notification is notified from the portable terminal 20 as a notification condition in advance.

  In step S1103, upon receiving an instruction from the activation control unit 260, the information acquisition unit 250 acquires the resource usage status from the wearable terminal 30A and the wearable terminal 30B. In addition, the information acquisition unit 250 acquires the resource usage status of the mobile terminal 20.

  In step S1104, the activation control unit 260 refers to the condition setting table 283 and determines whether there is a terminal that satisfies the switching condition. If there is a terminal that satisfies the switching condition (Yes in step S1104), the process proceeds to step S1105. On the other hand, when there is no terminal that satisfies the switching condition (No in step S1104), the process ends.

  Specifically, the activation control unit 260 identifies a terminal that satisfies the maintenance resource condition. A terminal that does not satisfy the maintenance resource condition is excluded from candidates for change destination. Next, activation control section 260 compares the resource usage status of the terminal specified as the change destination candidate with the resource usage status of the selected terminal, and determines whether or not the switching condition is satisfied.

  For example, when the switching condition illustrated in FIG. 7 is applied, first, the activation control unit 260 determines whether or not the condition 1 is satisfied. Specifically, the activation control unit 260 determines that the remaining battery capacity + offset value of the selected wearable terminal 30A is based on the remaining battery capacity of the candidate mobile terminal 20 to be changed or the battery capacity of the wearable terminal 30B. Judge whether it is small or not. Next, the activation control unit 260 determines Condition 2. Specifically, activation control unit 260 selects, as a change destination terminal, a terminal having a large remaining battery capacity among terminals determined to satisfy condition 1.

  In step S1105, the activation control unit 260 instructs the terminal selected as the change destination to activate the specific process of the self-location. When the wearable terminal 30B is selected as the change destination, the activation control unit 260 instructs the wearable terminal 30B to activate the self-location specifying function. When the mobile terminal 20 is selected as the change destination, the activation control unit 260 instructs the self-position specifying unit 230 to activate the function.

  In step S1106, activation control unit 260 determines whether information acquisition unit 250 has acquired the result of the specific processing of the self-location from the terminal selected as the change destination within a predetermined period from the activation instruction in step S1105. Judge whether or not. If the processing result can be acquired (step S1106 Yes), the process proceeds to step S1107. On the other hand, when the result of the process cannot be obtained (No in step S1106), the process ends. In this case, the specific processing of the self-location is continued in the wearable terminal 30A that is the terminal before the change.

  In step S1107, activation control unit 260 instructs the terminal before the change to stop the self-location specifying function.

  In addition, when a terminal exists in a tunnel or a building, the terminal may not be able to receive a GPS signal used for specific processing of its own location. For this reason, it is preferable that the predetermined period from the activation instruction is set to about 2-3 minutes.

[Others]
The information acquisition unit 250 is an example of an acquisition unit. The activation control unit 260 is an example of a specifying unit and an activation control unit. The information acquisition unit 350 is an example of a notification unit. The self-position specifying unit 330 and the acceleration measuring unit 340 are examples of a common function executing unit.

  In the embodiment described above, the mobile terminal 20 executes the process of selecting and changing the terminal that activates the function, but these processes may be executed by the wearable terminal 30.

  A storage medium storing software program codes for realizing the functions of the above-described embodiments may be supplied to the mobile terminal 20 and the wearable terminal 30. Needless to say, the above-described embodiment can also be achieved by the portable terminal 20 and the wearable terminal 30 reading and executing the program code stored in the storage medium. In this case, the storage medium stores a program that causes the mobile terminal 20 and the wearable terminal 30 to execute the control method described above.

  Then, the program code itself read from these storage media realizes the functions of the above-described embodiments.

  The functions of the above-described embodiments are not only realized by executing the program code read by the computer device. An operating system (OS) or the like operating on the computer device may perform part or all of the actual processing in accordance with the instruction of the program code. Furthermore, it goes without saying that the functions of the above-described embodiments may be realized by the processing.

  As mentioned above, although preferable embodiment of this invention was described, this invention is not limited to such embodiment, A various deformation | transformation and substitution can be added in the range which does not deviate from the summary of this invention.

1 Information processing system 20 Mobile terminal 30 Wearable terminal 40 Access point (AP)
50 Mobile phone base station (base station)
220 Transceiver (mobile terminal)
230 Self-location identification unit (mobile terminal)
240 Acceleration measurement unit (mobile terminal)
250 Information acquisition unit (mobile terminal)
260 Start-up control unit (portable terminal)
270 Input / output control unit (mobile terminal)
280 Information storage unit (mobile terminal)
281 Performance management table 282 Resource management table 283 Condition setting table 284 Offset setting table 285 State storage table 290 Application control unit 320 Transmission / reception unit (wearable terminal)
330 Self-localization part (wearable terminal)
340 Acceleration measurement unit (wearable terminal)
350 Information acquisition unit (wearable terminal)
360 Start-up control unit (wearable terminal)
370 I / O control unit (wearable terminal)
380 Information storage unit (wearable terminal)
381 Notification condition setting table

