JP2015045975A - Management server, management system, control method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily restore the state of a shared terminal to be used by a plurality of users into a predetermined state even when the state of the shared terminal is changed.SOLUTION: A management server includes: acquisition means for acquiring the position information of a radio terminal attached to a shared terminal; acceptance means for accepting the inquiry of the reset necessity of the shared terminal from the shared terminal; determination means for, when the inquiry is accepted, determining the reset necessity of the shared terminal on the basis of the position information of the radio terminal attached to the shared terminal acquired since the previous inquiry from the shared terminal which has made the inquiry is accepted until the current point of time and predetermined position information corresponding to a position where the shared terminal is maintained; and control means for controlling the execution of reset processing in the shared terminal on the basis of the result of determination.

Description

  The present invention relates to a management server, a management system, a control method, and a program.

  Generally, in enterprises and schools, assets owned by enterprises (for example, PCs (Personal Computers), portable terminals, image processing devices such as projectors, electronic devices such as measuring instruments such as oscilloscopes, and particularly movable Stuff) is shared among multiple users or made into rental assets, so that the assets owned are streamlined and the cost is reduced.

  However, for example, a rental asset device is used by a plurality of users, so that data at the time of the previous use remains in the device, and the state of the device may be changed. Therefore, if the remaining data contains highly confidential information, the storage capacity is wasted due to security problems such as leakage of the information to a third party and accumulation of unnecessary data. There is a problem. Also, for example, if a user who has used rental assets has customized the setting environment of the device in the past, it is necessary to manually change the customized setting environment to the default state every time another user uses it. There is also a problem that the work burden is heavy.

  Therefore, Patent Document 1 discloses an asset management system in which the installation status of various movable OA devices and the like that are the targets of asset management can be efficiently and easily confirmed. Specifically, first, tag information such as the original installation location (installation start position) attached to a certain asset is stored in a state in which the correspondence relationship between the asset and the wireless tag is pre-registered in the management server. When the wireless tag passes in the vicinity of the transmission / reception device, the transmission / reception device reads tag information from the wireless tag and adds a passing position and the like. Next, the management server manages the change in the installation position of the asset by comparing and comparing the installation start position of the wireless tag registered in advance with the passing position included in the tag information read by the transmission / reception device. To do.

  On the other hand, Non-Patent Document 1 discloses a technique that enables positioning using a GPS receiver of a wireless terminal even indoors where a positioning signal from a GPS satellite cannot be received.

  However, in the technique of Patent Document 1, the position of the asset can be managed using the position information, but the data and setting environment that the asset has cannot be managed, and the above problem cannot be solved.

  Moreover, although the technique of nonpatent literature 1 enables indoor positioning, there is no description regarding management of the data etc. which an asset has.

  The present invention has been made in view of the above points, and even when the state of a shared terminal used by a plurality of users is changed, the state of the shared terminal is easily returned to a predetermined state. For the purpose.

  Therefore, in order to solve the above-described problem, the management server of the present invention receives an acquisition unit that acquires position information of a wireless terminal attached to a shared terminal, and an inquiry about whether or not the shared terminal needs to be reset from the shared terminal. The position of the wireless terminal attached to the shared terminal acquired from the time of receiving the previous inquiry from the shared terminal that made the inquiry to the current time when the inquiry is received Based on the information and predetermined location information corresponding to the location where the shared terminal is stored, a determination means for determining whether the shared terminal needs to be reset, and based on the result of the determination, a reset process in the shared terminal Control means for controlling execution.

  ADVANTAGE OF THE INVENTION According to this invention, even if it is a case where the state of the shared terminal used for a some user is changed, the state of a shared terminal can be easily returned to a predetermined state.

It is a figure which shows an example of the system configuration | structure of the asset management system in embodiment of this invention. It is FIG. (1) for demonstrating the operation | movement outline | summary of the asset management system in embodiment of this invention. It is FIG. (2) for demonstrating the operation | movement outline | summary of the asset management system in embodiment of this invention. It is a figure which shows an example of the hardware constitutions of the asset management server in embodiment of this invention. It is a figure which shows an example of the hardware constitutions of the shared terminal in embodiment of this invention. It is a figure which shows an example of the hardware constitutions of the radio | wireless terminal in embodiment of this invention. It is a figure which shows an example of the hardware constitutions of the delivery apparatus in embodiment of this invention. It is a figure which shows an example of the hardware constitutions of the management apparatus in embodiment of this invention. It is a figure which shows an example of a function structure of the asset management system in embodiment of this invention. It is a figure which shows an example of the information memorize | stored in the positional information management table of the positional information storage part in embodiment of this invention. It is a figure which shows an example of the information memorize | stored in the asset information management table of the asset information storage part in embodiment of this invention. It is a figure which shows an example of the information memorize | stored in the last inquiry time management table of the last inquiry situation memory | storage part in embodiment of this invention. It is a sequence diagram which shows an example of the operation | movement procedure of the positional information management process in embodiment of this invention. It is a sequence diagram which shows an example of the operation | movement procedure of the reset execution control process in embodiment of this invention. It is a flowchart figure which shows an example of the process sequence of the reset execution control process by the shared terminal in embodiment of this invention. It is a flowchart figure which shows an example of the process sequence of the reset execution control process by the asset management server in embodiment of this invention. It is a figure which shows an example of the system configuration | structure of the asset management system in the modification of embodiment of this invention. It is a figure which shows an example of a function structure of the asset management system in the modification of embodiment of this invention. It is a figure which shows an example of a function structure of the asset management system in the modification of embodiment of this invention.

Hereinafter, embodiments of the present invention (hereinafter referred to as embodiments) will be described with reference to the drawings.
[System configuration]
FIG. 1 is a diagram illustrating an example of a system configuration of an asset management system according to an embodiment of the present invention.

  As shown in FIG. 1, an asset management system 1 according to an embodiment of the present invention includes an asset management server 100 and shared terminals 200a, 200b,... 200n (referred to as “shared terminal 200” if they are not distinguished from each other). , Wireless terminals 300a, 300b,... 300n (“wireless terminal 300” if not distinguished from each other) and distribution apparatuses 400a, 400b, 400c, 400d,. 400 ”) and a management device 500. Note that the wireless terminal 300 is attached to the shared terminal 200 (including the case where the wireless terminal 300 is built in the shared terminal 200).

