JP2018082280A - Mobile terminal device, information processing system, information processing method, and information processing program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile terminal device allowing for reducing the number of transmitters of beacon signals installed in a prescribed area.SOLUTION: A mobile terminal device 20 includes: a communication unit 21 for communicating a beacon signal; and a control unit 25 for having the communication unit 21 start transmitting the beacon signal if a prescribed condition is established after receiving a beacon signal associated with a prescribed area.SELECTED DRAWING: Figure 2

Description

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

  A technique for providing a service using a beacon signal to a mobile terminal device such as a smartphone is known. For example, when a beacon signal is received from a transmitter installed at a certain location, an application associated with the identification information in the beacon signal is activated, and a technique for providing a service suitable for the location to the mobile terminal device is known. It has been.

JP 2006-238500 A Special table 2015-535356 gazette JP 2012-169740 A

  However, the larger the area, such as a stadium or event venue such as a baseball field or a soccer field, the more transmitters are required for the beacon signal to reach all areas within the area.

  In one aspect, an object of the present invention is to provide a mobile terminal device, an information processing system, an information processing method, and an information processing program capable of reducing the number of beacon signal transmitters installed in a predetermined area. To do.

  In one aspect, the mobile terminal device transmits the beacon signal to the communication unit when a predetermined condition is satisfied after receiving the beacon signal associated with the communication unit that communicates the beacon signal and the predetermined area. And a control unit for starting the process.

  It is possible to reduce the number of beacon signal transmitters installed in a predetermined area.

FIG. 1 is a diagram illustrating an example of the configuration of the information processing system according to the first embodiment. FIG. 2 is a block diagram schematically illustrating an example of a functional configuration of the mobile terminal device according to the first embodiment. FIG. 3 is a diagram illustrating an example of the format of the beacon signal according to the first embodiment. FIG. 4 is a block diagram schematically illustrating an example of a functional configuration of the management server according to the first embodiment. FIG. 5 is a diagram illustrating an example of application information. FIG. 6 is a diagram illustrating an example of rule information. FIG. 7 is a diagram illustrating an example of area information. FIG. 8 is a sequence diagram illustrating an example of a processing procedure when starting beacon signal proxy transmission in the information processing system according to the first embodiment. FIG. 9 is a sequence diagram illustrating an example of a processing procedure at the end of proxy transmission of a beacon signal in the information processing system according to the first embodiment. FIG. 10 is a flowchart illustrating an example of a procedure of a beacon transmission control process in the mobile terminal device according to the first embodiment. FIG. 11 is a block diagram schematically illustrating an example of a functional configuration of the mobile terminal device according to the third embodiment. FIG. 12 is a block diagram schematically illustrating an example of a functional configuration of the management server according to the third embodiment. FIG. 13 is a diagram illustrating an example of terminal information. FIG. 14 is a diagram illustrating an example of area information. FIG. 15A is a diagram illustrating an example of a service providing area. FIG. 15-2 is an enlarged view of a part of the sub area in the service providing area. FIG. 16 is a sequence diagram illustrating an example of a processing procedure when starting beacon signal proxy transmission in the information processing system according to the third embodiment. FIG. 17 is a sequence diagram illustrating an example of a processing procedure at the end of proxy transmission of a beacon signal in the information processing system according to the third embodiment. FIG. 18 is a flowchart illustrating an example of a procedure of a beacon transmission control process in the management server according to the third embodiment. FIG. 19 is a diagram illustrating a hardware configuration of a computer that executes the information processing program according to the first to fourth embodiments.

  Hereinafter, embodiments of a mobile terminal device, an information processing system, an information processing method, and an information processing program disclosed in the present application will be described in detail based on the drawings. Note that this embodiment does not limit the disclosed technology. Each embodiment can be appropriately combined within a range in which processing contents are not contradictory.

[System configuration]
FIG. 1 is a diagram illustrating an example of the configuration of the information processing system according to the first embodiment. The information processing system includes a transmitter 10, a mobile terminal device 20 possessed by a user, and a management server 50.

  The transmitter 10 is installed at a predetermined position in an area (hereinafter referred to as a service providing area) 100 that provides a service, and transmits a beacon signal at a predetermined period. As the beacon signal, for example, an optical beacon signal or a radio beacon signal can be used. Hereinafter, a signal transmitted from the transmitter 10 is referred to as a beacon signal. The beacon signal includes information for starting an application related to the service providing area 100. The service providing area 100 is an area set by the service provider who wants to provide a service related to the predetermined area to users existing in the predetermined area. Services include application activation, information control or application background control.

  As the beacon signal, a signal using a wireless LAN of Bluetooth (registered trademark) or IEEE 802.11 is used. In the following description, a case where a beacon signal using Bluetooth is used will be described as an example.

  The service providing area 100 is a stadium such as a baseball field or a soccer field, an event venue, or a shopping mall. The transmitter 10 is installed at a predetermined position such as an entrance / exit in the service providing area 100 where the beacon signal can be received when the user's mobile terminal device 20 enters the service providing area 100. The signal reachable range 101 that is the reachable range of the beacon signal is assumed to be narrower than the service providing area 100. That is, in the present embodiment, it is assumed that the service providing area 100 includes a position where the beacon signal from the transmitter 10 cannot be received.

  The mobile terminal device 20 and the management server 50 are connected via a network 70. The network 70 can employ any type of communication network, such as the Internet, a LAN (Local Area Network), a WAN (Wide Area Network), and a VPN (Virtual Private Network), regardless of wired or wireless.

  When entering the signal reachable range 101, the mobile terminal device 20 executes an application associated with information included in the beacon signal. In the present embodiment, the mobile terminal device 20 receives a beacon signal from another mobile terminal device 20 within the service providing area 100 and outside the signal reachable range 101 of the transmitter 10. It has a function of proxy transmitting a beacon signal including the same information as the information included in the transmitted beacon signal. Hereinafter, a state where proxy transmission of a beacon signal is performed is referred to as a proxy transmission mode, and a state where the proxy transmission mode is canceled is referred to as a normal mode. Examples of the mobile terminal device 20 include terminals such as smartphones, tablet terminals, and PDAs (Personal Digital Assistants). In addition, the mobile terminal device 20 performs wireless communication with the network 70.

  The management server 50 is an information processing device that manages applications executed on the mobile terminal device 20. In the present embodiment, the management server 50 also manages the location of the mobile terminal device 20 that transmits the beacon signal as a proxy.

  Next, detailed configurations of the mobile terminal device 20 and the management server 50 included in the information processing system will be described.

[Functional configuration of mobile terminal device 20]
FIG. 2 is a block diagram schematically illustrating an example of a functional configuration of the mobile terminal device according to the first embodiment. The mobile terminal device 20 includes a communication unit 21, a display unit 22, an input unit 23, a positioning unit 24, and a control unit 25.

  The communication unit 21 transmits and receives beacon signals and communicates with the management server 50 via the network 70. The communication unit 21 includes a beacon communication unit 211 and a wireless communication unit 212.

  The beacon communication unit 211 receives a beacon signal and transmits a beacon signal under the control of the control unit 25. Furthermore, the beacon communication unit 211 exchanges signals with the control unit 25 regarding the transition to the proxy transmission mode. Specifically, when the beacon communication unit 211 receives the beacon signal for the first time after entering the service providing area 100, the beacon communication unit 211 notifies the control unit 25 of a beacon reception notification. When the beacon communication unit 211 receives from the control unit 25 an event notification request that informs the control unit 25 when a beacon signal reception stop event is detected, the beacon communication unit 211 notifies the control unit 25 of a timer setting request. Furthermore, when the beacon communication unit 211 detects reception stop of the beacon signal, the beacon communication unit 211 notifies the beacon transmission control unit 255 of the control unit 25 of an event notification.

  Note that when transmitting the beacon signal, the beacon communication unit 211 may inquire the battery management unit 253 of the remaining battery level of the mobile terminal device 20 and transmit the beacon signal including the remaining battery level. Moreover, the beacon communication part 211 may count the transmission frequency of a beacon signal, and may transmit the beacon signal including the transmission frequency. As will be described in detail later, the remaining battery capacity and the number of transmissions are used when determining whether or not another mobile terminal device 20 starts transmitting a beacon signal.

  The beacon communication unit 211 is realized by a BLE (Bluetooth (registered trademark) Low Energy) chip, for example.

  FIG. 3 is a diagram illustrating an example of the format of the beacon signal according to the first embodiment. The beacon signal 150 in the case of using Bluetooth includes a UUID (Universally Unique IDentifier) 151, Major 152, Minor 153, and Measured Power 154.

  The UUID 151 has a data length of 128 bits. The UUID 151 is identification information for identifying the transmitter 10 of the transmission source, for example. Therefore, the same value as the UUID included in the beacon signal transmitted from the transmitter 10 is stored in the UUID 151 transmitted by the mobile terminal device 20 in the proxy transmission mode. This UUID 151 corresponds to a beacon ID for identifying a beacon signal.

  Major 152 has a data length of 16 bits. Major 152 stores, for example, the remaining battery level obtained by battery management unit 253. When performing the process of determining the mobile terminal device 20 that transmits the beacon signal using the remaining battery level, the remaining battery level is stored in the Major 152.

  Minor 153 has a data length of 16 bits. Minor 153 stores the number of times the beacon signal 150 is transmitted. When performing the process of determining the mobile terminal device 20 that transmits the beacon signal using the transmission count of the beacon signal 150, the transmission count of the beacon signal 150 is stored in the Minor 153.

  The measured power 154 has a data length of 16 bits. In this embodiment, it is not used.

  The wireless communication unit 212 performs wireless communication with the network 70 connected to the management server 50. As a wireless communication system, for example, W-CDMA (Code Division Multiple Access), CDMA2000 1x, HSPA (High Speed Uplink Packet Access) Evolution, LTE (Long Term Evolution), LTE-Advanced, WiMAX (Worldwide Interoperability for Microwave Access), WiMAX2 IEEE802.11 wireless LAN or the like is used. In the case of these wireless communication systems, an access point is provided at a connection point with the network 70 as necessary. In the case of such a wireless communication method, the wireless communication unit 212 is realized by a wireless communication chip corresponding to each wireless communication method.

