JP6485233B2 - Wireless terminal apparatus, information processing apparatus, position information report program, and position information report method - Google Patents

Description

  The present invention relates to a wireless terminal device, an information processing device, a location information report program, and a location information report method.

  In recent years, wireless terminal devices incorporating GPS (Global Positioning System) modules and the like have been carried by monitoring subjects (children and elderly people) in order to prevent elderly people from being kidnapped or demented. is there. The GPS module of such a wireless terminal device acquires position information at a predetermined cycle, for example, and reports the position information of the monitoring subject to a predetermined server device. For example, the guardian of the monitoring target person can obtain the position information of the monitoring target person by accessing the server device.

  The position information acquired by the wireless terminal device is transmitted to the server device using public wireless communication such as a mobile communication network or a public wireless LAN (Local Area Network). For this reason, it is possible to report the position information of the monitoring subject to the server device in a relatively wide area, and the guardian can track the exact location of the monitoring subject.

Japanese translation of PCT publication No. 2003-529083 JP 2004-80540 A JP 2002-101444 A

  However, since the power consumed by public wireless communication is relatively large, there is a problem that the continuous operation time of the wireless terminal device carried by the monitoring subject is short. That is, the power consumed to transmit the position information by public wireless communication is larger than the power consumed for positioning by the GPS module. For this reason, if public wireless communication is periodically used and location information is reported, the battery consumption of the wireless terminal device is fast and the continuous operation time is shortened.

  When the charge amount of the battery of the wireless terminal device is insufficient, it becomes difficult to report the position information to the server device, and the latest position information of the monitoring target person is not collected. As a result, it is difficult for the guardian to track the exact position of the monitoring subject.

  The disclosed technology has been made in view of the above points, and includes a wireless terminal device, an information processing device, a location information report program, and a location information report method that can reduce power consumption and extend continuous operation time. The purpose is to provide.

  In one aspect, the wireless terminal device disclosed in the present application is a first beacon transmitting unit that transmits a beacon using short-range wireless communication, wireless communication using public wireless communication, and first using a beacon. A wireless communication unit that receives at least a predetermined cycle a mode signal designating one of a communication mode and a second communication mode that uses public wireless communication, and acquires position information of the own wireless terminal device An acquisition unit and a transmission control unit that transmits position information acquired by the acquisition unit from either the beacon transmission unit or the wireless communication unit according to a communication mode specified by a mode signal received by the wireless communication unit And have.

  According to one aspect of the wireless terminal device, the information processing device, the location information report program, and the location information report method disclosed in the present application, it is possible to reduce power consumption and increase the continuous operation time.

FIG. 1 is a diagram illustrating a configuration of a position information acquisition system according to an embodiment. FIG. 2 is a block diagram illustrating a configuration of the server device according to the embodiment. FIG. 3 is a block diagram illustrating functions of the processor according to the embodiment. FIG. 4 is a diagram illustrating a specific example of the position information table. FIG. 5 is a block diagram illustrating a configuration of a wireless terminal device according to an embodiment. FIG. 6 is a block diagram illustrating functions of the processor according to the embodiment. FIG. 7 is a flowchart showing mode notification processing according to an embodiment. FIG. 8 is a diagram illustrating a specific example of the positions of the monitoring target person and the collaborators. FIG. 9 is a diagram illustrating another specific example of the positions of the monitoring target person and the collaborators. FIG. 10 is a flowchart showing a location information report process according to an embodiment. FIG. 11 is a diagram illustrating a specific example of a change in power consumption of the wireless terminal device. FIG. 12 is a flowchart illustrating relay processing according to an embodiment.

  Hereinafter, an embodiment of a wireless terminal device, an information processing device, a location information report program, and a location information report method disclosed in the present application will be described in detail with reference to the drawings. In addition, this invention is not limited by this embodiment.

  FIG. 1 is a diagram illustrating a configuration of a position information acquisition system according to an embodiment. The position information acquisition system illustrated in FIG. 1 includes a server device 100, a base station device 200, a wireless terminal device 300, and a relay device 400.

  The server device 100 collects and records location information of the wireless terminal device 300. When the location information of the wireless terminal device 300 is requested from a terminal device (not shown), the server device 100 provides the requested location information. Further, when the communication mode is inquired from the wireless terminal device 300, the server device 100 transmits a mode signal indicating which of the public wireless communication and the beacon is set to be used. At this time, the server apparatus 100 determines whether or not the relay apparatus 400 exists within a range in which short-range wireless communication using a beacon from the wireless terminal apparatus 300 is possible based on the position information of the wireless terminal apparatus 300 and the relay apparatus 400. Determine and transmit a mode signal according to the determination result. The configuration and specific operation of the server device 100 will be described in detail later.