  Here, the wireless terminal 300, the distribution device 400, and the management device 500 comply with wireless communication standards such as ZigBee (registered trademark), Bluetooth (registered trademark), and WiFi (registered trademark) (wireless LAN). A wireless network N1 is configured. Further, the asset management server 100 and the management apparatus 500 are connected to a wired or wireless network N2 such as a LAN (Local Area Network) or the Internet, and can communicate with each other. In addition, the shared terminal 200 can communicate with the asset management server 100 connected to the network N4 via the access point 600 by the wireless network N3 that is, for example, a wireless LAN.

  In the asset management system 1 according to the embodiment of the present invention, when a shared terminal 200 that is an asset that is stored in a predetermined location and is shared by a plurality of users in a company or the like is lent (rented) to a certain user, the shared terminal This is a system for executing initialization (reset) processing of the shared terminal 200 based on the position information of the wireless terminal 300 attached to 200 and the predetermined position information corresponding to the stored position. In the embodiment of the present invention, a predetermined position where the shared terminal 200 is stored is referred to as a storage position. The storage location is defined based on the location information and is determined for each shared terminal 200. The resetting of the shared terminal 200 is an initialization process for returning the data stored in the shared terminal 200, the setting environment, and the like to the default state of the shared terminal 200. For example, when the shared terminal 200 is reset, various data (data files, program files, etc.) stored when the user rents the shared terminal 200 is deleted, and arbitrarily set parameters, the arrangement of icons on the desktop screen, etc. Various setting environments including are returned to initial values (initial states). In the embodiment of the present invention, the default state of the shared terminal 200 is not limited to the state when the shared terminal 200 is shipped, but may be a predetermined state determined in advance by the administrator of the asset management system 1 or the like. Good.

  The shared terminal 200 is an example of an asset shared by a plurality of users in a company or the like. In the embodiment of the present invention, the shared terminal 200 is an electronic device that has a communication function such as a wireless LAN, is portable, and is rented to a user. The shared terminal 200 is, for example, a laptop PC, a smart phone, a portable terminal of a tablet terminal or a mobile phone, an image processing device such as a projector or a portable printer, a measuring instrument such as an oscilloscope or a network analyzer, or a digital camera. Note that a wireless terminal 300 is attached to the shared terminal 200.

  The wireless terminal 300 is an RFID (Radio Frequency IDentification) tag that can receive an indoor positioning signal distributed from a distribution device 400 such as IMES (Indoor Messaging System) and acquire position information. The wireless terminal 300 is previously attached to the shared terminal 200 that is an asset. The wireless terminal 300 transmits the position information acquired by receiving the positioning signal to the asset management server 100 via the wireless network N1 (that is, the distribution device 400 and the management device 500). Here, for example, when the wireless network N1 is formed by ZigBee, the wireless terminal 300 has a function as a ZigBee endpoint (a function that does not have a data relay function and operates only as a terminal terminal). Note that the wireless terminal 300 is not limited to an RFID tag as long as it has a function of receiving a positioning signal and transmitting the received positioning signal to the asset management server 100.

  The distribution device 400 is a device that distributes indoor positioning signals such as IMES to a predetermined area (for example, the cone in FIG. 1). The positioning signal includes, for example, position information represented by latitude, longitude, floor, and the like. The position information transmitted by the distribution apparatus 400 represents the position where the distribution apparatus 400 is installed. The predetermined area where the positioning signal is transmitted is determined by the output for transmitting the positioning signal. As described above, the distribution device 400 forms a wireless network N1 together with the wireless terminal 300 and the management device 500, and has a function of relaying communication from the wireless terminal 300. For example, when the wireless network N1 is constructed by ZigBee, the distribution apparatus 400 has a function as a ZigBee router (data relay function from a ZigBee end point or another ZigBee router).

  The management device 500 manages the wireless network N1, connects the wireless network N1 formed together with the wireless terminal 300 and the distribution device 400, and the network N2 to which the asset management server 100 is connected, and communicates between the two networks. Is a device having a function of converting. For example, when the wireless network N1 is constructed by ZigBee, the management device 500 has a function as a ZigBee coordinator (radio network startup and management function).

The asset management server 100 has a wired LAN or wireless LAN communication function, a position information management function that acquires and manages position information transmitted from each wireless terminal 300, and a control function that controls the state of the shared terminal 200 It is. The asset management server 100 manages the position information of the wireless terminal 300 for each piece of identification information (wireless terminal identification information) that uniquely identifies the wireless terminal 300.
[System operation overview]
Next, an outline of the operation of the asset management system 1 in the embodiment of the present invention will be described with reference to FIGS. 2 and 3 are diagrams (No. 1) and (No. 2) for explaining an outline of the operation of the asset management system 1 in the embodiment of the present invention, respectively. The system configuration shown in FIGS. 2 and 3 is an excerpt of part of the system configuration shown in FIG.

  With reference to FIG. 2, an outline of the operation of the location information management processing of the wireless terminal 300 by the asset management server 100 will be described.

  In step S1a, the distribution apparatus 400a continues to transmit a positioning signal including position information to the predetermined area by IMES. As illustrated in FIG. 1, the position information included in the positioning signal includes latitude (“35.48100...”), Longitude (“139.32000”), longitude corresponding to the position where the distribution device 400 a is installed. Floor ("2") is included.

  Similarly, in step S1b, the distribution device 400b indicates the latitude (“35.46100”), longitude (“139.338095”), and floor (“2”) corresponding to the position where the distribution device 400b is installed. A positioning signal including information is continuously transmitted to a predetermined area.

  Note that the processes in steps S1a and S1b are continuously performed without depending on the subsequent processes.

  In step S <b> 2, the wireless terminal 300 attached to the shared terminal 200 receives the positioning signal transmitted from the distribution apparatus 400, and the position information included in the received positioning signal and the wireless terminal identification information (for example, wireless terminal 300). "012345abcdef") is transmitted to the asset management server 100 via the distribution device 400a and the management device 500.

  Step S3, the asset management server 100 receives the position information and wireless terminal identification information of the wireless terminal 300, and stores them in the position information management table together with their reception times. The position information management table stores time-series position information for each wireless terminal 300 (wireless terminal identification information).

  With the above-described operation procedure, the asset management system 1 can manage the position of the shared terminal 200 to which the wireless terminal 300 is attached. That is, the asset management system 1 can manage the rental status such as whether the shared terminal 200 has been rented or returned to the storage position after the rental.

  Next, the operation outline of the reset control processing of the shared terminal 200 by the asset management server 100 after the shared terminal 200 stored in the storage position is rented to the user (user B) will be described with reference to FIG.