  The display unit 22 is a display device that displays various types of information. As an embodiment, the display unit 22 is realized by a liquid crystal display or an organic EL (ElectroLuminescence) display.

  The input unit 23 is an input device that inputs various types of information. As one embodiment, the input unit 23 is realized by a keyboard or the like.

  As another embodiment, the display unit 22 and the input unit 23 are realized by an integrally configured touch panel.

  The positioning unit 24 measures the position of the mobile terminal device 20. As one embodiment, the positioning unit 24 is realized by a GPS sensor. As another embodiment, positioning may be performed using a wireless LAN access point.

  The control unit 25 controls the mobile terminal device 20 as a whole. The control unit 25 includes an input / output control unit 251, a timer management unit 252, a battery management unit 253, an application execution unit 254, and a beacon transmission control unit 255. The control unit 25 is implemented as a central processing unit, a so-called CPU (Central Processing Unit). The CPU develops, as a process, an application program that realizes proxy transmission, which will be described later, on a work area of a RAM (Random Access Memory) mounted as a main storage device (not shown). Examples of the RAM include DRAM (Dynamic RAM) and SRAM (Static RAM). The application program is stored, for example, in a ROM (Read Only Memory), an SSD (Solid State Drive), or an HDD (Hard Disk Drive).

  The control unit 25 is not necessarily implemented as a central processing unit, and may be implemented as an MPU (Micro Processing Unit) or an MCU (Micro Controller Unit). The control unit 25 can also be realized by a hard wired logic such as an application specific integrated circuit (ASIC) or a field programmable gate array (FPGA).

  The input / output control unit 251 controls the output of information to the display unit 22 or the input of information from the input unit 23.

  In response to a timer setting request from the beacon communication unit 211, the timer management unit 252 measures a predetermined time. For example, a transmission period of a beacon signal is set at the predetermined time.

  The battery management unit 253 manages the remaining battery level of the mobile terminal device 20.

  The application execution unit 254 is a function processing unit that functions when an application whose state is changed by a beacon reception notification from the beacon communication unit 211 is executed. Upon receiving the beacon reception notification, the application execution unit 254 transmits a beacon reception notification to the management server 50 via the wireless communication unit 212, and starts an application related to the received beacon signal according to an instruction from the management server 50. To do. If the application included in the instruction from the management server 50 is not in the mobile terminal device 20, the application is acquired from the management server 50 and then activated. In the present embodiment, the application execution unit 254 activates the beacon transmission control unit 255 in accordance with an instruction from the management server 50.

  The beacon transmission control unit 255 is a function processing unit that functions when an application activated by the application execution unit 254 is executed. The beacon transmission control unit 255 starts proxy transmission of the beacon signal from the beacon communication unit 211 when the beacon signal is not received at a predetermined cycle. Specifically, the beacon transmission control unit 255 causes the beacon communication unit 211 to monitor whether or not the reception of the beacon signal is interrupted, and transmits a beacon transmission request to the beacon communication unit 211 when the beacon signal is interrupted.

  In addition, the beacon transmission control unit 255 is used when the preset end time is reached, when a specific application related to the service providing area 100 is uninstalled, or when the beacon transmission control unit 255 moves outside the service providing area 100. Then, the proxy transmission of the beacon signal is terminated. In these cases, the beacon transmission control unit 255 transmits a beacon transmission end request to the beacon communication unit 211.

  In this embodiment, the user's mobile terminal device 20 existing in the service providing area 100 performs proxy transmission of a beacon signal. However, after the mobile terminal device 20 leaves the service providing area 100, the user's mobile terminal device 20 It is desirable to avoid situations that hinder the use of 20. Therefore, a condition for interrupting proxy transmission may be set. For example, the beacon transmission control unit 255 may interrupt proxy transmission when a beacon signal is transmitted for a predetermined time or when the battery has decreased by a predetermined amount.

  Moreover, in order to implement | achieve transmission of the beacon signal to the service provision area 100, it is also possible to restart proxy transmission of a beacon signal. For example, after the transmission is interrupted, the beacon transmission control unit 255 may start retransmitting the beacon signal when the beacon signal is not received from the other mobile terminal device 20 at a predetermined cycle.

  Further, in order to realize continuous transmission of a beacon signal to the entire service providing area 100, instead of one mobile terminal device 20, a plurality of mobile terminal devices 20 may execute proxy transmission in order. . In this case, a beacon signal including the remaining battery level of the mobile terminal device 20 or the number of times the beacon signal is transmitted is used.

  In one embodiment, when receiving the beacon signal, the beacon transmission control unit 255 compares the remaining battery level in the beacon signal with the remaining battery level of the mobile terminal device 20 acquired from the battery management unit 253. And the beacon transmission control part 255 performs the process which starts proxy transmission, when the battery remaining charge of the own portable terminal device 20 is more. The beacon transmission control unit 255 does not perform proxy transmission when the battery level of the portable terminal device 20 is smaller. When the remaining battery level of the portable terminal device 20 is the same as the remaining battery level in the beacon signal, the beacon transmission control unit 255 may start proxy transmission or may not perform proxy transmission. .

  In another embodiment, when the beacon transmission control unit 255 receives a beacon signal, the beacon transmission control unit 255 compares the number of transmissions in the received beacon signal with the number of transmissions of the mobile terminal device 20 acquired from the beacon communication unit 211. To do. And the beacon transmission control part 255 performs the process which starts proxy transmission, when the frequency | count of transmission of the own portable terminal device 20 is smaller. The beacon transmission control unit 255 does not perform proxy transmission when the number of transmissions of the mobile terminal device 20 is larger. When the number of transmissions of the own mobile terminal device 20 is the same as the number of transmissions in the beacon signal, the beacon transmission control unit 255 may start proxy transmission or may not perform proxy transmission.

  Note that the beacon transmission control unit 255 of the mobile terminal device 20 performing proxy transmission of the beacon signal periodically transmits the beacon signal, but after the transmission is completed, the next transmission is performed. Trying to receive a beacon signal from the transmitter 10 or other portable terminal device 20. Therefore, other beacon signals can be received within this period.

  In addition, here, it is assumed that proxy transmission of the beacon signal from the transmitter 10 is performed by the mobile terminal device 20, but it may be possible that proxy transmission is not necessary. For example, when the service providing area 100 is a narrow place such as only in a small store, proxy transmission is not necessary. Therefore, by including information indicating the necessity of proxy transmission in the beacon signal, for example, by determining the bit at a predetermined position of UUID 151 as information indicating the necessity of proxy transmission, the necessity of proxy transmission is determined. Can be done. For example, when 1 bit at a predetermined position of UUID 151 is “0”, proxy transmission is not necessary, and when 1 bit at a predetermined position of UUID 151 is “1”, proxy transmission is not necessary. Suppose there is. In this case, when the beacon transmission control unit 255 receives the beacon signal, the beacon transmission control unit 255 confirms the bit at the predetermined position, determines whether or not to perform the proxy transmission, and performs the proxy transmission only when the proxy transmission may be performed. Execute the process.

[Functional configuration of management server 50]
FIG. 4 is a block diagram schematically illustrating an example of a functional configuration of the management server according to the first embodiment. The management server 50 includes a communication unit 51, a storage unit 52, and a control unit 53.

  The communication unit 51 has a function of performing communication with the mobile terminal device 20 via the network 70. The communication unit 51 is realized by, for example, a NIC (Network Interface Card).

  The storage unit 52 stores various types of information. Storage unit 52 is implemented as, for example, an HDD or an SSD. The storage unit 52 includes application information 521, rule information 522, and area information 523.

  The application information 521 is information for managing an application provided to the mobile terminal device 20. FIG. 5 is a diagram illustrating an example of application information. The application information 521 is information in which an application ID for identifying an application is associated with a binary file of the application. The application includes a program for displaying information suitable for the service providing area 100. For example, the application has a structure described in a markup language such as HTML (HyperText Markup Language) or XML (eXtensible Markup Language), or a structure in which a program such as JavaScript (registered trademark) is embedded in the markup language. Including markup language that calls programs such as JavaScript.

  The rule information 522 is information that defines a rule for providing an application to the mobile terminal device 20. FIG. 6 is a diagram illustrating an example of rule information. The rule information 522 is information in which the beacon ID included in the beacon signal is associated with the application ID of the application stored in the application information 521. The beacon ID is identification information associated with the service providing area 100. As beacon ID, UUID151 which identifies the transmitter 10 installed in the service provision area 100 can be used, for example. The rule information 522 defines an application to be activated by the mobile terminal device 20 when the mobile terminal device 20 receives a beacon signal.

  The area information 523 is information indicating the range of the service providing area 100 associated with the transmitter 10 and the transmission period of the beacon signal. FIG. 7 is a diagram illustrating an example of area information. The area information 523 is information in which a beacon ID, a transmission period for transmitting a beacon signal, and a service providing area range are associated with each other. The transmission period includes, for example, a time for starting transmission of a beacon signal and a time for ending. The service providing area range defines the range of the service providing area 100, and is defined as a circular area using the coordinates of the center of the service providing area 100 and the radius, for example. Or you may define as a rectangular-shaped area | region which makes the coordinate of two points diagonal. The method of defining the service provision area range is arbitrary.

  The application information 521, rule information 522, and area information 523 may be managed in the form of a database, or may be managed by a method such as CSV (Comma-Separated Values) format or XML format.

  The control unit 53 controls the entire management server 50. The control unit 53 includes an application management unit 531, an application distribution control unit 532, and an area management unit 533. The controller 53 is implemented as a central processing unit, so-called CPU. The CPU gives an instruction to distribute and execute the application to the portable terminal device 20 and an instruction to end the application according to the position of the portable terminal device 20 on a RAM work area mounted as a main storage device (not shown). Deploy the realized application program as a process. As the RAM, DRAM or SRAM can be exemplified. The application program is stored in, for example, a ROM, SSD, or HDD.

  Note that the control unit 53 is not necessarily implemented as a central processing unit, and may be implemented as an MPU or MCU. The control unit 53 can also be realized by a hard wired logic such as ASIC or FPGA.