  Base station apparatus 200 is connected to server apparatus 100 via a network, and transmits information received from wireless terminal apparatus 300 and relay apparatus 400 to server apparatus 100. Specifically, the base station apparatus 200 receives position information of the wireless terminal apparatus 300 directly from the wireless terminal apparatus 300 or indirectly receives it via the relay apparatus 400. Then, the base station apparatus 200 transmits the received position information of the wireless terminal apparatus 300 to the server apparatus 100. Further, the base station apparatus 200 receives the mode signal transmitted from the server apparatus 100 and wirelessly transmits it to the wireless terminal apparatus 300.

  The wireless terminal device 300 is a small device carried by a monitoring target person such as a child or an elderly person. The wireless terminal device 300 may be a wearable device that can be worn on the body of the person to be monitored. For example, the wireless terminal device 300 acquires its own location information using GPS at a report timing that arrives periodically, and reports the acquired location information to the server device 100. At this time, the wireless terminal device 300 wirelessly transmits report information including position information in the communication mode specified by the mode signal. That is, when the public wireless communication mode using public wireless communication is set, the wireless terminal device 300 wirelessly transmits report information directly to the base station device 200. On the other hand, when the beacon mode using the beacon is set, the wireless terminal device 300 transmits the report information to the relay device 400 using the beacon.

  In addition, the wireless terminal device 300 wirelessly transmits report information directly to the base station device 200 at the periodically inquired mode inquiry timing regardless of the set communication mode, and the communication mode of the server device 100 Run the query. Radio terminal apparatus 300 receives the mode signal as a response to the inquiry about the communication mode, and sets the communication mode according to the mode signal. The configuration and specific operation of the wireless terminal device 300 will be described later in detail.

  The relay device 400 is a communication device owned by a cooperator who cooperates in collecting position information of the monitoring target person. In FIG. 1, the relay device 400 is assumed to wirelessly communicate with the base station device 200, but may be a communication device that is connected to the network and directly communicates with the server device 100 by wire. The relay apparatus 400 acquires its own position information using, for example, GPS, and causes the server apparatus 100 to periodically register the acquired position information. That is, the relay device 400 transmits its own location information to the server device 100 via the base station device 200 or directly and registers it. Also, the relay device 400 receives report information from the wireless terminal device 300 that is set to the beacon mode by a beacon, and transmits the report information of the wireless terminal device 300 to the server device 100 via the base station device 200 or directly. . That is, the relay device 400 is registered in advance in the server device 100 as a communication device owned by a collaborator, and relays report information transmitted by a beacon from the nearby wireless terminal device 300 to the server device 100.

  FIG. 2 is a block diagram illustrating a configuration of the server apparatus 100 according to the embodiment. As illustrated in FIG. 2, the server device 100 includes a processor 110, a memory 120, and a communication unit 130.

  The processor 110 includes, for example, a central processing unit (CPU), a field programmable gate array (FPGA), or a digital signal processor (DSP), and executes various application processes using the memory 120. The processor 110 stores, for example, position information reported from the wireless terminal device 300 in the memory 120 or searches for the relay device 400 that exists in the vicinity of the wireless terminal device 300. Detailed functions of the processor 110 will be described later.

  The memory 120 includes, for example, a RAM (Random Access Memory) or a ROM (Read Only Memory), and stores various information used by the processor 110. The memory 120 holds a location information table that records location information of the wireless terminal device 300 and the relay device 400, for example.

  The communication unit 130 is connected to a network, and transmits and receives signals according to control by the processor 110. That is, for example, the communication unit 130 receives report information including position information of the wireless terminal device 300 or transmits a mode signal for designating the communication mode of the wireless terminal device 300.

  FIG. 3 is a block diagram illustrating functions of the processor 110 according to the embodiment. As illustrated in FIG. 3, the processor 110 includes a report information acquisition unit 111, an ID determination unit 112, a position information recording unit 113, a relay device search unit 114, and a mode signal generation unit 115. Each of these processing units may be realized by hardware or software.

  The report information acquisition unit 111 acquires report information transmitted from the wireless terminal device 300 and received by the communication unit 130. The report information includes position information obtained by positioning by the wireless terminal device 300 and an ID for identifying the wireless terminal device 300.