  In step S4, after the shared terminal 200 is powered on, the connection with the wireless network N3 is detected (confirmed). Note that the connection with the wireless network N3 by the shared terminal 200 is, for example, that the association between the shared terminal 200 and the access point 600 is established according to a procedure based on the IEEE 802.11 standard, and authentication by EAP (Extensible Authentication Protocol) is performed. It is in a completed state. The connection when the shared terminal 200 is connected by Ethernet (registered trademark) is a state in which the link up is completed.

  In step S5, the shared terminal 200 inquires of the asset management server 100 via the wireless network N3 and the network N4 whether or not the reset process of the own device (shared terminal 200) is necessary.

  In step S <b> 6, the asset management server 100 determines whether or not the shared terminal 200 needs to be reset. Specifically, the asset management server 100 stores data from the time when the inquiry about the necessity of the previous reset from the same shared terminal 200 is received to the current time (the latest time stored in the location information management table). It is determined whether there is position information corresponding to the position. That is, by this determination, it is determined whether or not the shared terminal 200 has been returned to the storage position, that is, the presence or absence of predetermined position information corresponding to the storage position. In this determination, the location information of the storage location is present. The shared terminal 200 rented to a certain user (past user) is returned to the storage location, and the shared terminal 200 is rented to a new user this time. Is the case. Therefore, it is determined that “reset required” is necessary to reset the storage of data of the shared terminal 20 and the change of the setting environment performed by the past user. On the other hand, when there is no location information of the storage position in this determination, it is highly possible that the rented shared terminal 200 has not been returned and continues to be used by the same user. Determine no.

  In step S7, the asset management server 100 transmits a reset process control signal for controlling the reset process of the shared terminal 200 based on the determination result of the necessity of reset to the shared terminal 200 via the network N4 and the wireless network N3. To do. When the determination result needs to be reset, the reset process control signal includes a reset process request for requesting execution of the reset process. On the other hand, when the determination result is “no reset”, the reset process control signal includes information indicating that the reset process need not be executed.

  In step S8, the shared terminal 200 performs a process based on the received reset process control signal. Specifically, when the reset process control signal is a reset process request, the reset process of the shared terminal 20 is executed, and when the reset process is not necessary, the reset process of the shared terminal 20 is executed. do not do.

Based on the operation procedure described above, the asset management system 1 determines whether or not the shared terminal 200 needs to be reset based on the position information of the shared terminal 200 (wireless terminal 300) and the position information of the storage position where the shared terminal 200 is stored. Based on the determination result, the operation of the shared terminal 200 (whether or not to execute the reset process) can be controlled.
[Hardware configuration]
<Asset management server>
FIG. 4 is a diagram illustrating an example of a hardware configuration of the asset management server 100 according to the embodiment of the present invention. The asset management server 100 includes a CPU 11, a RAM 12, a ROM 13, an HDD 14, a wired communication device 15, a keyboard 16, a mouse 17, and a display 18.

  The CPU 11 executes a program that controls the operation of the asset management server 100. The RAM 12 constitutes a work area for the CPU 11. The ROM 13 stores a system program of the asset management server 100 and the like. The HDD 14 stores location information of the wireless terminal 300, information on the asset (shared terminal 200), and the like in addition to applications executed by the asset management server 100. The wired communication device 15 is a NIC (Network Interface Card) for connecting to a LAN. The keyboard 16 and the mouse 17 are devices that receive input from an administrator or the like of the asset management system 1. The display 18 is a device that displays and outputs information to an administrator or the like. The bus 19 electrically connects the above devices.

  With the above configuration, the asset management server 100 according to the embodiment of the present invention can execute processing for managing location information of the wireless terminal 300, determining whether the shared terminal 200 needs to be reset, and the like.

<Shared terminal>
FIG. 5 is a diagram illustrating an example of a hardware configuration of the shared terminal 200 according to the embodiment of the present invention. The shared terminal 200 includes a CPU 21, a RAM 22, a ROM 23, an HDD 24, a wireless communication device 25, a keyboard 26, a mouse 27, and a display 28. The bus 29 electrically connects the above devices.

  Note that the CPU 21, RAM 22, ROM 23, HDD 24, keyboard 26, mouse 27, and display 28 correspond to the CPU 11, RAM 12, ROM 13, HDD 14, keyboard 16, mouse 17, and display 18 shown in FIG. 4, respectively. However, the difference is that the ROM 23 stores the system program of the shared terminal 200.

  The wireless communication device 25 is a wireless LAN card for connecting to a wireless LAN. Note that when the shared terminal 200 is connected to the wired LAN, the shared terminal 200 includes a wired communication device.

  With the above configuration, the shared terminal 200 according to the embodiment of the present invention can communicate with the asset management server 100 to inquire whether or not the own device needs to be reset.

<Wireless terminal>
FIG. 6 is a diagram illustrating an example of a hardware configuration of the wireless terminal 300 according to the embodiment of the present invention. FIG. 6 shows an example in which the wireless terminal 300 is an RFID tag. The wireless terminal 300 includes a CPU 31, a RAM 32, a ROM 33, and a wireless communication device 34.

  The CPU 31 executes a program that controls the operation of the wireless terminal 300. The RAM 32 constitutes a work area for the CPU 31. The ROM 33 stores a system program of the wireless terminal 300 and the like. The wireless communication device 34 is a device for communicating with an external device by, for example, ZigBee or Bluetooth. A plurality of arbitrary types of wireless communication devices 34 may be provided. Further, when the wireless terminal 300 is built in a mobile terminal such as a smartphone, the wireless communication device 34 may be a device that performs communication using a mobile communication network such as 3G or LTE (Long Term Evolution) or WiFi. Good. The bus 35 electrically connects the above devices.

  With the above configuration, the wireless terminal 300 according to the embodiment of the present invention can receive a positioning signal indoors and acquire position information. In addition, the wireless terminal 300 can transmit the acquired position information to the asset management server 100 via the wireless network N1.

<Distributor>
FIG. 7 is a diagram illustrating an example of a hardware configuration of the distribution apparatus 400 according to the embodiment of the present invention. The distribution device 400 includes a CPU 41, a RAM 42, a ROM 43, a wireless communication device 44, and a positioning signal distribution device 45.