  The application management unit 531 manages an application provided to the mobile terminal device 20. The application management unit 531 registers or deletes an application in the application information 521 in the storage unit 52, or reads an application from the application information 521 based on an instruction from the mobile terminal device 20.

  When receiving the beacon reception notification from the mobile terminal device 20, the application distribution control unit 532 acquires the application ID corresponding to the beacon ID included in the beacon reception notification from the rule information 522, and carries the beacon reception response notification including the application ID. It transmits to the terminal device 20 via the communication unit 51.

  When receiving the location information notification from the mobile terminal device 20, the area management unit 533 determines whether the location information included in the location information notification is included in the service providing area range corresponding to the beacon ID in the location information notification. Management department. The service providing area range is acquired from the area information 523 using the beacon ID as a key. When the position information is included in the service providing area range, the area management unit 533 returns a response for maintaining the current state to the mobile terminal device 20. On the other hand, if the location information is not included in the service providing area range, the area management unit 533 returns a response indicating suspension of beacon signal transmission to the mobile terminal device 20.

[Process flow]
FIG. 8 is a sequence diagram illustrating an example of a processing procedure when starting beacon signal proxy transmission in the information processing system according to the first embodiment. Here, the flow of processing among the transmitter 10, the portable terminal device 20, and the management server 50 will be described. In addition, here, the user who has the mobile terminal device 20 enters the service providing area 100 by passing near the place where the transmitter 10 is installed, and moves from the inside of the signal reachable range 101 to the outside position. Take the case process as an example.

  The transmitter 10 transmits a beacon signal at a predetermined cycle (SQ11). The beacon signal includes a beacon ID that identifies the service providing area 100. As described above, the user's mobile terminal device 20 receives the beacon signal by entering the signal reachable range 101 of the service providing area 100.

  When receiving the beacon signal, the beacon communication unit 211 of the mobile terminal device 20 notifies the application execution unit 254 of a beacon reception notification including the beacon ID in the beacon signal (SQ12). The application execution unit 254 transmits a beacon reception notification to the management server 50 via the wireless communication unit 212 (SQ13).

  When receiving the beacon reception notification, the application distribution control unit 532 of the management server 50 acquires the application ID associated with the beacon ID in the beacon reception notification from the rule information 522. Then, the application distribution control unit 532 transmits a beacon reception response including the acquired application ID to the mobile terminal device 20 (SQ14). The application ID transmitted to the mobile terminal device 20 corresponds to an application that causes the mobile terminal device 20 to function as the beacon signal transmitter 10 in the service providing area 100 specified by the beacon ID. This application corresponds to the beacon transmission control unit 255 of FIG.

  When the application execution unit 254 of the mobile terminal device 20 receives the beacon reception response via the wireless communication unit 212, the application execution unit 254 acquires the application ID from the beacon reception response. Here, when the application corresponding to the application ID is not introduced into the mobile terminal device 20, the application execution unit 254 transmits an application request including the application ID to the management server 50 (SQ15). The application management unit 531 of the management server 50 reads out the application corresponding to the application ID requested for the application from the application information 521 and transmits it to the mobile terminal device 20 (SQ16). Here, the application has the function of the beacon transmission control unit 255.

  Next, the application execution unit 254 of the mobile terminal device 20 activates the received application, that is, the beacon transmission control unit 255 (SQ17). In SQ15 to SQ16, a case where an application corresponding to the application ID included in the beacon reception response is not introduced into the mobile terminal device 20 is shown. However, when the application corresponding to the application ID included in the beacon reception response is installed in the mobile terminal device 20, the application execution unit 254 does not execute the processes of SQ15 to SQ16. That is, the beacon transmission control unit 255 that is an application corresponding to the application ID received in SQ17, that is, SQ14, is started without receiving the application.

  Thereafter, the beacon transmission control unit 255 notifies the beacon communication unit 211 of an event notification request (SQ18). The beacon communication unit assumes that an event that the beacon signal could not be received has occurred when the portable terminal device 20 has not received the beacon signal from the transmitter 10 for a predetermined period of time, for example. 211 is requested to notify the event. The event notification request includes a beacon reception stop as a condition for generating an event, and a beacon ID and a cycle of a beacon signal transmitted by the transmitter 10.

  Next, when the beacon communication unit 211 receives the event notification request regarding the stop of reception of the beacon signal, the beacon communication unit 211 notifies the timer management unit 252 of the timer setting request (SQ19). The timer setting request includes the cycle of the beacon signal included in the event notification request. The timer management unit 252 sets the timer as the time for counting the period during the timer setting request, and then returns a timer setting response to the beacon communication unit 211 (SQ20). When the beacon communication unit 211 receives the timer setting response, the beacon communication unit 211 returns an event notification response to the event notification request of SQ18 to the beacon transmission control unit 255 (SQ21).

  When the user exists in the signal reachable range 101 of the transmitter 10, the beacon signal from the transmitter 10 is received at the period acquired in SQ18. In this case, the timer management unit 252 receives a beacon signal before a timeout occurs, and resets the timer each time. Thereafter, it is assumed that the user moves within the service providing area 100 and out of the signal reachable range 101. Thereby, the user's portable terminal device 20 does not receive the beacon signal from the transmitter 10 (SQ22). That is, the timer management unit 252 transmits a timeout notification to the beacon communication unit 211 after the set period has elapsed since the timer was reset last time (SQ23).

  When the beacon communication unit 211 receives the timeout notification, the beacon communication unit 211 detects the occurrence of the beacon signal reception stop event and transmits the event notification to the beacon transmission control unit 255 (SQ24). The event notification includes information indicating that reception of the beacon signal has been stopped and the beacon ID of the beacon signal whose reception has been stopped.

  When receiving the event notification, beacon transmission control section 255 transmits a position information request to positioning section 24 (SQ25). The position information request is for requesting acquisition of position information of the mobile terminal device 20 at that time.

  When receiving the position information request, the positioning unit 24 acquires the position information of the mobile terminal device 20, and returns a position information response to the beacon transmission control unit 255 (SQ26). The position information response includes the position information of the mobile terminal device 20. When it is outdoors, position information can be obtained by GPS. Further, in the case of indoors, position information can be obtained using the installation position of the access point of the wireless LAN and the reception strength of the wireless signal at the positioning unit 24. When receiving the position information response, beacon transmission control section 255 transmits a position information notification indicating the position information of portable terminal device 20 to management server 50 (SQ27).

  Upon receiving the location information notification, the area management unit 533 of the management server 50 determines whether the location of the mobile terminal device 20 is within the service providing area 100 (SQ28). Specifically, the area management unit 533 obtains the service providing area range corresponding to the beacon ID of the location information notification from the area information 523, and whether the location information in the location information notification is included in this service providing area range. Determine.

  And the area management part 533 transmits the positional information response containing a determination result to the beacon transmission control part 255 of the portable terminal device 20 (SQ29). Here, it is assumed that the mobile terminal device 20 exists in the service providing area 100. Therefore, a position information response including a beacon transmission request is transmitted from the management server 50 to the mobile terminal device 20.

  Thereafter, the beacon transmission control unit 255 of the mobile terminal device 20 transmits a beacon transmission request to the beacon communication unit 211 (SQ30). The beacon transmission request includes a beacon ID and a beacon signal transmission cycle. The beacon ID is the same as the beacon ID included in the beacon signal transmitted from the transmitter 10 associated with the service providing area 100 where the mobile terminal device 20 exists at that time.

  When receiving the beacon transmission request, beacon communication section 211 starts transmitting a beacon signal (SQ31). The beacon signal includes a beacon ID in the beacon transmission request. Thereafter, the beacon signal is transmitted by the mobile terminal device 20 in the period included in the beacon transmission request in the area within the service providing area 100 and outside the signal reachable range 101 of the transmitter 10. As a result, other portable terminal devices 20 existing within the service providing area 100 and outside the signal reachable range 101 of the transmitter 10 can receive a beacon signal similar to the beacon signal transmitted by the transmitter 10. As a result, the other mobile terminal device 20 is activated by receiving the beacon signal in the same manner as in the case where it is within the signal reachable range 101 of the transmitter 10. The process at the time of starting the beacon signal proxy transmission is thus completed.

  FIG. 9 is a sequence diagram illustrating an example of a processing procedure at the end of proxy transmission of a beacon signal in the information processing system according to the first embodiment. Here, a case where the user of the mobile terminal device 20 performing proxy transmission of a beacon signal moves from the inside of the service providing area 100 to the outside will be described as an example.

  The beacon communication unit 211 of the mobile terminal device 20 transmits a beacon signal at a predetermined cycle (SQ51). The beacon transmission control unit 255 transmits a position information request to the positioning unit 24 at a predetermined cycle (SQ52). When receiving the position information request, the positioning unit 24 acquires the position information of the mobile terminal device 20, and returns a position information response including the position information to the beacon transmission control unit 255 (SQ53). When the beacon transmission control unit 255 receives the position information response, the beacon transmission control unit 255 transmits a position information notification of the mobile terminal device 20 to the management server 50 (SQ54). The position information notification includes a beacon ID and position information.

  Upon receiving the position information notification, the area management unit 533 of the management server 50 determines whether the position of the mobile terminal device 20 is within the service providing area 100 (SQ55), as in SQ28 of FIG.

  Here, it is assumed that the user has moved from the inside of the service providing area 100 to the outside. That is, it is determined that the location information of the mobile terminal device 20 does not exist in the service providing area 100. In this case, the area management unit 533 transmits a position information response instructing the end of transmission of the beacon signal via the communication unit 51 (SQ56). When receiving the position information response, beacon transmission control unit 255 of portable terminal device 20 transmits a beacon transmission end request to beacon communication unit 211 (SQ57). The beacon transmission end request includes a beacon ID. And the beacon communication part 211 complete | finishes transmission of a beacon signal. Thus, the process at the end of the beacon signal proxy transmission ends.

  In SQ55, when the location information exists in the service providing area 100, the processes of SQ52 to SQ55 are repeatedly executed at a predetermined cycle until the user moves outside the service providing area 100.