  The ID determination unit 112 determines whether the ID included in the report information is a valid ID. Specifically, the ID determination unit 112 refers to, for example, a database that stores a regular ID that has been authenticated in advance, and determines whether or not the ID included in the report information is registered in the database. If the ID is invalid as a result of the determination, the ID determination unit 112 discards the report information. On the other hand, when the ID is a valid ID, the ID determination unit 112 outputs report information to the position information recording unit 113.

  The location information recording unit 113 records the location information included in the report information output from the ID determination unit 112 in the memory 120. Specifically, the position information recording unit 113 stores the position information and the ID in a position information table as shown in FIG. 4, for example. The position information table shown in FIG. 4 stores position information and a communication mode in association with the ID of the wireless terminal device. Therefore, the position information recording unit 113 updates the position information stored in association with the ID included in the report information to the position information included in the report information. For example, when the ID included in the report information is “monitoring person A” and the position information is “X, Y”, the position information recording unit 113 uses the ID “monitoring” in the position information table shown in FIG. The position information “X0, Y0” stored in association with “subject A” is updated to “X, Y”. The position information “X0, Y0” and “X, Y” both indicate combinations of longitude (X0 and X) and latitude (Y0 and Y), for example.

  In the position information table, not only the position information of the wireless terminal device carried by the person to be monitored but also the position information of the relay device owned by the cooperator is stored. The position information of the relay devices is updated when the position information is transmitted from these relay devices. In the position information table shown in FIG. 4, the communication mode is stored in association with the ID of the monitoring subject. The communication mode indicates a communication mode that is currently set for the wireless terminal device carried by each person to be monitored.

  The position information recording unit 113 may plot the positions of the monitoring target person and the collaborator on, for example, a map in addition to recording the position information in the position information table. By plotting the positions of the monitoring target person and the collaborators on the map in this way, for example, the administrator of the server apparatus 100 obtains map information that allows the positions of the monitoring target person and the collaborators to be visually confirmed. be able to.

  Returning to FIG. 3, the relay device search unit 114 determines that the wireless terminal device 300 receives the wireless terminal device 300 when the communication mode is inquired, and the wireless terminal device 300 is set to the public wireless communication mode. The relay device in the vicinity of the device 300 is searched. Whether or not the wireless terminal device 300 is set to the public wireless communication mode can be grasped from the position information table. As described above, the relay device search unit 114 has a relay device capable of short-range wireless communication using a beacon around the wireless terminal device 300 when report information is transmitted from the wireless terminal device 300 by public wireless communication. Judge whether or not.

  At this time, the relay device search unit 114 refers to the position information table and searches for a relay device that exists within a predetermined range from the position information included in the report information. Specifically, the relay device search unit 114 searches for a relay device that exists within a range where short-range wireless communication using a beacon is possible from the position of the wireless terminal device 300. In other words, the relay device search unit 114 determines whether or not the position information of the relay device included in a circle having a radius of about several tens of meters centered on the position of the wireless terminal device 300 is registered in the position information table. to decide. Then, the relay device search unit 114 notifies the mode signal generation unit 115 whether or not a relay device corresponding to the condition is registered in the position information table. When the relay device corresponding to the condition is registered in the position information table, the wireless terminal device 300 can perform short-range wireless communication using a beacon.

  The mode signal generation unit 115 generates a mode signal according to the search result by the relay device search unit 114. Specifically, the mode signal generation unit 115 generates a mode signal for designating the public wireless communication mode when there is no relay device within the range in which short-range wireless communication using a beacon is possible from the position of the wireless terminal device 300. Generate. On the other hand, the mode signal generation unit 115 generates a mode signal for designating the beacon mode when the relay device exists within a range where short-range wireless communication using a beacon is possible from the position of the wireless terminal device 300. In addition, the mode signal generation unit 115 registers the communication mode corresponding to the generated mode signal in the position information table. That is, the mode signal generation unit 115 registers the communication mode specified for the wireless terminal device 300 in association with the ID of the wireless terminal device 300 in the position information table. Then, the mode signal generation unit 115 transmits the generated mode signal to the wireless terminal device 300 via the communication unit 130.

  Next, the configuration of wireless terminal apparatus 300 will be described with reference to FIG. FIG. 5 is a block diagram showing a configuration of radio terminal apparatus 300 according to an embodiment. The wireless terminal device 300 illustrated in FIG. 5 includes a processor 310, a memory 320, a public wireless communication unit 330, a beacon transmission unit 340, and a GPS module 350.

  The processor 310 includes, for example, a CPU, FPGA, DSP, or the like, and executes various application processes using the memory 320. For example, the processor 310 generates report information for reporting position information of the wireless terminal device 300 at predetermined intervals, or switches a communication mode for transmitting the report information. Detailed functions of the processor 310 will be described later.