  The CPU 41 executes a program that controls the operation of the distribution apparatus 400. The RAM 42 constitutes a work area for the CPU 41 and the like. The ROM 43 stores a program executed by the CPU 41 and data necessary for executing the program. The wireless communication device 44 is a device for communicating with the wireless terminal 300 and the management device 500 via the wireless network N1. The positioning signal distribution device 45 is a device that transmits a positioning signal used by the wireless terminal 300 to acquire the current position. For example, the positioning signal distribution device 45 transmits a positioning signal in a frame format defined by the IMES standard. More specifically, the positioning signal distribution device 45 generates a signal by modulating a 1.5 GHz carrier wave using data having a frame structure defined by the IMES standard, and transmits the signal from an antenna. The bus 46 electrically connects the above devices.

  With the above configuration, the distribution device 400 according to the embodiment of the present invention can distribute a positioning signal to a predetermined area (the wireless terminal 300). In addition, the distribution apparatus 400 can configure the wireless network N1 with the wireless terminal 300 and the management apparatus 500, and relay the position information transmitted from the wireless terminal 300 to another distribution apparatus 400 or the management apparatus 500.

<Management device>
FIG. 8 is a diagram illustrating an example of a hardware configuration of the management apparatus 500 according to the embodiment of this invention. The management device 500 includes a CPU 51, a RAM 52, a ROM 53, a wireless communication device 54, and a wired communication device 55.

  The CPU 51 controls the operation of the management device 500. Run the program. The RAM 52 constitutes a work area of the CPU 51 and the like. The ROM 53 stores a program executed by the CPU 51 and data necessary for executing the program. The wireless communication device 54 is a device for communicating with the wireless terminal 300 and the distribution device 400 via the wireless network N1. The wired communication device 55 is a NIC for connecting to a LAN. A bus 56 electrically connects the above devices.

With the above configuration, the management apparatus 500 according to the embodiment of the present invention can connect the wireless network N1 configured by the wireless terminal 300 and the distribution apparatus 400 to the external network N2.
[Function configuration]
FIG. 9 is a diagram illustrating an example of a functional configuration of the asset management system 1 according to the embodiment of the present invention.

<Distributor>
The distribution apparatus 400 according to the embodiment of the present invention includes a position information storage unit 401, a positioning signal distribution unit 402, and a relay unit 403. Each function is realized by the CPU 41 executing a program and cooperating with hardware.

  The position information storage unit 401 stores position information indicating a position where the distribution apparatus 400 is installed. The position information of the distribution device 400 installed indoors includes information such as latitude, longitude, and floor. The position information is not limited to the above, and may include information indicating a building ridge, for example.

  The positioning signal distribution unit 402 generates a positioning signal including the position information stored in the position information storage unit 401 and distributes it to a predetermined area. The predetermined area is determined by the radio wave transmission output from the positioning signal distribution device 45.

  The relay unit 403 relays the data transmitted from the wireless terminal 300 to another distribution device 400 or the management device 500. The relayed data is then transmitted to the asset management server 100. The relay unit 403 provides a function of a ZigBee router when the wireless network N1 is configured by ZigBee.

<Wireless terminal>
The wireless terminal 300 according to the embodiment of the present invention includes a positioning signal receiving unit 301, a location information acquisition unit 302, a wireless terminal identification information storage unit 303, and a location information transmission unit 304. Each function is realized by the CPU 31 executing a program and cooperating with hardware.

  The positioning signal receiving unit 301 receives the positioning signal distributed from the positioning signal distribution unit 402 of the distribution device 400.

  The position information acquisition unit 302 acquires position information from the positioning signal transmitted from the distribution device 400. As described above, the position information includes information such as latitude, longitude, and floor.

  The wireless terminal identification information storage unit 303 stores wireless terminal identification information for uniquely identifying the wireless terminal 300. The wireless terminal identification information is, for example, a MAC address.

  The position information transmission unit 304 transmits the position information acquired by the position information acquisition unit 302 and the wireless terminal identification information stored in the wireless terminal identification information storage unit 303 to the asset management server 100. Here, the location information and the wireless terminal identification information of the wireless terminal 300 are first transmitted to the nearest distribution device 400 via the wireless network N1, and then the asset is transmitted via the other distribution device 400 or the management device 500. It is transmitted to the management server 100.

<Management device>
The management apparatus 500 according to the embodiment of the present invention includes a conversion unit 501. The above functions are realized by the CPU 51 executing a program and cooperating with hardware. Note that the management device 500 provides a function as a ZigBee coordinator when the wireless network N1 is configured by ZigBee.

  The conversion unit 501 converts the position information and wireless terminal identification information received from the wireless terminal 300 or the distribution device 400 via the wireless network N1 into a format suitable for the network to which the asset management server 100 is connected. Then, the conversion unit 501 transmits the position information and the wireless terminal identification information to the asset management server 100.

<Asset management server>
The asset management server 100 according to the embodiment of the present invention includes a location information receiving unit 101, a location information storage unit 102, an asset information storage unit 103, a final inquiry status storage unit 104, and a reset necessity inquiry reception unit 105. A reset necessity determination unit 106 and a reset processing control unit 107. Each function is realized by the CPU 11 executing a program and cooperating with hardware.

  The position information receiving unit 101 receives wireless terminal identification information and position information transmitted from the wireless terminal 300. The location information receiving unit 101 stores the wireless terminal identification information and the location information in the location information storage unit 102.

  The location information storage unit 102 stores, for each wireless terminal identification information of the wireless terminal 300, the location information transmitted from the wireless terminal 300 and the reception time of these pieces of information in association with each other in the location information management table. FIG. 10 is a diagram illustrating an example of information stored in the position information management table of the position information storage unit 102 according to the embodiment of the present invention. As illustrated in FIG. 10, the location information management table includes data items of “wireless terminal identification information”, “reception time”, “latitude”, “longitude”, and “floor” that are wireless terminal identification information of the wireless terminal 300. Have. “Latitude”, “longitude”, and “floor” are information included in the position information transmitted from the wireless terminal 300. “Reception time” is a time indicating the year, month, day, hour, minute, and second when the position information from the wireless terminal 300 is received. In the position information storage unit 102, a table of the number of wireless terminals 300 that are management targets of position information can be prepared.

  As shown in FIG. 11, the asset information storage unit 103 stores, in the asset information management table, information related to the correspondence between the shared terminal 200 and the wireless terminal 300 that are assets and the storage position of the shared terminal 200. FIG. 11 is a diagram illustrating an example of information stored in the asset information management table of the asset information storage unit 103 according to the embodiment of this invention. The asset information management table includes “asset ID”, “asset name”, “wireless terminal identification information”, “storage position name”, “latitude”, “longitude”, and “floor” included in “storage position information”. Has data items. The “asset ID” is identification information for uniquely identifying the shared terminal 200 that is an asset. “Asset name” is the name of the asset. “Wireless terminal identification information” is wireless terminal identification information of the wireless terminal 300 attached to the shared terminal 200 corresponding to the asset ID. “Storage location name” is a name indicating a storage location where the shared terminal 200 is stored. “Latitude”, “longitude”, and “floor” are position information corresponding to the storage position. Information stored in the asset information storage unit 103 is set in advance by an administrator of the asset management system 1 and is changed, added, or deleted when the correspondence between the asset ID and the wireless terminal identification information or the storage position is changed. Is called.