  Next, details of the beacon transmission control process in the mobile terminal device 20 will be described. FIG. 10 is a flowchart illustrating an example of a procedure of a beacon transmission control process in the mobile terminal device according to the first embodiment. Here, processing executed by the control unit 25 will be described.

  First, when activated by the application execution unit 254, the beacon transmission control unit 255 transmits an event notification request to the beacon communication unit 211 (step S11). The event notification request includes “beacon reception stop” indicating an event occurrence condition, a detection target beacon ID, and a beacon signal cycle. Next, the beacon communication unit 211 attempts to receive a beacon signal from the transmitter 10 (step S12).

  Thereafter, the beacon transmission control unit 255 determines whether or not there is an event notification regarding the stop of reception of the beacon signal (step S13). Here, even if the period of the beacon signal is timed after the timer management unit 252 receives the beacon signal last time, if the beacon signal is not received, the beacon communication unit 211 transmits a beacon reception stop event notification. The If there is no event notification related to beacon signal reception stop (No in step S13), the process returns to step S12.

  If there is an event notification related to the stop of reception of the beacon signal (Yes at Step S13), the beacon transmission control unit 255 determines whether proxy transmission is necessary (Step S14). This is performed by checking one bit at a predetermined position in the beacon ID (UUID 151) of the event notification.

  If proxy transmission is not necessary (No in step S14), the process returns to step S12. On the other hand, when proxy transmission is required (step S14 Yes), it is determined whether it is within the transmission period of a beacon signal (step S15). For example, when the service providing area 100 is set as an event venue, the transmission period is an event holding time (for example, 10:00 to 18:00). Further, for example, when the service providing area 100 is set as a stadium, the transmission period is a competition holding time (for example, 17:00 to 22:00). This transmission period is received in advance from the management server 50 when, for example, an exchange regarding beacon reception notification is performed with the management server 50. The transmission period is associated with the beacon ID in the area information 523 of the management server 50.

  If it is within the transmission period of the beacon signal (step S15 Yes), the beacon transmission control unit 255 acquires the position information of the mobile terminal device 20 from the positioning unit 24 (step S16). Next, the beacon transmission control unit 255 transmits a position information request including the position information to the management server 50 (step S17). Thereafter, the beacon transmission control unit 255 receives the determination result by the management server 50 as to whether or not the mobile terminal device 20 exists in the service providing area 100 (step S18), and the mobile terminal device 20 is in the service providing area 100. (Step S19).

  If the mobile terminal device 20 exists in the service providing area 100 (step S19 Yes), the beacon transmission control unit 255 transmits a beacon transmission request to the beacon communication unit 211 (step S20). The beacon transmission request includes a beacon ID and a cycle. As a result, the beacon communication unit 211 starts transmitting a beacon signal.

  After transmitting the beacon signal, the beacon communication unit 211 tries to receive the beacon signal (step S21). Thereafter, the beacon transmission control unit 255 determines whether there is an event notification related to reception of a beacon signal (step S22). This is because the transmitter 10 or the service providing area 100 installed in the service providing area 100 after the beacon signal is transmitted in accordance with the beacon transmission request in step S20 until the next beacon signal is transmitted. It is determined whether or not a beacon signal from another mobile terminal device 20 has been received.

  When there is an event notification related to reception of a beacon signal (Yes at Step S22), the beacon transmission control unit 255 determines whether transmission of the beacon signal can be interrupted (Step S23). This determination is performed using the battery capacity or the number of times the beacon signal is transmitted. When the battery capacity is used for the determination, the beacon transmission control unit 255 acquires the remaining battery level of the mobile terminal device 20 from the battery management unit 253. The beacon transmission control unit 255 compares the remaining battery level of the other mobile terminal device 20 included in the Major 152 of the received beacon signal 150 with the remaining battery level of the mobile terminal device 20 itself. Then, the beacon transmission control unit 255 determines that the transmission of the beacon signal can be interrupted when the battery level of the mobile terminal device 20 is smaller. Conversely, if the battery level of the mobile terminal device 20 is greater, it is determined that the transmission of the beacon signal is continued. That is, the transmission of the beacon signal is executed by the person with the more remaining battery.

  When the number of beacon signal transmissions is used for the determination, the beacon transmission control unit 255 acquires the number of beacon signal transmissions. The beacon transmission control unit 255 compares the number of beacon signals transmitted from other portable terminal devices 20 included in the Minor 153 of the received beacon signal with the number of beacon signals transmitted from the own portable terminal device 20. Then, the beacon transmission control unit 255 determines that the transmission of the beacon signal can be interrupted when the number of times of transmission of the beacon signal of the mobile terminal device 20 is larger. On the contrary, when the number of times of transmission of the beacon signal of the own mobile terminal device 20 is smaller, it is determined that the transmission of the beacon signal is continued. That is, the transmission of the beacon signal is executed by the one with the smaller number of transmissions.

  If it is determined that the transmission of the beacon signal can be interrupted by the above determination (step S23 Yes), the beacon transmission control unit 255 transmits a beacon transmission end request to the beacon communication unit 211 (step S24). The beacon signal is not transmitted. Then, the process returns to step S12.

  Further, when it is determined that the transmission of the beacon signal cannot be interrupted (No at Step S23), or when the event notification related to the reception of the beacon signal is not received at Step S22 (No at Step S22), the beacon signal is continued thereafter. The process returns to step S15.

  In addition, when it is outside the beacon signal transmission period in Step S15 (No in Step S15), or when the mobile terminal device 20 does not exist in the service providing area 100 in Step S19 (No in Step S19), the beacon transmission control unit 255 The beacon transmission end request is transmitted to the beacon communication unit 211 (step S25), and the beacon communication unit 211 stops transmitting the beacon signal. This is the end of the process.

  The rule information of the management server 50 associates the service providing area 100 with the application. In the above example, the beacon ID included in the beacon signal of the transmitter 10 installed in the service providing area 100 is associated with the application ID for identifying the application. Therefore, in the rule information, not only an application that realizes the function of the beacon transmission control unit 255 that controls the proxy transmission of the beacon signal, but also an application that provides the mobile terminal device 20 with a service related to the service providing area 100 is described above. It is associated with information. That is, when a beacon signal is received, an application corresponding to the beacon ID in the beacon signal is activated, and a service related to the service providing area 100 can be provided to the user of the mobile terminal device 20.

[One aspect of effect]
As described above, when the mobile terminal device 20 according to the present embodiment receives a beacon signal from the transmitter 10 installed in the service providing area 100, the mobile terminal device 20 stops receiving the beacon signal of the beacon ID associated with the transmitter 10. The presence or absence of is detected. When the reception stop of the beacon signal is detected, the mobile terminal device 20 transmits the location information of the mobile terminal device 20 to the management server 50, and the management server 50 includes the mobile terminal device 20 in the service providing area 100. The determination result is transmitted to the mobile terminal device 20. When the mobile terminal device 20 receives the determination result indicating that the mobile terminal device 20 exists in the service providing area 100, the mobile terminal device 20 starts transmitting a beacon signal. Thereby, when the signal reachable range 101 of the beacon signal of the transmitter 10 is smaller than that of the service providing area 100, a beacon signal is sent to the mobile terminal device 20 existing in the service providing area 100 and outside the signal reachable range 101. Can be sent by proxy. As a result, it is possible to start an application associated with the service providing area 100 for a user existing in the service providing area 100 while reducing the installation position of the transmitter 10 and reducing the installation cost and the operation cost. A beacon signal can be transmitted.

  When the mobile terminal device 20 transmits a beacon signal by proxy, a beacon signal including the remaining battery level or the number of beacons transmitted is transmitted. Thereby, when a beacon signal is received from another portable terminal device 20, it is determined whether or not the own portable terminal device 20 performs proxy transmission of the beacon signal using the remaining battery level or the number of times the beacon signal is transmitted. It can be performed. Specifically, in the case of the mobile terminal device 20 performing proxy transmission, it is determined whether the proxy transmission is continued or interrupted, and in the case of the mobile terminal device 20 not performing proxy transmission, the proxy transmission is performed. Determine whether to start. As a result, the mobile terminal device 20 that performs proxy transmission can be changed according to the battery usage status of the mobile terminal device 20 that performs proxy transmission, and the load due to transmission of the beacon signal can be distributed. In addition, it is possible to suppress a significant decrease in the remaining battery level of the mobile terminal device 20 that performs proxy transmission. Furthermore, even if a plurality of portable terminal devices 20 transmit beacon signals at close positions in the service providing area 100, a situation is finally created in which beacon signals are proxy-transmitted by any one of the portable terminal devices 20. It becomes possible.

  In the first embodiment, the case where the management server side determines whether the position of the mobile terminal device is within the service providing area has been described. In the second embodiment, a case where the position of the mobile terminal device is determined on the mobile terminal device side will be described. The overall configuration of the information processing system in the second embodiment is the same as that in FIG. Below, a different part from Example 1 is demonstrated.

[Variation of position determination in portable terminal device 20]
The functional configuration of the mobile terminal device 20 is the same as that in FIG. 2, but the function of the beacon transmission control unit 255 of the control unit 25 is different from that of the first embodiment. The beacon transmission control unit 255 further has a function of determining whether the mobile terminal device 20 exists in the service providing area 100 before performing proxy transmission of the beacon signal. That is, the beacon transmission control unit 255 does not transmit the position information acquired from the positioning unit 24 to the management server 50, and the position information acquired from the positioning unit 24 corresponds to the beacon signal that performs proxy transmission. It further has a function of determining whether or not it exists.

  In this case, when the beacon transmission control unit 255 receives a beacon signal that requires proxy transmission, the beacon transmission control unit 255 makes an inquiry to the management server 50 about the service providing area range corresponding to the beacon ID. The management server 50 acquires the service providing area range corresponding to the beacon ID from the area information 523 and transmits it to the beacon transmission control unit 255. Thereby, beacon transmission control part 255 acquires a service offer area range.