  The memory 320 includes, for example, a RAM or a ROM, and stores various information used by the processor 310. The memory 320 stores, for example, whether the communication mode being set is the public wireless communication mode or the beacon mode.

  The public wireless communication unit 330 establishes a wireless connection with the base station apparatus 200, transmits report information generated by the processor 310, or a mode signal transmitted from the server apparatus 100 via the base station apparatus 200. Or receive. That is, the public wireless communication unit 330 transmits and receives report information and mode signals by public wireless communication using a mobile communication network, a public wireless LAN, or the like that complies with 3GPP (3rd Generation Partnership Project) standards, for example. However, the public wireless communication unit 330 is activated when the communication mode is set to the public wireless communication mode and when the mode inquiry timing arrives, and when the communication mode is set to the beacon mode, It becomes the off state which does not consume.

  The beacon transmission unit 340 transmits the report information generated by the processor 310 using a beacon when the communication mode is set to the beacon mode. That is, the beacon transmission unit 340 notifies the report information by short-range wireless communication using, for example, Bluetooth (registered trademark) or BLE (Bluetooth Low Energy). However, the beacon transmission unit 340 is activated when the communication mode is set to the beacon mode, and consumes power when the communication mode is set to the public wireless communication mode and when the mode inquiry timing comes. Do not turn off.

  The GPS module 350 captures a GPS satellite according to an instruction from the processor 310 and acquires position information of the wireless terminal device 300. Then, the GPS module 350 outputs the acquired position information to the processor 310.

  FIG. 6 is a block diagram illustrating functions of the processor 310 according to the embodiment. As illustrated in FIG. 6, the processor 310 includes a mode signal acquisition unit 311, a time measurement unit 312, a report information generation unit 313, and a transmission control unit 314. Each of these processing units may be realized by hardware or software.

  The mode signal acquisition unit 311 acquires a mode signal transmitted from the server device 100 and received by the public wireless communication unit 330. The mode signal specifies whether the communication mode of the wireless terminal device 300 is set to the public wireless communication mode or the beacon mode. The mode signal acquisition unit 311 switches the communication mode controlled by the transmission control unit 314 according to the acquired mode signal. That is, when the mode signal acquisition unit 311 acquires a mode signal specifying the public wireless communication mode, the mode signal acquisition unit 311 sets the communication mode in the transmission control unit 314 to the public wireless communication mode, and acquires the mode signal specifying the beacon mode. When it does, the communication mode in the transmission control part 314 is set to beacon mode.

  The time measurement unit 312 measures the report timing repeated at a predetermined cycle, and instructs the report information generation unit 313 to generate report information when the report timing comes. In addition, the time measuring unit 312 measures a mode inquiry cycle longer than the reporting timing cycle, and makes an inquiry about the communication mode to the transmission control unit 314 by public wireless communication every time the mode inquiry cycle elapses. To instruct. Since the mode inquiry cycle is longer than the report timing cycle, the mode inquiry cycle includes a plurality of report timings.

  The report information generation unit 313 generates report information by adding the ID of the wireless terminal device 300 to the position information acquired by the GPS module 350 in accordance with an instruction from the time measurement unit 312. Specifically, when the report timing comes, the report information generation unit 313 instructs the GPS module 350 to acquire position information. When the position information is acquired, the ID of the wireless terminal device 300 is added to the position information. Is added. Then, the report information generation unit 313 outputs report information including position information and ID to the transmission control unit 314.

  The transmission control unit 314 transmits the report information output from the report information generation unit 313 in the communication mode being set. That is, the transmission control unit 314 outputs report information to the public wireless communication unit 330 and transmits it to the base station apparatus 200 while the public wireless communication mode is set. On the other hand, the transmission control unit 314 outputs report information to the beacon transmission unit 340 to be notified while the beacon mode is set.

  In addition, when instructed by the time measurement unit 312 to make an inquiry about the communication mode, the transmission control unit 314 activates the public wireless communication unit 330 and sets the communication mode in the next mode inquiry cycle via the base station apparatus 200. The server apparatus 100 is inquired. That is, the transmission control unit 314 inquires of the server apparatus 100 about the communication mode in the next mode inquiry cycle using public wireless communication every time the mode inquiry cycle elapses regardless of the communication mode being set. Note that the mode inquiry timing and the report timing that arrive at each mode inquiry cycle may overlap. When these timings overlap, the transmission control unit 314 transmits report information from the public wireless communication unit 330 and inquires about the communication mode regardless of the communication mode being set.