  As shown in FIG. 12, the final inquiry status storage unit 104 stores, for each shared terminal 200, the final time when the reset necessity inquiry received from the shared terminal 200 is received in the final inquiry time management table. To do. FIG. 12 is a diagram illustrating an example of information stored in the final inquiry time management table of the final inquiry status storage unit 104 according to the embodiment of this invention. As shown in FIG. 12, in the final inquiry time management table, an “asset ID” that identifies the shared terminal 20 is associated with a “final inquiry time” that is a time when an inquiry about whether reset is necessary is received. And memorized. The “last inquiry time” is updated by the reset necessity determination unit 106 after the determination process by the reset necessity determination unit 106.

  Upon receiving a reset necessity inquiry including the asset ID from the shared terminal 200, the reset necessity inquiry receiving unit 105 requests the reset necessity determination unit 106 to execute processing based on the reset necessity inquiry. .

  The reset necessity determination unit 106 resets whether or not the reset processing of the shared terminal 200 corresponding to the asset ID included in the reset necessity inquiry is necessary in response to a request from the reset necessity inquiry reception unit 105. Determine if necessary. The detailed processing procedure for determining whether or not the asset management server 100 needs to be reset will be described later with reference to FIG. Then, the reset necessity determination unit 106 outputs the determination result to the reset processing control unit 107.

  The reset process control unit 107 controls the execution of the reset process of the shared terminal 200 based on the determination result of the necessity determination for reset by the reset necessity determination unit 106. Specifically, when the determination result requires resetting, the reset processing control unit 107 transmits a reset processing request for requesting execution of the reset processing to the shared terminal 200. On the other hand, when the determination result is “no reset”, the reset process control unit 107 transmits a notification indicating that the execution of the reset process is unnecessary to the shared terminal 200. Note that the reset processing control unit 107 may be configured not to notify, for example, the shared terminal 20 when the determination result is “no reset”.

<Shared terminal>
The shared terminal 200 according to the embodiment of the present invention includes a network connection state management unit 201, a reset necessity inquiry unit 202, an asset ID storage unit 203, and a reset process execution unit 204. Each function is realized by the CPU 21 executing a program and cooperating with hardware.

  The network connection state management unit 201 determines the connection state with the wireless network N3 after power-on (startup) of the shared terminal 200 or after a predetermined operation for validating the connection with the wireless network N3 by a user who is starting up. Check. As described above, for example, the network connection state management unit 201 determines that the connection with the wireless network N3 is established when the association with the access point 600 is established and the authentication is completed. If the network connection state management unit 201 determines that the shared terminal 200 is connected to the wireless network N3, the network connection state management unit 201 notifies the reset necessity inquiry unit 202 that the network connection is established.

  The reset necessity inquiry unit 202 refers to the asset ID storage unit 203, reads the asset ID of the shared terminal 200, and requires a reset request for inquiring whether the reset processing of the shared terminal 200 including the asset ID is necessary. The inquiry is sent to the asset management server 100.

  The asset ID storage unit 203 stores an asset ID that is uniquely assigned to each shared terminal 200.

The reset process execution unit 204 executes a process based on the reset process control signal transmitted from the asset management server 100. Specifically, when the reset process control signal is a reset process request, the reset process execution unit 204 executes the reset process of the shared terminal 20. On the other hand, when the reset control signal is a notification that does not require execution of the reset process, the reset process execution unit 204 does not execute the reset process of the shared terminal 20.
[Operation procedure]
Next, an example of the operation procedure of the asset management system 1 in the embodiment of the present invention will be described. The processing of the asset management system 1 will be described separately as “location information management processing” and “reset execution control processing”.

[Location information management processing]
FIG. 13 is a sequence diagram showing an example of an operation procedure of the location information management process in the embodiment of the present invention. A process in which the asset management server 100 acquires position information of the wireless terminal 300 via the wireless network N1 will be described with reference to FIG. Here, an example in which the wireless terminal 300 receives a positioning signal including the following position information from the distribution apparatus 400 will be described.
-Latitude "35.46100", longitude "139.338095", floor "2"
In step S101, the positioning signal distribution unit 402 of the distribution apparatus 400 continues to transmit a positioning signal including the position information to a predetermined area.

  In step S <b> 102, the positioning signal reception unit 301 of the wireless terminal 300 receives the positioning signal transmitted from the positioning signal distribution unit 402 of the distribution device 400.

In step S103, the location information acquisition unit 302 of the wireless terminal 300 acquires location information included in the positioning signal received in step S102. In this case, the position information received by the wireless terminal 300 is as follows.
-Latitude "35.46100", longitude "139.338095", floor "2"
In step S104, the position information transmission unit 304 of the wireless terminal 300 transmits the position information together with the wireless terminal identification information stored in the wireless terminal identification information storage unit 303 to the distribution apparatus 400 via the wireless network N1. . Here, it is assumed that the wireless terminal identification information of the wireless terminal 300 is as follows.
-"012345abcdef"
The position information transmission operation in step S104 is performed in a predetermined cycle (for example, a cycle of 1 second to 5 seconds). In addition, when the wireless terminal 300 includes an inertial sensor, a position information transmission operation may be executed when an operation of the wireless terminal 300 is detected.

  In step S <b> 105, the relay unit 403 of the distribution apparatus 400 relays the position information and wireless terminal identification information received from the wireless terminal 300 to the management apparatus 500.

  In step S106, the conversion unit 501 of the management apparatus 500 converts the communication data transmitted from the wireless network N1 to which the distribution apparatus 400 belongs to a format compatible with the network to which the asset management server 100 is connected.

In step S <b> 107, the position information receiving unit 101 of the asset management server 100 receives the following position information and wireless terminal identification information of the wireless terminal 300 transmitted via the distribution apparatus 400 and the management apparatus 500.
-Position information: latitude "35.46100", longitude "139.338095", floor "2"
-Wireless terminal identification information: "012345abcdef"
In step S108, the location information storage unit 102 of the asset management server 100 stores the location information and wireless terminal identification information received in step S107 together with the reception time “2013/6/13 10:00:05”.