  Or you may incorporate the service provision area range into the application which implement | achieves the function of the beacon transmission control part 255 previously. In this case, the application execution unit 254 downloads a beacon transmission control application including a service providing area range corresponding to the beacon ID in the beacon signal from the management server 50 when receiving a beacon signal that requires proxy transmission. ,Run. Thereby, the function of the beacon transmission control unit 255 having the service providing area range can be realized.

[One aspect of effect]
As described above, before performing the proxy transmission of the beacon signal, the mobile terminal device 20 determines whether the position information of the mobile terminal device 20 at that time acquired from the positioning unit 24 is included in the service providing area range. Thereby, when a plurality of portable terminal devices 20 exist in the service providing area 100, the concentration of the position determination processing of each portable terminal device 20 in the management server 50 can be suppressed, and the load on the management server 50 can be suppressed. .

  In the first embodiment, a case has been described in which it is determined whether or not a mobile terminal device possessed by a user performs proxy transmission of a beacon signal. In the third embodiment, a case will be described in which a mobile terminal device that performs proxy transmission of a beacon signal is determined on the management server side based on position information transmitted from the mobile terminal device. The overall configuration of the information processing system in the third embodiment is the same as that shown in FIG. Below, a different part from Example 1 is demonstrated.

[Functional configuration of mobile terminal device 20]
FIG. 11 is a block diagram schematically illustrating an example of a functional configuration of the mobile terminal device according to the third embodiment. The mobile terminal device 20 further includes a reading unit 26. The reading unit 26 reads user position information in the service providing area 100 that is the first area. The user position information is position information for identifying a range that is a second area fixedly provided in the service providing area 100, and is an area ID. In the case of a stadium, the fixed range is a seat, and the area ID is a seat number. The area ID is a position information storage medium (hereinafter referred to as a tag) such as an RF (Radio Frequency) tag such as an NFC (Near Field Communication) tag, a bar code, or a QR (Quick Response) code (registered trademark). Is provided. When the user position information is provided by an NFC tag, the reading unit 26 is an NFC reader. When the user position information is provided by an RF tag, the reading unit 26 is an RFID (Radio Frequency IDentification) reader. When the user position information is provided in the form of a bar code or QR code, the reading unit 26 is a bar code reader or a QR code reader.

  When receiving the user position reading request, the user brings the mobile terminal device 20 close to the tag, causes the reading unit 26 of the mobile terminal device 20 to read the position information, and transmits the user position information to the management server 50. When the tag is an NFC tag or an RF tag, it is only necessary to bring the reading unit 26 of the mobile terminal device 20 close to the tag. When the tag is a bar code or a QR code, the mobile terminal device 20 may be arranged so that the reading unit 26 of the mobile terminal device 20 faces the tag.

  Here, the case where the user position information is read by the reading unit 26 is taken as an example, but the seating chart in the service providing area 100 is displayed on the display unit 22 and the seat where the user is located is input from the seating chart. You may select by the part 23. In this case, the selected seat is transmitted to the management server 50 as user position information.

  Note that, in FIG. 11, the same reference numerals are given to functional units that perform the same functions as the functional units illustrated in FIG. 2, and descriptions thereof are omitted. However, when the beacon transmission control unit 255 is activated by the application execution unit 254, the beacon transmission control unit 255 acquires the user position information from the reading unit 26 and notifies the management server 50 of the user position information. In addition, when the beacon transmission control unit 255 is instructed to perform proxy transmission of a beacon signal from the management server 50, the beacon transmission control unit 255 gives an instruction for proxy transmission to the beacon communication unit 211.

  The beacon transmission control unit 255 has the same function as that of the second embodiment. That is, the beacon transmission control unit 255 has a function of determining whether the mobile terminal device 20 exists in the service providing area 100.

  Further, when detecting the movement of the mobile terminal device 20, the beacon transmission control unit 255 transmits a service provision area leaving notification to the management server 50. The movement of the mobile terminal device 20 is detected by, for example, a gyro sensor or an acceleration sensor mounted as the positioning unit 24. In the case of outdoors, the movement of the mobile terminal device 20 can be detected using, for example, GPS. Further, when a wireless LAN access point is provided in the service providing area 100, the access point to which the mobile terminal device 20 is connected and the strength of the wireless signal from the access point are measured at a predetermined cycle. By doing so, the movement of the mobile terminal device 20 can be detected.

[Functional configuration of management server 50]
FIG. 12 is a block diagram schematically illustrating an example of a functional configuration of the management server according to the third embodiment. The configurations of the storage unit 52 and the control unit 53 of the management server 50 are different from those of the first embodiment. That is, as illustrated in FIG. 12, the storage unit 52 further stores terminal information 524. The terminal information 524 is information indicating whether or not the mobile terminal device 20 exists in an area (position) provided in the service providing area 100.

  FIG. 13 is a diagram illustrating an example of terminal information. The terminal information 524 is information that associates an area ID that is a position ID for identifying an area provided in the service providing area 100 with a terminal ID that identifies the mobile terminal device 20 existing in the area ID. In the case of a stadium, the area ID is a seat number. The terminal information 524 is managed in an arbitrary format such as a database format, a CSV format, or an XML format.

  The area information 523 in the storage unit 52 is different from that in the first embodiment. FIG. 14 is a diagram illustrating an example of area information, FIG. 15-1 is a diagram illustrating an example of a service providing area, and FIG. 15-2 is an enlarged partial sub-area in the service providing area. FIG. As illustrated in FIG. 15A, the service providing area 100 is an area where seats (spectator seats) of the stadium 105 are provided. Usually, the signal reachable range of the transmitter 10 is smaller than the size of the stadium 105. Therefore, even if the transmitter 10 is provided at the entrance to the seat, it may be difficult to make the beacon signal reach all the service providing areas 100. Therefore, as illustrated in FIG. 15A, the service providing area 100 is divided into a plurality of subareas 106. The sub area 106 is set so that each seat belongs to at least one of the sub areas 106. The sub-area 106 is a circular area whose radius is the reach distance of the beacon signal.

  When such a subarea 106 is set, if a beacon signal is transmitted near the center of the subarea 106, the beacon signal can be received by all seats in the subarea 106. For this reason, it is desirable to transmit a beacon signal to the portable terminal device 20 possessed by the user sitting in the seat near the center of the subarea 106.

  The area information 523 according to the third embodiment includes a sub area ID, a transmission state, a transmission source area ID, a terminal ID, a belonging area ID, an area ID priority, and a transmission period. The sub area ID is identification information for identifying the sub area 106 provided in the service providing area 100. The transmission state indicates a state of proxy transmission of a beacon signal from within the subarea 106 specified by the subarea ID. For example, when the transmission state is “On”, the proxy transmission is performed. When the transmission state is “Off”, the proxy transmission is not performed.

  The transmission source area ID indicates an area where the mobile terminal device 20 performing proxy transmission of the beacon signal in the subarea 106 specified by the subarea ID, that is, the transmission source position of the beacon signal. The terminal ID is identification information that identifies the mobile terminal device 20 that performs proxy transmission of a beacon signal in the subarea 106 specified by the subarea ID. The terminal ID is information that can uniquely identify the mobile terminal device 20, but since the management server 50 communicates with the mobile terminal device 20, a MAC (Media Access Control) address, an IP (Internet Protocol) address, etc. The network address is desirable. The affiliation area ID is an area ID included in the subarea 106 specified by the subarea ID. That is, the information defines the range of the sub area 106.

  The area ID priority is priority information indicating the priority of an area where proxy transmission of a beacon signal is performed in the subarea 106 specified by the subarea ID. The priority will be described with reference to FIG. Since the seat located at the center 106c of each sub-area 106 in the service providing area 100 is most desirable as a proxy transmission position for the beacon signal as described above, it is assumed to be the first rank seat 107-1. Further, since the seats adjacent to the front, rear, left and right of the first rank seat 107-1 are desirable next as the positions for transmitting the beacon signal by proxy, they are designated as the second rank seat 107-2. Furthermore, the seat adjacent to the first rank seat 107-1 in the oblique direction is next preferred as the position to transmit the beacon signal as a proxy, and is therefore designated as the third rank seat 107-3. In this way, the definition is made up to the n-th rank seat 107-n (n is a natural number). An area ID priority is obtained by sequentially arranging the area IDs from the first rank seat 107-1 to the nth rank seat 107-n. The transmission period is information that specifies a period for transmitting a beacon signal.

  As illustrated in FIG. 12, the control unit 53 further includes a terminal management unit 534, a determination unit 535, and an instruction unit 536. The terminal management unit 534 is a management unit that manages the terminal information 524. Specifically, when the terminal management unit 534 receives information indicating that the mobile terminal device 20 has arrived in the area or that the mobile terminal device 20 has left the area, the terminal management unit 534 receives the information corresponding to the terminal information 524. The terminal ID is registered or deleted.

  The determination unit 535 recognizes the presence status of the mobile terminal device 20 in each area from the terminal information 524 for each subarea 106, and according to the area ID priority of the area information 523, the highest priority among the occupied areas. Mobile terminal device 20 existing in a high area is determined.

  The determination unit 535 may consider the remaining battery level of each mobile terminal device 20 or the number of beacon signal transmissions when selecting the mobile terminal device 20 that performs proxy transmission. As an embodiment, the remaining battery level of the mobile terminal device 20 in the (i + 1) -th order seat is compared with the remaining battery level of the mobile terminal device 20 in the i-th rank seat (i is a natural number between 1 and n). If there are many, the proxy transmission may be determined to the mobile terminal device 20 of the (i + 1) th rank seat.

  As another embodiment, when the number of beacon signals transmitted from the mobile terminal device 20 in the i + 1 th seat is smaller than the number of beacon signals transmitted from the mobile terminal device 20 in the i th seat, the proxy You may determine transmission to the portable terminal device 20 of an i + 1 rank seat. Alternatively, when the remaining battery level of the mobile terminal device 20 in the i-th rank seat is smaller than a predetermined value, the mobile terminal device 20 in the i + 1-th rank seat may be determined as the mobile terminal device 20 performing proxy transmission. The method of determining the mobile terminal device 20 that performs proxy transmission shown here is an example, and the mobile terminal that performs proxy transmission with a change in priority by an arbitrary method using the remaining battery level or the number of beacon signals transmitted A determination of the device 20 can be made.