  Next, the mode notification process of the server apparatus 100 in the position information acquisition system configured as described above will be described with reference to the flowchart shown in FIG.

  Server apparatus 100 waits for report information periodically transmitted from wireless terminal apparatus 300 (step S101), and reception of report information by communication unit 130 is monitored (step S102). The report information is received by the communication unit 130 via the base station device 200 while the wireless terminal device 300 is set to the public wireless communication mode. On the other hand, while the wireless terminal device 300 is set to the beacon mode, it is received by the communication unit 130 via the relay device 400 and the base station device 200.

  When the report information is received by the communication unit 130 (step S102 Yes), the report information is acquired by the report information acquisition unit 111 of the processor 110. Then, the ID determination unit 112 determines whether or not the ID included in the report information is a valid ID (step S103). That is, for example, a database that stores valid IDs in advance is referred to, and it is determined whether or not an ID included in the report information is registered in the database.

  As a result of this determination, if the ID included in the report information is an invalid ID (No in step S103), the report information is discarded and the process ends. On the other hand, when the ID included in the report information is a valid ID (Yes in step S103), the position information recording unit 113 records the position information included in the report information in the position information table (step S104). Specifically, in the position information table, the position information stored in association with the ID included in the report information is updated to the position information included in the report information. At this time, if the ID included in the report information is not registered in the position information table, the ID and the position information included in the report information are newly registered in the position information table.

  When the latest location information of the wireless terminal device 300 is registered in the location information table, it is determined whether or not the ID included in the report information is the ID of the wireless terminal device 300 (step S105). As a result of this determination, if the ID is not the ID of the wireless terminal device 300 (No in step S105), it is determined that the wireless terminal device 300 is transmitting report information via the relay device 400 or the like. Therefore, the server apparatus 100 ends the process without executing transmission of the mode signal via the base station apparatus 200.

  On the other hand, as a result of the determination in step S105, when the ID is the ID of the wireless terminal device 300 (Yes in step S105), it is determined that the wireless terminal device 300 is directly transmitting report information to the base station device 200. . Therefore, the server device 100 transmits a mode signal to the wireless terminal device 300 via the base station device 200.

  Specifically, the relay device search unit 114 searches for a relay device located in the vicinity of the wireless terminal device 300 from the position information table (step S106). That is, the relay apparatus owned by the collaborator registered in advance reports its position information to the server apparatus 100 periodically, and the reported position information is stored in the position information table together with the ID. For this reason, from the latest position information of the wireless terminal device 300 and the latest position information of each relay device, the relay device located within a range in which short-range wireless communication using a beacon is possible is searched from the wireless terminal device 300.

  The search here means searching for a collaborator located in the vicinity of the person to be monitored. That is, for example, as shown in FIG. 8, collaborators within a range 502 in which short-range wireless communication by beacon is possible are searched from the wireless terminal device 300 carried by the monitoring subject 501. In the example illustrated in FIG. 8, among the cooperators 503 to 505, cooperators 503 and 504 are located within the range 502. For this reason, when a beacon is transmitted from the wireless terminal device 300 carried by the monitoring subject 501, this beacon can be received by a relay device owned by the cooperators 503 and 504.

  Note that the search by the relay device search unit 114 does not necessarily have to be performed using only the latest position information of each relay device. In other words, for example, the tendency of the relay device to move is estimated from the history of the position information of the relay device, and the wireless terminal device 300 can search for a relay device that is expected to enter a range where wireless communication using a beacon is possible in the future. Is possible. For example, as shown in FIG. 9, the moving speed and moving direction of the cooperators 506 and 507 are estimated from the history of the position information, and based on the estimation result, within the range 502 in which short-range wireless communication is possible from the wireless terminal device 300 A relay device that is expected to enter is searched. In the example shown in FIG. 9, the collaborator 506 is expected to leave the range 502, while the collaborator 507 is expected to enter the range 502. For this reason, in the search by the relay device search unit 114, the relay device owned by the cooperator 507 becomes the relay device corresponding to the condition.

  It is also possible to predict the future position of the wireless terminal device 300 from the movement history of the wireless terminal device 300, and to search for a relay device that exists in the vicinity of the predicted position. Further, when the radio terminal device 300 and the relay device are provided with, for example, a geomagnetic sensor and an acceleration sensor, the relay device corresponding to the condition is searched based on the moving speed and moving direction obtained by these sensors. May be.