  With the above operation procedure, the asset management server 100 according to the embodiment of the present invention can manage the current position of the wireless terminal 300.

  The location information management process is a process that is executed independently without depending on a reset execution control process described later.

[Reset execution control processing]
FIG. 14 is a sequence diagram illustrating an example of an operation procedure of the reset execution control process according to the embodiment of the present invention. In the example of FIG. 14, the wireless terminal 300 is attached to the shared terminal 200. In the initial state of FIG. 14, the shared terminal 200 is not connected to the wireless network N3, that is, the shared terminal 200 is turned off.

  In step S <b> 201, the user turns on the shared terminal 200 and activates the shared terminal 200. Thereby, the shared terminal 200 automatically starts a connection procedure with the wireless network N3. Note that in step S201, the user performs a predetermined operation and manually starts the connection procedure with the wireless network N3 in a state where the shared terminal 200 being activated is not connected to the wireless network N3 or the connection procedure is not performed. Is the same.

  In step S202, the network connection state management unit 201 of the shared terminal 200 monitors the connection state with the wireless network N3. Here, the subsequent processing is an operation when the network connection state management unit 201 confirms the connection with the wireless network N3. After confirming the connection with the wireless network N3, the network connection state management unit 201 notifies the reset necessity inquiry unit 202 that the connection with the wireless network N3 has been completed.

  In step S203, the reset necessity inquiry unit 202 reads the asset ID of the shared terminal 200 stored in the asset ID storage unit 203, and transmits the reset necessity inquiry including the asset ID to the asset management server 100. To do.

  In step S204, when the reset necessity inquiry receiving unit 105 of the asset management server 100 accepts the reset necessity inquiry, it requests the reset necessity determination unit 106 to execute the reset necessity determination process. Then, the reset necessity determination unit 106 determines whether there is position information corresponding to the storage position between the time when the inquiry about the necessity for the previous reset is received and the current time. A reset necessity determination process is executed. Then, when there is position information on the storage position, the reset necessity determination unit 106 determines that the reset processing is required for the shared terminal 200 and determines that the reset is necessary. On the other hand, when there is no position information indicating the storage position, the reset necessity determination unit 106 determines that the reset processing is not necessary because the reset processing of the shared terminal 200 is not necessary.

  Step S205a is processing when the determination result of the necessity determination for reset by the reset necessity determination unit 106 is “reset required”. In step S <b> 205 a, the reset process control unit 107 generates a reset process request and transmits it to the shared terminal 200 because the determination result by the reset necessity determination unit 106 is “reset required”.

  In step S206, when the reset process execution unit 204 of the shared terminal 200 receives the reset process request, the reset process of the shared terminal 200 is executed.

  On the other hand, when the determination result of the necessity determination for reset by the reset necessity determination unit 106 in step S204 is “reset not required”, in step S205b, the reset process control unit 107 does not need to execute the reset process. An unnecessary notification is generated and transmitted to the shared terminal 200.

  Based on the above operation procedure, the asset management server 100 according to the embodiment of the present invention uses the shared terminal 200 based on the return information from the location information of the shared terminal 200 (wireless terminal 300) to the storage location of the rented shared terminal 200. It is possible to control whether or not to execute reset processing.

  Next, each processing procedure of the shared terminal 200 and the asset management server 100 in the reset execution control process will be described with reference to FIGS. 15 and 16.

<Shared terminal>
FIG. 15 is a flowchart illustrating an example of a processing procedure of reset execution control processing by the shared terminal 200 according to the embodiment of this invention. Note that the processing in step S301 illustrated in FIG. 15 corresponds to the processing in step S201 illustrated in FIG.

  In step S301, the shared terminal 200, which has been powered off by the user, is turned on, or the active shared terminal 200 starts a network (wireless network N3) connection procedure.

  In step S302, the network connection state management unit 201 monitors the connection state with the network, and determines whether or not the connection with the network is completed within a predetermined time (before the timeout expires).

  Here, when the connection with the network is not completed (NO in step S302), in step S303, a message instructing execution of the connection procedure with the network is displayed on, for example, the display 29 and notified to the user. In step S304, a setting screen for starting a connection procedure with the network is displayed. Thereafter, the process of step S301 is executed.

  On the other hand, when the completion of connection with the network is confirmed in step S302 (YES in step S302), in step S305, the reset necessity inquiry unit 202 first selects the asset ID stored in the asset ID storage unit 203. read out. Next, the reset necessity inquiry unit 202 transmits a reset necessity inquiry including the asset ID to the asset management server 100.

  Thereafter, in step S306, it is determined whether or not a reset processing control signal that is a response to the inquiry from the asset management server 100 has been received.

  Here, when a response to the inquiry from the asset management server 100 has not been received (NO in step S306), in step S307, a message indicating that there is no response from the asset management server 100 (for example, a response timeout) is displayed. For example, the information is displayed on the display 29 and notified to the user. In this case, whether or not the reset process of the shared terminal 200 is necessary is not determined by the asset management server 100, and the process of the shared terminal 200 ends. In this case, for example, the user may be notified of a message instructing execution of a manual reset process.

  On the other hand, when a response to the inquiry from the asset management server 100 is received in step S306 (YES in step S306), in step S308, the reset process execution unit 204 determines whether or not the response is a reset process request. To do.

  If the response is not a reset process request (NO in step S308), that is, if the response is a notification that does not require execution of the reset process, the process ends without executing the reset process in the shared terminal 200.

  On the other hand, when the response is a reset process request in step S308 (YES in step S308), the reset process execution unit 204 executes the reset process of the shared terminal 200.

  Through the above processing procedure, the shared terminal 200 makes an inquiry to the asset management server 100 as to whether or not the reset processing of the shared terminal 200 is necessary upon connection with the network, and responds to the inquiry (whether or not it is a reset process request). Based on the above, the reset process can be executed.

<Asset management server>
FIG. 16 is a flowchart illustrating an example of a processing procedure of reset execution control processing by the asset management server 100 according to the embodiment of this invention. Note that the process of step S401 illustrated in FIG. 16 corresponds to the process of step S203 illustrated in FIG.

  In step S <b> 401, the reset necessity inquiry receiving unit 105 of the asset management server 100 accepts a reset necessity inquiry including the asset ID transmitted from the shared terminal 200. Here, the asset ID included in the reset necessity inquiry is assumed to be “id0001”, for example. The reset necessity inquiry receiving unit 105 requests the reset necessity determination unit 106 to execute a process based on accepting the reset necessity inquiry.