  The instruction unit 536 transmits, via the communication unit 51, the mobile terminal device 20 via the communication unit 51, based on the determination result of the determination unit 535, the start, end of beacon signal transmission, or an instruction regarding not performing proxy transmission. .

  In FIG. 12, the same reference numerals are given to functional units that perform the same functions as the functional units illustrated in FIG. 4, and descriptions thereof are omitted.

[Process flow]
FIG. 16 is a sequence diagram illustrating an example of a processing procedure when starting beacon signal proxy transmission in the information processing system according to the third embodiment. Here, the flow of processing among the transmitter 10, the portable terminal device 20, and the management server 50 will be described. In addition, here, the user who has the mobile terminal device 20 enters the service providing area 100 by passing near the place where the transmitter 10 is installed, and moves from the inside of the signal reachable range 101 to the outside position. A case will be described as an example.

  Similar to SQ11 to SQ17 in FIG. 8, when receiving the beacon signal from the transmitter 10, the application execution unit 254 of the mobile terminal device 20 communicates with the management server 50 and follows a response from the management server 50. Then, the beacon transmission control unit 255 is activated (SQ71 to SQ77).

  Next, the beacon transmission control unit 255 issues a tag reading request to the reading unit 26 (SQ78). The reading unit 26 reads the area ID from the tag attached to the area, and sends the tag read response including the area ID to the beacon transmission control unit 255 (SQ79). Thereafter, the beacon transmission control unit 255 transmits a position information notification including the area ID and the remaining battery level acquired from the battery management unit 253 to the management server 50 (SQ80).

  When receiving the position information notification, the terminal management unit 534 of the management server 50 stores the terminal ID of the mobile terminal device 20 that transmitted the position information in the terminal information 524 in association with the area ID. As the terminal ID, for example, a network address such as a source MAC address or a source IP address included in the location information notification can be used.

  In addition, the determination unit 535 of the management server 50 includes the area that has received the position information notification among the area IDs that are in the same subarea as the area ID that has received the position information notification and are occupied by the mobile terminal device 20. It is determined whether the priority of ID is the highest. Specifically, the area management unit 533 of the management server 50 acquires from the area information 523 an area ID that belongs to the same sub-area as the area ID that received the position information notification, and the area ID that received the position information notification belongs. The area ID priority of the sub area ID is acquired from the area information 523. In addition, the terminal management unit 534 acquires the area ID having the same subarea ID and the terminal ID registered from the terminal information 524. Then, the determination unit 535 extracts the area ID having the highest area ID priority from the area IDs registered with the terminal ID, and the priority of the area ID that has received the position information notification is the highest priority. It is determined whether it is higher than a high area ID.

  That is, the determination unit 535 of the management server 50 determines whether or not the portable terminal device 20 that has transmitted the position information notification is the portable terminal device 20 that performs proxy transmission of the beacon signal (SQ81). Here, it is assumed that the mobile terminal device 20 that has transmitted the location information notification is determined to perform proxy transmission of a beacon signal.

  When the mobile terminal device 20 that performs proxy transmission is determined, the instruction unit 536 of the management server 50 transmits a position information response including the beacon ID and the beacon signal transmission cycle to the mobile terminal device 20 (SQ82). . Next, the beacon transmission control unit 255 of the mobile terminal device 20 transmits a beacon transmission request to the beacon communication unit 211 (SQ83).

  When receiving the beacon transmission request, beacon communication section 211 starts transmitting a beacon signal (SQ84). The beacon signal includes a beacon ID in the beacon transmission request. Thereafter, a beacon signal is transmitted in a cycle designated by the mobile terminal device 20 in a preset subarea 106 in the service providing area 100. The process at the time of starting the beacon signal proxy transmission is thus completed.

  FIG. 17 is a sequence diagram illustrating an example of a processing procedure at the end of proxy transmission of a beacon signal in the information processing system according to the third embodiment. Here, it is assumed that the user of the mobile terminal device 20 performing proxy transmission of a beacon signal exists in the service providing area 100.

  The beacon communication unit 211 of the mobile terminal device 20 transmits a beacon signal at a predetermined cycle (SQ91). Further, the beacon transmission control unit 255 transmits a position information request to the positioning unit 24 at a predetermined cycle (SQ92). When receiving the position information request, the positioning unit 24 acquires the position information of the mobile terminal device 20, and returns a position information response to the beacon transmission control unit 255 (SQ93). When the beacon transmission control unit 255 receives the position information response, the beacon transmission control unit 255 determines whether the mobile terminal device 20 exists in the sub-area 106 (SQ94). This determination is performed, for example, by the method described in the second embodiment. Here, it is assumed that it is determined that the mobile terminal device 20 exists outside the subarea 106.

  If it is determined that the mobile terminal device 20 exists outside the sub-area 106, the beacon transmission control unit 255 transmits a service provision area leaving notification indicating that the service providing area 100 has been left to the management server 50 (SQ95). . When receiving the service provision area leaving notification, the terminal management unit 534 of the management server 50 deletes the terminal ID of the portable terminal device 20 associated with the area ID from the terminal information 524. Further, the determination unit 535 of the management server 50 selects the terminal ID corresponding to the area ID having the highest priority among the sub-areas 106 whose terminal IDs are registered in the area ID (SQ96). Then, the area management unit 533 rewrites the transmission source area ID and terminal ID of the corresponding sub-area ID of the area information 523 with the information of the newly selected mobile terminal device 20.

  When selection of the mobile terminal device 20 that performs a new proxy transmission is completed, the instruction unit 536 of the management server 50 returns a service provision area leaving response to the mobile terminal device 20 that has transmitted the service provision area leaving notification (SQ97). When receiving the service provision area leaving response, beacon transmission control section 255 of portable terminal device 20 transmits a beacon transmission end request to beacon communication section 211 (SQ98). And the beacon communication part 211 complete | finishes transmission of a beacon signal.

  In addition, although the service provision area leaving response is returned to the portable terminal device 20 that has transmitted the service provision area leaving notification in SQ97, a notification instructing proxy transmission of a beacon signal to the newly selected portable terminal device 20 is also performed in SQ96. Sending. Thus, the process at the end of the beacon signal proxy transmission ends.

  FIG. 17 shows a case where the service provision area leaving notification is transmitted from the mobile terminal device 20 to the management server 50, but this is an example. For example, when it is detected that the mobile terminal device 20 has moved from the area, or when it is detected that the remaining battery level of the mobile terminal device 20 is less than a predetermined amount, the same processing may be performed. When it is detected that the mobile terminal device 20 has moved from the area, a terminal movement notification is transmitted to the mobile terminal device 20 instead of the service provision area leaving notification. Further, when the remaining battery level of the mobile terminal device 20 becomes less than a predetermined amount, a notification of battery remaining amount reduction is transmitted to the mobile terminal device 20 instead of the service provision area leaving notification.

  Next, details of the beacon transmission control process in the management server 50 will be described. FIG. 18 is a flowchart illustrating an example of a procedure of a beacon transmission control process in the management server according to the third embodiment.

  First, the terminal management unit 534 of the management server 50 determines whether a location information notification including an area ID has been received from the mobile terminal device 20 (step S31). When the location information notification is received (step S31 Yes), the terminal management unit 534 stores the location information notification transmission source terminal ID in association with the area ID in the terminal information 524 (step S32). . Next, the area management unit 533 identifies the sub area ID corresponding to the area ID from the area information 523 (step S33). Thereafter, the area management unit 533 refers to the area information 523 to determine whether or not the transmission state of the identified sub area ID is off (step S34).

  If the transmission state of the sub-area ID is off (step S34 Yes), the determination unit 535 determines whether the remaining battery level of the mobile terminal device 20 is greater than a predetermined amount (step S35). The battery remaining amount is included in the position information notification transmitted from the mobile terminal device 20. Further, the predetermined amount is determined on the assumption that there is a remaining battery capacity that allows the mobile terminal device 20 to perform various processes even after transmitting the beacon signal in the service providing area 100. .

  If the remaining battery level is not greater than the predetermined amount (No in step S35), the instruction unit 536 transmits a position information response including content that does not start transmission of the beacon signal to the mobile terminal device 20 via the communication unit 51. (Step S36), and the process ends.

  When the battery remaining amount is greater than the predetermined amount (step S35 Yes), the determination unit 535 selects the mobile terminal device 20 that has transmitted the position information notification as the mobile terminal device 20 that performs proxy transmission of the beacon signal (step S37). . And the instruction | indication part 536 transmits the response with respect to the positional information notification including the content which starts transmission of a beacon signal to the portable terminal device 20 via the communication part 51 (step S38), and a process is complete | finished.

  If the sub-area ID transmission state is not off in step S34, that is, if the sub-area ID transmission state is on (No in step S34), the determination unit 535 determines that the remaining battery level of the mobile terminal device 20 is low. It is determined whether the amount is larger than the predetermined amount (step S39). When the remaining battery amount is greater than the predetermined amount (step S39 Yes), the determination unit 535 determines whether the priority of the area ID of the mobile terminal device 20 that has transmitted the position information notification is the beacon signal transmitted at that time. It is determined whether it is higher than the priority of the area ID of the terminal device 20 (step S40). This determination is performed by acquiring the source area ID and the area ID priority from the area information 523.

  If the area ID priority of the mobile terminal device 20 that transmitted the location information notification is higher than the area ID of the mobile terminal device 20 that is transmitting the beacon signal at that time (Yes in step S40), the process proceeds to step S37. And the process moves. Further, when the area ID priority of the mobile terminal device 20 that transmitted the position information notification is lower than the area ID of the mobile terminal device 20 that is transmitting the beacon signal at that time (step S40 No), or step S39 If the remaining battery level is not greater than the predetermined amount (No at step S39), the process proceeds to step S36. In steps S35 and S39, when the remaining battery level is the same as the predetermined amount, either process may be executed.