  As a result of the search, if there is a relay device located in the vicinity of the wireless terminal device 300 such as the relay device 400 (Yes in step S106), the mode signal generation unit 115 is notified to that effect and a mode signal that specifies the beacon mode. Is generated. At this time, a mode signal designating the beacon mode may be generated only when there are a predetermined number or more of relay devices located in the vicinity of the wireless terminal device 300. That is, the beacon mode may be specified only when there are a plurality of relay devices that can receive the beacon transmitted from the wireless terminal device 300. The generated beacon mode signal is transmitted from the communication unit 130 to the wireless terminal device 300 via the base station device 200 (step S107).

  On the other hand, when there is no relay device located in the vicinity of the wireless terminal device 300 (No in step S106), the mode signal generation unit 115 is notified to that effect and a mode signal that specifies the public wireless communication mode is generated. The generated public wireless communication mode signal is transmitted from the communication unit 130 to the wireless terminal device 300 via the base station device 200 (step S108).

  As described above, the server device 100 that has received the report information from the wireless terminal device 300 registers the position information of the wireless terminal device 300, and if the communication mode of the wireless terminal device 300 is set to the public wireless communication mode, the wireless communication is performed. A relay device in the vicinity of the terminal device 300 is searched. When there is a relay device capable of short-range wireless communication, the server device 100 transmits a beacon mode signal to the wireless terminal device 300 in order to switch the communication mode to the beacon mode. On the other hand, when there is no relay device capable of short-range wireless communication, server device 100 transmits a public wireless communication mode signal to wireless terminal device 300. The search for the relay device and the transmission of the mode signal are performed not only when the report information is received, but also when a communication mode inquiry is received from the wireless terminal device 300. That is, the server device 100 searches for the relay device and transmits the mode signal at the report timing during setting to the public wireless communication mode and the mode inquiry timing that arrives at every mode inquiry cycle.

  Next, the location information report processing of the wireless terminal device 300 will be described with reference to the flowchart shown in FIG.

  In order to periodically report the position information of the wireless terminal device 300 to the server device 100, the time measurement unit 312 of the processor 310 monitors the arrival of the report timing of a predetermined cycle (step S201). When the time measurement unit 312 detects that the report timing has arrived (step S201 Yes), the report information generation unit 313 generates report information including position information (step S202). Specifically, the report information generation unit 313 acquires the position information of the wireless terminal device 300 from the GPS module 350, and generates report information including the position information and the ID of the wireless terminal device 300.

  The time measuring unit 312 measures a mode inquiry cycle longer than the reporting timing cycle (step S203). If the report timing and the mode inquiry timing do not overlap (No in step S203), the report information generated by the report information generation unit 313 is transmitted to the public wireless communication unit 330 or the beacon transmission unit 340 by the transmission control unit 314. Sent from At this time, the transmission control unit 314 selects one of the public wireless communication unit 330 and the beacon transmission unit 340 according to the communication mode set by the mode signal acquisition unit 311 and transmits report information (step S204).

  Although omitted in FIG. 10, when the communication mode is the public wireless communication mode and report information is transmitted from the public wireless communication unit 330, the mode signal is transmitted from the server device 100 as described above. . The mode signal is received by the public wireless communication unit 330, and the communication mode of the transmission control unit 314 is set again to the public wireless communication mode or the beacon mode by the mode signal acquisition unit 311. Thus, even if the mode inquiry timing has not arrived, by enabling the switching from the public wireless communication mode to the beacon mode, the period during which the beacon mode with low power consumption is set can be extended.

  By the way, when the report timing and the mode inquiry timing overlap (step S203 Yes), the report information generated by the report information generation unit 313 is transmitted from the public wireless communication unit 330 by the transmission control unit 314. That is, when the mode inquiry timing arrives, the public wireless communication unit 330 is activated even when the beacon mode is being set, and public wireless communication via the base station device 200 is executed. Here, since the report timing and the mode inquiry timing overlap, public wireless communication is used, and communication mode inquiry is executed along with transmission of report information (step S205).

  The report information transmitted from the public wireless communication unit 330 is received by the server apparatus 100 via the base station apparatus 200, and the server apparatus 100 transmits a mode signal by executing the above-described mode notification process. The mode signal is transmitted from the base station device 200 to the wireless terminal device 300 and received by the public wireless communication unit 330 (step S206). The mode signal is acquired by the mode signal acquisition unit 311 of the processor 310, and the communication mode of the transmission control unit 314 is set to the communication mode according to the mode signal. Specifically, the mode signal acquisition unit 311 determines whether or not the mode signal is a public wireless communication mode signal (step S207). If the mode signal is a public wireless communication mode signal (step S207 Yes), the communication mode Is set to the public wireless communication mode (step S208). In this case, the communication mode of the transmission control unit 314 is set to the public wireless communication mode until the beacon mode signal is received at the next report timing or the mode inquiry timing.