Claims (11)

A terminal carried by the user,
An acquisition unit for acquiring functions and resource remaining capacity of other terminals carried by the user from the other terminals;
A specifying unit for specifying a common function common to the terminal and the other terminal;
Based on the remaining capacity of each resource of the terminal and the other terminal, the first terminal that activates the common function is selected from the terminal and the other terminal, and the selected first possess a startup controller for starting the said common functions of the terminal, and
The activation control unit
When the second terminal that has started the common function before the selection is different from the selected first terminal, the processing result notification of the common function is notified within the predetermined period. When receiving from the second terminal, after the notification of the processing result is received, the common function of the second terminal is stopped, while the notification of the processing result of the common function is performed within the predetermined period. A terminal that continues processing of the common function of the second terminal when not received from the terminal.   The terminal according to claim 1, wherein the activation control unit selects a terminal having a large remaining capacity of the resource and activates the common function.   The acquisition unit acquires the performance of the common function of the other terminal from the other terminal, and the activation control unit is configured to select the common function from terminals having the common function exceeding a predetermined performance. The terminal according to claim 1, wherein a terminal that activates is selected.   4. The activation control unit according to claim 1, wherein the activation control unit determines whether to change a terminal that activates the common function after a predetermined period of time has elapsed since the activation of the common function. 5. Terminal.   2. The activation control unit determines whether to change a terminal that activates the common function when a remaining resource capacity of the terminal that activates the common function falls below a predetermined threshold. The terminal according to any one of 4. Remaining capacity of the resources at the end of the common features that the stopped end, the common function start to have the first predetermined value or more than the remaining capacity of the resources of the terminal, is greater, the start control unit the terminal that starts the pre SL common functions, from said first terminal, changing the terminal that stops the common functions, terminal according to any one of claims 1 to 5. The terminal according to any one of claims 1 to 6 , wherein the common function includes a function of specifying a position of the terminal. Remaining capacity of the resource, the remaining capacity of the battery, the remaining capacity of the processor, the remaining capacity of the memory, or a combination thereof, the terminal according to any one of claims 1 to 7. An information processing system having a terminal carried by a user and another terminal carried by the user,
The terminal
An acquisition unit for acquiring functions and resource remaining capacity of the other terminal from the other terminal;
A specifying unit for specifying a common function common to the terminal and the other terminal;
Based on the remaining capacity of each resource of the terminal and the other terminal, the first terminal that activates the common function is selected from the terminal and the other terminal, and the selected first An activation control unit that activates the common function of the terminal,
The activation control unit
When the second terminal that has started the common function before the selection is different from the selected first terminal, the processing result notification of the common function is notified within the predetermined period. When receiving from the second terminal, after the notification of the processing result is received, the common function of the second terminal is stopped, while the notification of the processing result of the common function is performed within the predetermined period. If not accepted from the terminal, the processing of the common function of the second terminal is continued,
The other terminal is
A notification unit for notifying the terminal of the function and resource remaining capacity of the other terminal;
An information processing system comprising: a common function execution unit that activates the common function when the activation control unit selects the other terminal as a terminal that activates the common function. An information processing method executed between a terminal carried by a user and another terminal carried by the user,
The terminal acquires the function and resource remaining capacity of the other terminal from the other terminal;
The terminal identifying a common function common to the terminal and the other terminal;
The terminal selects a first terminal that activates the common function from the terminal and the other terminal based on a remaining capacity of each resource of the terminal and the other terminal; and
The terminal, as a terminal for activating the common function, if you choose the other terminals, the terminal, the said common functions, have a, a step of activating said other terminals,
The step of selecting includes
When the second terminal that has started the common function before the selection is different from the selected first terminal, the processing result notification of the common function is notified within the predetermined period. When receiving from the second terminal, after the notification of the processing result is received, the common function of the second terminal is stopped, while the notification of the processing result of the common function is performed within the predetermined period. An information processing method for continuing processing of the common function of the second terminal when not accepted from the terminal . A terminal program carried by a user,
Acquiring from the other terminal the functions and resource remaining capacity of the other terminal carried by the user;
Identifying a common function common to the terminal and the other terminal;
Selecting a first terminal that activates the common function from the terminal and the other terminal based on a remaining capacity of each resource of the terminal and the other terminal;
Causing the terminal to execute the step of activating the common function of the selected terminal ;
The step of selecting includes
When the second terminal that has started the common function before the selection is different from the selected first terminal, the processing result notification of the common function is notified within the predetermined period. When receiving from the second terminal, after the notification of the processing result is received, the common function of the second terminal is stopped, while the notification of the processing result of the common function is performed within the predetermined period. A program for continuing processing of the common function of the second terminal when not accepted from the terminal .

Images