  When the position information notification is not received in step S31 (No in step S31), the determination unit 535 determines whether or not the battery remaining amount decrease notification is received from the mobile terminal device 20 (step S41). When the battery remaining amount decrease notification has not been received (No at Step S41), the determination unit 535 determines whether a terminal movement notification has been received (Step S42). If the terminal movement notification has not been received (No at step S42), the process returns to step S31.

  When the terminal movement notification is received (step S42 Yes) or when the battery remaining amount decrease notification is received at step S41 (step S41 Yes), the determination unit 535 assigns the area ID priority to the same subarea 106. It is determined whether there is another mobile terminal device 20 having a high (step S43). Specifically, the determination unit 535 refers to the area ID priority of the area information 523, and the mobile terminal device 20 in the same subarea 106 that has a higher priority than the mobile terminal device 20 has the terminal information It is determined whether it exists in 524.

  When there is another mobile terminal device 20 with a high area ID priority in the same sub-area 106 (step S43 Yes), the determination unit 535 selects the area ID priority from other mobile terminal devices 20 with a high area ID priority. Another portable terminal device 20 having the highest degree is selected (step S44). At this time, basically, the mobile terminal device 20 having the highest area ID priority is selected from the other mobile terminal devices 20 having the high area ID priority. In addition, by carrying out proxy transmission of a beacon signal in the past and storing the portable terminal device 20 that has notified the decrease in the remaining battery level, such a portable terminal device 20 is excluded from selection. Also good. Next, the instruction unit 536 transmits a request for starting transmission of a beacon signal to the other selected mobile terminal device 20 (step S45).

  After that, or when there is no other mobile terminal device 20 with a high area ID priority in the same sub-area 106 in step S43 (No in step S43), the instruction unit 536 transmits the battery remaining amount reduction notification or the terminal movement notification transmission source. A request to stop the transmission of the beacon signal is transmitted to the mobile terminal device 20 (step S46), and the process ends. The above is the outline of the selection process of the mobile terminal device 20 that performs proxy transmission of the beacon signal in the management server 50.

  Note that the reach distance of the beacon signal may vary depending on the degree of congestion of people in the service providing area 100 (the number of visitors to the service providing area 100). The higher the degree of congestion, the shorter the reach of the beacon signal. In such a case, a plurality of area information 523 may be defined according to the degree of congestion, and may be used properly according to the degree of congestion. For example, area information 523 in which the size of one subarea 106 is reduced and the number of subareas 106 provided in one service providing area 100 is increased as the degree of congestion increases. Then, the terminal management unit 534 calculates the degree of congestion using the degree of occupation of the area ID in the terminal information 524, and selects area information to be used.

[One aspect of effect]
As described above, the mobile terminal device 20 according to the present embodiment transmits information on the area in the service providing area 100 to the management server 50. In addition, when the management server 50 according to the present embodiment receives the area information, the management server 50 determines whether or not the area ID exists in the sub-area 106 to which the area belongs and has the highest area ID priority. The management server 50 instructs the mobile terminal device 20 to perform proxy transmission of a beacon signal when the area ID priority is the highest. As a result, it is possible to cause the mobile terminal device 20 present at an optimal position in the subarea 106 to execute proxy transmission of a beacon signal. As a result, normally, in order to make the beacon signal reach the mobile terminal device 20 in the service providing area 100, at least as many transmitters 10 as the number of subareas in the service providing area 100 must be installed. According to the example, the number of transmitters 10 installed can be reduced. In addition, since the mobile terminal device 20 that performs proxy transmission is determined on the management server 50 side, a plurality of mobile terminal devices 20 that exist at a distance where beacon signals interfere with each other within one subarea 106 are used as proxy signals. It is possible to suppress the situation of transmission.

  Further, when determining the mobile terminal device 20 that performs proxy transmission of the beacon signal, even if the area ID priority is high, the mobile terminal device with a low battery remaining amount is taken into consideration by considering the battery remaining amount of the mobile terminal device 20 It can suppress that 20 is selected as the portable terminal device 20 which performs proxy transmission. As a result, a situation in which the user cannot use the mobile terminal device 20 because the remaining battery level is too low after going out of the service providing area 100 due to unintended power consumption in the service providing area 100. Can be suppressed.

  In addition, a plurality of pieces of area information are provided according to the degree of congestion of people in the service providing area 100. That is, as the degree of congestion is higher, the size of the sub-area 106 is reduced and the number of sub-areas 106 provided in the service providing area 100 is increased. Accordingly, it is possible to cope with a case where the signal reachable range of the beacon signal from the mobile terminal device 20 becomes small due to congestion.

  In the above embodiment, a beacon signal using Bluetooth is used, but a beacon signal of a wireless LAN can also be used. In a wireless LAN, a transmitter 10 as an access point transmits a Wi-Fi (Wireless Fidelity) beacon signal at a predetermined cycle. The Wi-Fi beacon signal includes an SSID (Service Set IDentifier) or BSSID (Basic SSID) that identifies the transmitter 10. By using SSID or BSSID as a beacon ID, it is possible to realize the same processing as a beacon signal using Bluetooth. In this case, the beacon communication unit 211 is realized by a wireless LAN chip.

  Below, the modification of an above-mentioned Example is demonstrated.

  In the above-described embodiment, the case where the beacon communication unit 211 of the mobile terminal device 20 transmits and receives one type of beacon signal, a beacon signal using Bluetooth, or a Wi-Fi beacon signal has been described. However, the beacon communication unit 211 may be configured to transmit beacon signals according to two or more types of wireless communication standards. For example, the beacon communication unit 211 has a function of transmitting / receiving a beacon signal using Bluetooth and a function of transmitting / receiving a beacon signal using a wireless LAN. In this case, the beacon communication unit 211 is realized by a BLE chip and a wireless LAN chip.

  As in the first and second embodiments, when the position information of the mobile terminal device 20 cannot be used, that is, when the mobile terminal device 20 determines whether or not the proxy transmission can be performed, the beacon transmission of the mobile terminal device 20 is performed. The control unit 255 selects a wireless communication method to be used according to the signal reception state. As the radio state of the signal, for example, a received signal strength indication (RSSI) at a distance of 1 m can be used. As an embodiment, the beacon transmission control unit 255 can select a wireless communication method with a low signal reception frequency. For example, when a large number of Bluetooth beacon signals are received but reception of a wireless LAN beacon signal is low, a wireless LAN beacon signal is transmitted. As a result, the wireless communication medium to be used is made uniform within the service providing area 100.

  Further, as in the third embodiment, when the position information of the mobile terminal device 20 can be used, that is, when the management server 50 side determines whether or not the proxy transmission can be performed, the determination unit 535 of the management server 50 Select the wireless communication method to be used.

  Furthermore, the components of the management server 50 shown in FIGS. 4 and 12 do not necessarily have to be physically configured as illustrated. That is, the specific form of distribution / integration of the management server 50 is not limited to the one shown in the figure, and all or a part thereof is functionally or physically distributed in arbitrary units according to various loads or usage conditions. -Can be integrated and configured.

  The various processes described in the above embodiments can be realized by executing a program prepared in advance on a computer such as a smartphone, a tablet terminal, a personal computer, or a workstation. Therefore, in the following, an example of a computer that executes an information processing program having the same function as in the above embodiment will be described.

  FIG. 19 is a diagram illustrating a hardware configuration of a computer that executes the information processing program according to the first to fourth embodiments. As illustrated in FIG. 19, the computer 500 includes an operation unit 510, a display 520, a communication unit 530, a CPU 540, a ROM 550, an HDD 560, and a RAM 570. The operation unit 510, the display 520, the communication unit 530, the CPU 540, the ROM 550, the HDD 560, and the RAM 570 are connected via a bus 580. Instead of the HDD 560, an SSD may be used.

  The HDD 560 has the same functions as those of the input / output control unit 251, timer management unit 252, battery management unit 253, application execution unit 254, and beacon transmission control unit 255 of the mobile terminal device 20 described in the first to fourth embodiments. An information processing program that exhibits the same functions as the application management unit 531, application distribution control unit 532, area management unit 533, terminal management unit 534, determination unit 535, and instruction unit 536 of the management server 50 Remembered. The information processing program includes an input / output control unit 251, a timer management unit 252, a battery management unit 253, an application execution unit 254, and a beacon transmission control unit of the mobile terminal device 20 illustrated in FIG. 2, FIG. 4, FIG. As with each component of 255, or with each component of the application management unit 531, application distribution control unit 532, area management unit 533, terminal management unit 534, determination unit 535, and instruction unit 536 of the management server 50, they are integrated or separated. It doesn't matter. In other words, the HDD 560 does not necessarily store all the data shown in the first to fourth embodiments, and the HDD 560 only needs to store data used for processing.

  Under such an environment, the CPU 540 reads the information processing program from the HDD 560 and loads it into the RAM 570. As a result, the information processing program functions as an information processing process. This information processing process loads various data read from the HDD 560 into an area allocated to the information processing process in the storage area of the RAM 570, and executes various processes using the loaded various data. For example, as an example of processing executed by the information processing process, the processing illustrated in FIGS. 8 to 10 or FIGS. 16 to 18 and the like are included. In the CPU 540, all the processing units described in the first to fourth embodiments do not necessarily have to operate, and a processing unit corresponding to a process to be executed may be virtually realized.

  The information processing program does not necessarily have to be stored in the HDD 560 or the ROM 550 from the beginning. For example, “portable physics such as a flexible disk inserted into the computer 500, so-called FD, CD (Compact Disc) -ROM, DVD (Digital Versatile Disc or Digital Video Disc), magneto-optical disk, IC (Integrated Circuit) card, etc. The information processing program is stored in the “medium”. Then, the computer 500 may acquire and execute an information processing program from these portable physical media. Further, an information processing program is stored in another computer or a server device connected to the computer 500 via a public line, the Internet, a LAN, a WAN, etc., and the computer 500 acquires the information processing program from these and executes it. You may make it do.

  The following supplementary notes are further disclosed with respect to the embodiments including the above examples.