  If the mode signal is a beacon mode signal (step S207 No), the communication mode is set to the beacon mode (step S209). In this case, the public wireless communication unit 330 is set to an off state that does not consume power, and the power consumption of the wireless terminal device 300 can be reduced. Further, at the next report timing and subsequent times, the report information is transmitted from the beacon transmission unit 340 and relayed by the relay device 400, thereby reaching the server device 100. When the next mode inquiry timing arrives, the public wireless communication unit 330 is activated again, and the communication mode inquiry to the server apparatus 100 is executed.

  As described above, when the report timing arrives, the wireless terminal device 300 transmits report information including position information to the server device 100 using public wireless communication or a beacon. Further, when report information is transmitted by public wireless communication, or when a communication mode is inquired when the mode inquiry timing arrives, the wireless terminal device 300 receives a mode signal transmitted by the server device 100. When receiving a mode signal designating the beacon mode, the wireless terminal device 300 transmits the report information using the beacon at the subsequent report timing. For this reason, while transmitting report information using a beacon, the public wireless communication unit 330 can be turned off, and power consumption can be reduced.

  FIG. 11 is a diagram illustrating a specific example of power consumption for each report timing of the wireless terminal device 300. Since the times T1, T2, and T3 shown in FIG. 11 are mode inquiry timings that arrive at every mode inquiry cycle, the public wireless communication unit 330 is activated at these times. For this reason, at time T1, T2, and T3, power consumption is large. In addition, since the public wireless communication mode signal is received at the mode inquiry timing at time T1, report information is transmitted using public wireless communication at each report timing from time T1 to time T2. Therefore, power consumption is large at these reporting timings.

  On the other hand, since the beacon mode signal is received at the mode inquiry timing at time T2, report information is transmitted using a beacon at each report timing from time T2 to time T3. Accordingly, during this time, the public wireless communication unit 330 is in an off state, and power consumption at each report timing is reduced.

  In the beacon mode in which the power consumption is thus reduced, the report information is relayed by the relay device 400 that receives the beacon and reaches the server device 100. The relay apparatus 400 executes a relay process as shown in FIG.

  That is, the relay device 400 waits for report information transmitted by the beacon from the wireless terminal device 300 (step S301), and reception of the report information is monitored (step S302). When the report information is received by the relay device 400 (step S302 Yes), it is determined whether or not the ID included in the report information is a valid ID (step S303). That is, for example, a database that stores valid IDs in advance is referred to, and it is determined whether or not an ID included in the report information is registered in the database.

  As a result of this determination, if the ID included in the report information is an invalid ID (No in step S303), the report information is discarded without being relayed (step S305). On the other hand, when the ID included in the report information is a valid ID (step S303 Yes), the report information is transmitted to the base station apparatus 200 (step S304) and received by the server apparatus 100. Then, the transmitted report information is discarded (step S305).

  In addition, since relay apparatus 400 performs wireless communication using public wireless communication with base station apparatus 200, report information is transmitted to server apparatus 100 via base station apparatus 200. It may be wired to the network. In this case, the relay apparatus transmits report information directly to the server apparatus 100 through the network.

  As described above, according to the present embodiment, server device 100 determines the presence or absence of a relay device located in the vicinity of wireless terminal device 300, and transmits a mode signal for designating a communication mode according to the determination result to wireless terminal. It is transmitted at a timing when the device 300 executes public wireless communication. Then, the wireless terminal device 300 sets the communication mode according to the mode signal, and reports the position information to the server device 100 using the beacon during the beacon mode setting in which the relay device is in the vicinity. For this reason, while the location information using the beacon can be reported, the public wireless communication unit 330 of the wireless terminal device 300 can be turned off, and power consumption can be reduced. As a result, the battery consumption of the wireless terminal device 300 is suppressed, and the continuous operation time can be extended.

  In addition, even when the beacon mode is being set, the wireless terminal device 300 activates the public wireless communication unit 330 every predetermined mode inquiry cycle, and executes a communication mode inquiry to the server device 100. For this reason, when there is no relay device located in the vicinity of the wireless terminal device 300, the communication mode of the wireless terminal device 300 can be switched to the public wireless communication mode, and reliable location information reporting to the server device 100 can be performed. Can be realized.