  In step S <b> 402, the reset necessity determination unit 106 refers to the final inquiry time management table of the final inquiry status storage unit 104, and determines the last inquiry time corresponding to the asset ID included in the reset necessity inquiry, i.e., the previous time. Specify the time of the inquiry about necessity of reset. Here, for example, if the value shown in FIG. 12 is stored in the last inquiry time management table, the last inquiry time corresponding to the asset ID “id0001” is “2013/6/13 10:00:05”. "

  In step S403, the reset necessity determination unit 106 refers to the asset information management table in the asset information storage unit 103, and reads the wireless terminal identification information and the storage position information corresponding to the asset ID included in the reset necessity inquiry. . Here, if the value shown in FIG. 11 is stored in the asset information management table, for example, the wireless terminal identification information corresponding to the asset ID “id0001” is “012345abcdef”, and the storage position information is the latitude “35. 48100 ", longitude" 139.32000 ", and floor" 2 ".

  In step S404, the reset necessity determination unit 106 first refers to the position information management table of the position information storage unit 102 corresponding to the read wireless terminal identification information (“012345abcdef”). Then, the reset necessity determination unit 106 searches for the data of “row” immediately after the identified last inquiry time “2013/6/13 10:00:05” in the referenced position information management table. Specifically, assuming that the value shown in FIG. 10 is stored in the position information management table, for example, “row” data immediately after the last inquiry time “2013/6/13 10:00:05” Data corresponding to the reception time “2013/6/13 10:00:10” is retrieved.

  In step S405, it is determined whether or not the position information of the searched “line” matches the read storage position information (latitude “35.48100”, longitude “139.32000”, floor “2”). As a specific example, in the example of FIG. 10, the position information of the searched “row” is latitude “35.48105” and longitude “139” corresponding to the reception time “2013/6/13 10:00:10”. .32010 ”and floor“ 2 ”.

  Here, as in the above specific example, when the position information of the searched “row” does not match the read storage position information (NO in step S405), the position information of the searched “line” is the position in step S406. It is determined whether or not the information management table corresponds to the latest reception time.

  Here, if it is determined that the position information of the searched “row” corresponds to the latest reception time in the position information management table (YES in step S406), that is, the rented shared terminal 200 is in the storage position. If not returned, the reset necessity determination unit 106 determines that the reset is not required, and the reset processing control unit 107 transmits a reset processing unnecessary notification to the shared terminal 200 in step S407.

  On the other hand, when the position information corresponding to the reception time “2013/6/13 10:00:10” is not the latest reception time in the position information management table as in the example of FIG. 10 (step S406). In step S408, the reset necessity determination unit 106 searches the position information management table for a “row” corresponding to the next reception time of the position information of the searched “row” to be determined in step S405. Then, the process of step S405 is executed again.

Here, as a specific example, after the processing of steps S405 to S408 is repeated a plurality of times, in step S408, the “row” of the reception time “2013/6/13 11:00:03” in the example of FIG. Is searched. In this case, since the position information of the searched “row” is latitude “35.48100”, longitude “139.32000”, and floor “2” in the process of step S405, the storage position information read in step S403 and They coincide (YES in step S405). That is, the shared terminal 200 that has been rented in the past is returned to the storage position, and the new user uses the shared terminal 200 this time. Therefore, the reset necessity determination unit 106 determines that reset is necessary, and in step S409, reset processing control is performed. The unit 107 transmits a reset processing request to the shared terminal 200.
[Summary]
As described above, according to the asset management system 1 of the embodiment of the present invention, the asset management server 100 manages the position information of the wireless terminal 300 so that the position information of the shared terminal 200 to which the wireless terminal 300 is attached is obtained. Can be managed. Then, based on the time-series position information of the shared terminal 200 managed by the asset management server 100 and the position information of a predetermined position (storage position) where the shared terminal 200 is stored, the lending status of the shared terminal 200, that is, It can be determined whether or not the rented shared terminal 200 is returned to the storage position. Thereby, the asset management server 100 can determine whether the shared terminal 200 needs to be reset when the shared terminal 200 is used, and can control whether the shared terminal 200 executes the reset process.

  Therefore, by using the asset management system 1, a user using the shared terminal 200 deletes data stored by the user who used the previous (past) shared terminal 200 or restores the changed setting environment. The burden of manual work can be removed.

  Similarly, for the administrator of the asset management system 1, it is possible to save troubles such as deleting data stored by the user and restoring the setting environment when returning the rented shared terminal 200.

In addition, since data saved by a user who has used the shared terminal 200 in the past is automatically deleted, information leakage of data can be avoided.
[Modification]
As shown in FIG. 17, the asset management system 1 according to the modification of the embodiment of the present invention further includes a location information management server 100a from the asset management system 1 shown in FIG. In the asset management system 1 of the modified example, the position information management server 100a has a function related to the above-described position information management process, and the asset management server 100 has a function related to the above-described reset execution control process.

  FIG. 17 is a diagram illustrating an example of a system configuration of the asset management system 1 according to a modification of the embodiment of the present invention. As shown in FIG. 17, the location information management server 100a is connected to the management device 500 via a network N2. The location information management server 100a is directly connected to the asset management server 100 via a LAN or the Internet.

  Note that the hardware configuration of the location information management server 100a may be the same as the hardware configuration of the asset management server 100 shown in FIG.

  Next, a functional configuration of the asset management system 1 in the modification will be described. FIG. 18 is a diagram illustrating an example of a functional configuration of the asset management system 1 according to a modification of the embodiment of the present invention. In FIG. 18, the same reference numerals are given to the same functions as those in the asset management system 1 of the embodiment of the present invention shown in FIG. 9, and detailed descriptions thereof will be omitted. Hereinafter, in the description of the modification, the description will focus on differences from the embodiment of the present invention (see FIG. 9).

  As illustrated in FIG. 18, the asset management server 100 according to the modification does not require the position information receiving unit 101 and the position information storage unit 102 illustrated in FIG. 9. In addition, when referring to the location information management table of the wireless terminal 300, the reset necessity determination unit 106 in the modification transmits a location information search request to the location information management server 100a. Then, as a response to the position information search request, the asset management server 100 acquires a position information search result.

  The location information management server 100a includes a location information receiving unit 101a and a location information storage unit 102a. The functions of the position information receiving unit 101a and the position information storage unit 102a are the same as the functions of the position information receiving unit 101 and the position information storage unit 102 shown in FIG.