(Appendix 1) A communication unit that performs communication of a beacon signal;
A control unit that causes the communication unit to start transmitting the beacon signal when a predetermined condition is satisfied after receiving a beacon signal associated with a predetermined area;
A portable terminal device comprising:

(Additional remark 2) The said control part makes the said communication part complete | finish transmission of the said beacon signal, when the time which received the said beacon signal is outside the transmission period of the said beacon signal which provides a service in the said predetermined area The mobile terminal device according to Supplementary Note 1, wherein

(Additional remark 3) It further has a positioning part which measures the position of the said portable terminal device,
The mobile unit according to appendix 1, wherein the control unit causes the communication unit to end the transmission of the beacon signal when the position of the mobile terminal device acquired from the positioning unit is not within the predetermined area. Terminal device.

(Additional remark 4) The said communication part detects reception of the other beacon signal from the other portable terminal device in the said predetermined area after transmission of the said beacon signal,
The mobile terminal device according to any one of appendices 1 to 3, wherein the control unit causes the communication unit to continue transmitting the beacon signal when reception of the other beacon signal is not detected. .

(Additional remark 5) When the reception of the other beacon signal is detected, the control unit, when the remaining battery level of the mobile terminal device is less than the remaining battery level included in the other beacon signal, The mobile terminal device according to appendix 4, wherein the communication unit terminates transmission of the beacon signal.

(Supplementary Note 6) When the reception of the other beacon signal is detected, the control unit transmits the other beacon signal in which the number of transmissions of the beacon signal of the mobile terminal device is included in the other beacon signal. The mobile terminal device according to appendix 4, wherein the communication unit terminates transmission of the beacon signal when the number is greater than the number of times.

(Supplementary note 7) When reception of another beacon signal from another mobile terminal device in the predetermined area is detected in a state where the control unit is not transmitting the beacon signal, the control unit The mobile terminal device according to appendix 1, wherein when the remaining battery level is greater than the remaining battery level included in the other beacon signal, the communication unit is caused to start transmitting the beacon signal.

(Supplementary Note 8) When the control unit detects reception of another beacon signal from another mobile terminal device in the predetermined area in a state where the beacon signal is not transmitted, the control unit The supplementary note 1, wherein the communication unit is caused to start transmitting the beacon signal when the number of times the beacon signal is transmitted is smaller than the number of times the other beacon signal is included in the other beacon signal. Mobile terminal device.

(Supplementary note 9) The mobile terminal device according to any one of supplementary notes 1 to 8, wherein the control unit further has a function of transitioning an application state in response to reception of the beacon signal.

(Supplementary note 10) The mobile terminal device according to any one of Supplementary notes 1 to 9, wherein the beacon signal is a beacon signal using Bluetooth or a beacon signal using a wireless LAN of IEEE 802.11. .

(Additional remark 11) The portable terminal device which notifies the 2nd area contained in the 1st area,
A storage unit for storing priority information in which priority for transmission of a beacon signal is associated with each second area;
When the second area is notified from the mobile terminal device, the priority of the second area is referred to by the second area of the mobile terminal device with reference to the priority information stored in the storage unit. A determination unit for determining whether the priority is higher than the priority of the second area previously notified from another mobile terminal device;
When the priority of the second area notified from the mobile terminal device is higher than the priority of the second area notified from the other mobile terminal device, transmission of a beacon signal associated with the first area An instruction unit for instructing the mobile terminal device to start;
An information processing system comprising:

(Additional remark 12) When the said 2nd area is notified, the management part which manages the terminal identification information which identifies the said portable terminal device which notified the said 2nd area in association with the said 2nd area in terminal information. In addition,
The storage unit
Terminal information associating the second area with the terminal identification information;
Area information including the transmission state of the beacon signal in the first area, the transmission source area indicating the second area of the transmission source of the beacon signal, and the priority information,
Remember
When the transmission state in the priority information is a state in which the beacon signal is not transmitted, the instruction unit starts transmission of the beacon signal to the mobile terminal device located in the second area. The information processing system according to attachment 11, wherein the information processing system is instructed.

(Additional remark 13) The said instruction | indication part is the state which is transmitting the said beacon signal in the said priority information, and when the other 2nd area is registered into the said transmission source area, When the priority of the second area notified from the mobile terminal device is higher than the priority of the other second area, the mobile terminal device is instructed to start transmitting the beacon signal,
13. The information processing system according to appendix 12, wherein the management unit changes the transmission source area in the area information to the second area notified from the mobile terminal device.

(Additional remark 14) The said instruction | indication part is the state which is transmitting the said beacon signal in the said priority information, and when the other 2nd area is registered into the said transmission source area, Instructing the portable terminal device not to transmit the beacon signal when the priority of the second area notified from the portable terminal device is lower than the priority of the other second area. The information processing system according to appendix 12, which is characterized.

(Additional remark 15) The said determination part further determines whether the battery remaining amount of the said portable terminal device which notified the said 2nd area is smaller than predetermined amount,
The instructing unit instructs the portable terminal device not to transmit the beacon signal when the remaining battery level of the portable terminal device that has notified the second area is smaller than a predetermined amount. The information processing system according to appendix 12.

(Additional remark 16) When the battery remaining amount of the said portable terminal device which exists in the said 2nd area notified from the said portable terminal device is larger than predetermined amount, the said instruction | indication part is said beacon signal to the said portable terminal device. 16. The information processing system according to appendix 15, characterized in that the transmission of the information is instructed.

(Supplementary Note 17) When the instruction unit receives a notification indicating that the remaining battery level has decreased below a predetermined amount, moved from the second area, or removed from the first area, 13. The information processing system according to appendix 12, wherein the portable terminal device that is a notification transmission source is instructed to stop transmission of the beacon signal.

(Supplementary Note 18) The first area is divided into a plurality of sub-areas,
Any one of appendices 12 to 17, wherein the area information includes a transmission state of the beacon signal for each subarea, the transmission area, and the priority of the second area included in the subarea. The information processing system according to one.

(Supplementary Note 19) When the predetermined condition is satisfied after the beacon signal is acquired through the communication unit that performs communication of the beacon signal associated with the predetermined area, the communication unit is transmitted with the beacon signal. To start,
An information processing method in which processing is executed by a computer.

(Supplementary note 20) When the predetermined condition is satisfied after the beacon signal is acquired through the communication unit that performs communication of the beacon signal associated with the predetermined area, the communication unit is configured to transmit the beacon signal. To start,
An information processing program that causes a computer to execute processing.

DESCRIPTION OF SYMBOLS 10 Transmitter 20 Portable terminal device 21,51 Communication part 22 Display part 23 Input part 24 Positioning part 25,53 Control part 26 Reading part 50 Management server 52 Storage part 70 Network 100 Service provision area 101 Signal reachable range 211 Beacon communication part 212 Wireless communication unit 251 Input / output control unit 252 Timer management unit 253 Battery management unit 254, 535 Application execution unit 255 Beacon transmission control unit 521 Application information 522 Rule information 523 Area information 524 Terminal information 531 Application management unit 532 Application distribution control unit 533 Area Management unit 534 Terminal management unit

Claims (11)

A communication unit for communicating beacon signals;
A control unit that causes the communication unit to start transmitting the beacon signal when a predetermined condition is satisfied after receiving a beacon signal associated with a predetermined area;
A portable terminal device comprising:   The control unit causes the communication unit to end the transmission of the beacon signal when the time when the beacon signal is received is outside the transmission period of the beacon signal providing service in the predetermined area. The portable terminal device according to claim 1. A positioning unit that measures the position of the mobile terminal device;
The said control part makes the said communication part complete | finish transmission of the said beacon signal, when the position of the said portable terminal device acquired from the said positioning part is not in the said predetermined area. Mobile terminal device. The communication unit performs detection of reception of other beacon signals from other mobile terminal devices in the predetermined area after transmission of the beacon signal,
The portable terminal according to any one of claims 1 to 3, wherein the control unit causes the communication unit to continue transmitting the beacon signal when reception of the other beacon signal is not detected. apparatus.   When the reception of the other beacon signal is detected and the remaining battery level of the mobile terminal device is less than the remaining battery level included in the other beacon signal, the control unit The mobile terminal device according to claim 4, wherein transmission of the beacon signal is terminated.   When the reception of the other beacon signal is detected, the control unit has the number of transmissions of the beacon signal of the portable terminal device larger than the number of transmissions of the other beacon signal included in the other beacon signal. In this case, the mobile terminal device according to claim 4, wherein the communication unit terminates transmission of the beacon signal. A mobile terminal device for notifying the second area included in the first area;
A storage unit for storing priority information in which priority for transmission of a beacon signal is associated with each second area;
When the second area is notified from the mobile terminal device, the priority of the second area is referred to by the second area of the mobile terminal device with reference to the priority information stored in the storage unit. A determination unit for determining whether the priority is higher than the priority of the second area previously notified from another mobile terminal device;
When the priority of the second area notified from the mobile terminal device is higher than the priority of the second area notified from the other mobile terminal device, transmission of a beacon signal associated with the first area An instruction unit for instructing the mobile terminal device to start;
An information processing system comprising: When the second area is notified, the information processing apparatus further includes a management unit that manages terminal identification information for identifying the mobile terminal device that has notified the second area in association with the second area in the terminal information,
The storage unit
Terminal information associating the second area with the terminal identification information;
Area information including the transmission state of the beacon signal in the first area, the transmission source area indicating the second area of the transmission source of the beacon signal, and the priority information,
Remember
When the transmission state in the priority information is a state in which the beacon signal is not transmitted, the instruction unit starts transmission of the beacon signal to the mobile terminal device located in the second area. The information processing system according to claim 7, wherein an instruction is given. The first area is divided into a plurality of sub-areas,
The information processing according to claim 8, wherein the area information includes a transmission state of the beacon signal for each subarea, a priority of the second area included in the transmission source area and the subarea. system. When the predetermined condition is satisfied after the beacon signal is acquired via the communication unit that performs communication of the beacon signal associated with the predetermined area, the communication unit starts transmission of the beacon signal.
An information processing method in which processing is executed by a computer. When the predetermined condition is satisfied after the beacon signal is acquired via the communication unit that performs communication of the beacon signal associated with the predetermined area, the communication unit starts transmission of the beacon signal.
An information processing program that causes a computer to execute processing.

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