  In the above embodiment, the report information is transmitted by the wireless terminal device 300 every time the report timing arrives. For example, when the wireless terminal device 300 is not carried by the monitoring target person, The report information may not be transmitted. In view of this, the wireless terminal device 300 may be provided with various sensors such as a temperature sensor and an acceleration sensor, and these sensors may detect that the wireless terminal device 300 is being carried by the monitoring subject. Specifically, for example, a temperature sensor or an acceleration sensor detects whether or not the wireless terminal device 300 is attached to the body of the monitoring subject. If the wireless terminal device 300 is not attached to the body of the monitoring subject, public wireless communication is performed. Both unit 330 and beacon transmission unit 340 may be turned off. In this way, unnecessary report information is not transmitted, the power consumption of the wireless terminal device 300 can be further reduced, and the continuous operation time can be further increased.

  In addition, the mode notification process of the server device 100 and the position information report process of the wireless terminal device 300 in the above-described embodiment may be described as a computer-executable program. In this case, these programs can be stored in a computer-readable recording medium and introduced into the computer. Examples of the computer-readable recording medium include a portable recording medium such as a CD-ROM, a DVD disk, and a USB memory, and a semiconductor memory such as a flash memory.

DESCRIPTION OF SYMBOLS 100 Server apparatus 110 Processor 111 Report information acquisition part 112 ID determination part 113 Location information recording part 114 Relay apparatus search part 115 Mode signal generation part 120 Memory 130 Communication part 200 Base station apparatus 300 Wireless terminal apparatus 310 Processor 311 Mode signal acquisition part 312 Time measurement unit 313 Report information generation unit 314 Transmission control unit 320 Memory 330 Public wireless communication unit 340 Beacon transmission unit 350 GPS module 400 Relay device

Claims (8)

A beacon transmitter that transmits a beacon using short-range wireless communication; and
A mode signal that designates one of the first communication mode that performs wireless communication using public wireless communication and uses a beacon and the second communication mode that uses public wireless communication is at least a predetermined cycle. A wireless communication unit for receiving each
An acquisition unit for acquiring position information of the own wireless terminal device;
A transmission control unit that causes the position information acquired by the acquisition unit to be transmitted from either the beacon transmission unit or the wireless communication unit in accordance with a communication mode specified by the mode signal received by the wireless communication unit. A wireless terminal device. The wireless communication unit
A mode signal transmitted from an information processing apparatus that has determined that there is a relay apparatus capable of relaying position information in the vicinity of the own wireless terminal apparatus, and that receives a mode signal designating the first communication mode. The wireless terminal device according to claim 1. The wireless communication unit
A mode signal transmitted from an information processing apparatus that has determined that there is no relay apparatus capable of relaying position information in the vicinity of the own wireless terminal apparatus, the mode signal specifying the second communication mode is received. The wireless terminal device according to claim 1. The transmission control unit
The wireless terminal apparatus according to claim 1, wherein the wireless communication unit transmits position information at a cycle shorter than the predetermined cycle at which the mode signal is received. An acquisition unit for acquiring position information of the wireless terminal device;
A determination unit that determines whether there is a relay device capable of relaying the position information of the wireless terminal device in the vicinity of the wireless terminal device based on the position information acquired by the acquisition unit;
When the determination unit determines that there is a relay device in the vicinity of the wireless terminal device, a mode signal specifying a first communication mode for transmitting position information using a beacon is transmitted to the wireless terminal device When the determination unit determines that there is no relay device in the vicinity of the wireless terminal device, a mode signal for specifying a second communication mode for transmitting position information using public wireless communication is transmitted to the wireless terminal. An information processing apparatus comprising: a transmission unit configured to transmit to the apparatus. The determination unit
6. The information according to claim 5, wherein when the communication mode of the wireless terminal device is set to the second communication mode, it is determined whether or not there is a relay device in the vicinity of the wireless terminal device. Processing equipment. On the computer,
A mode for designating one of the first communication mode using a beacon and the second communication mode using public wireless communication using a wireless communication unit that performs wireless communication using public wireless communication Receiving a signal at least every predetermined period;
Obtaining location information of the computer;
According to the communication mode specified by the received mode signal, the process of transmitting the position information from either one of the beacon transmission unit that transmits a beacon using short-range wireless communication and the wireless communication unit is executed. Location information reporting program. A position information reporting method executed by a wireless terminal device having a beacon transmission unit that transmits a beacon using short-range wireless communication and a wireless communication unit that performs wireless communication using public wireless communication,
The wireless communication unit is used to receive a mode signal designating at least a predetermined cycle for specifying one of the first communication mode using a beacon and the second communication mode using public wireless communication. ,
Obtaining location information of the wireless terminal device;
A position information reporting method comprising: a process of transmitting the position information from one of the beacon transmission unit and the wireless communication unit according to a communication mode specified by a received mode signal.

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