  Next, a processing procedure of reset execution control processing by the asset management server 100 in the modification will be described. FIG. 19 is a flowchart illustrating an example of a processing procedure of reset execution control processing by the asset management server 100 according to the modification of the embodiment of the present invention. In FIG. 19, the same step number is assigned to the same processing as the processing procedure by the asset management server 100 of the embodiment of the present invention shown in FIG. 16, and detailed description thereof is omitted. Differences from the processing (see FIG. 16) in the embodiment of the invention will be mainly described.

  As shown in FIG. 19, after the process of step S403, in step S404a, the reset necessity determination unit 106 sends the location information management server 100a the wireless terminal identification information read in step S403 and the final specified in step S402. A position information search request for requesting a search for position information immediately after the last inquiry time, including the inquiry time, is transmitted.

  In step S <b> 404 b, the reset necessity determination unit 106 receives the position information search result (“position” in the position information management table) as a response to the position information search request from the position information management server 100 a.

  In step S408a, the reset necessity determination unit 106 searches the position information management server 100a for the position information of “row” at the time next to the searched “row” that was the determination target in step S405. Send a location information search request.

  Processing other than the above is the same as the processing shown in FIG.

  As described above, the location information management server 100a in the asset management system 1 according to the modification of the embodiment of the present invention performs only the processing for managing the location information of the wireless terminal 300, and receives the location information search request from the asset management server 100. Provide location information according to On the other hand, the asset management server 100 performs only the process related to the reset execution control process, and acquires the position information from the position information management server 100a when the asset management server 100 executes the determination process.

  Accordingly, the position information management server 100a can be installed in, for example, indoor facilities and buildings that manage position information, and the asset management server 100 can be installed in a central location. Accordingly, there is no need to implement a function for performing processing related to the reset execution control process in the location information management server 100a in which a larger number of units are installed, and the ease of implementation of the function in each device is improved and accompanying the implementation. Cost can be reduced.

  Although the embodiments of the present invention have been described in detail above, the present invention is not limited to such specific embodiments, and various modifications are possible within the scope of the gist of the present invention described in the claims. Can be changed.

DESCRIPTION OF SYMBOLS 1 Asset management system 100 Asset management server 100a Position information management server 101, 101a Position information receiving part 102, 102a Position information storage part 103 Asset information storage part 104 Final inquiry status storage part 105 Reset necessity inquiry reception part 106 Reset required Rejection determination unit 107 Reset processing control unit 200 Shared terminal 201 Network connection state management unit 202 Reset necessity inquiry unit 203 Asset ID storage unit 204 Reset processing execution unit 300 Wireless terminal 301 Positioning signal reception unit 302 Location information acquisition unit 303 Wireless terminal Identification information storage unit 304 Position information transmission unit 400 Distribution device 401 Position information storage unit 402 Positioning signal distribution unit 403 Relay unit 500 Management device 501 Conversion unit

JP-A-2005-295406

"Quasi-Zenith Satellite System User Interface Specification", IS-QZSS 1.4, Japan Aerospace Exploration Agency

Claims (10)

Obtaining means for obtaining position information of a wireless terminal attached to the shared terminal;
Accepting means for accepting an inquiry about whether or not the shared terminal needs to be reset from the shared terminal;
When the inquiry is received, the location information of the wireless terminal attached to the shared terminal acquired from the time when the previous inquiry from the shared terminal that made the inquiry is received to the present time, and the Determining means for determining whether or not the shared terminal needs to be reset based on predetermined position information corresponding to a position where the shared terminal is stored;
A management server having control means for controlling execution of reset processing in the shared terminal based on the result of the determination; The determination means includes
When the predetermined location information is included in the location information of the wireless terminal attached to the shared terminal acquired from the time when the previous inquiry was received to the present time, The management server according to claim 1, wherein it is determined that a reset is necessary. The control means includes
3. The management server according to claim 1, wherein if the determination result indicates that the shared terminal needs to be reset, the management server transmits a reset process request for requesting the shared terminal to execute a reset process. The shared terminal is
The management server according to claim 3, wherein when the reset processing request transmitted by the control means is received, the reset processing is executed in the shared terminal. The shared terminal is
The management server according to any one of claims 1 to 4, wherein when the connection between the shared terminal and a network used for communication between the management server and the management server is confirmed, the inquiry is transmitted to the management server.   The position information of the wireless terminal is position information corresponding to a place where the distribution device is installed and distributed from a distribution device installed at a predetermined location, which is received by the wireless terminal. The management server according to one item.   The management server according to claim 6, wherein the position information is position information distributed from the distribution device according to the IMES standard. A management system having a shared terminal to which a wireless terminal is attached, and a management server for managing the shared terminal,
The shared terminal is
When the connection between the shared terminal and the network used for communication between the management server is confirmed, an inquiry means for sending an inquiry as to whether the shared terminal needs to be reset to the management server,
The management server
Obtaining means for obtaining position information of a wireless terminal attached to the shared terminal;
Accepting means for accepting the inquiry from the shared terminal;
When the inquiry is received, the location information of the wireless terminal attached to the shared terminal acquired from the time when the previous inquiry from the shared terminal that made the inquiry is received to the present time, and the Determining means for determining whether or not the shared terminal needs to be reset based on predetermined position information corresponding to a position where the shared terminal is stored;
And a control unit that controls execution of a reset process in the shared terminal based on a result of the determination. A control method performed by a management server that controls execution of reset processing in a shared terminal,
An acquisition step of acquiring position information of a wireless terminal attached to the shared terminal;
An accepting step of accepting an inquiry from the shared terminal as to whether the shared terminal needs to be reset;
When the inquiry is received, the location information of the wireless terminal attached to the shared terminal acquired from the time when the previous inquiry from the shared terminal that made the inquiry is received to the present time, and the A determination step for determining whether or not the shared terminal needs to be reset based on predetermined position information corresponding to a position where the shared terminal is stored;
A control step of controlling execution of a reset process in the shared terminal based on a result of the determination. Computer
Acquisition means for acquiring position information of a wireless terminal attached to the shared terminal;
Accepting means for accepting an inquiry about whether or not the shared terminal needs to be reset from the shared terminal;
When the inquiry is received, the location information of the wireless terminal attached to the shared terminal acquired from the time when the previous inquiry from the shared terminal that made the inquiry is received to the present time, and the Determination means for determining whether or not the shared terminal needs to be reset based on predetermined position information corresponding to a position where the shared terminal is stored;
A program that functions as control means for controlling execution of reset processing in the shared terminal based on the result of the determination.

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