JP2014027446A - Remote control device, remote control method, and remote control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To inhibit information leakage from an information processing terminal which is taken out from a predetermined area.SOLUTION: A remote control device which transmits to an information processing terminal a control signal for restricting functions of the information processing terminal, comprises: position information acquisition means which acquires position information of the information processing terminal; and transmission means which transmits the control signal to the information processing terminal when an area indicated by the position information is not included in a predetermined area.

Description

  The present invention relates to a remote control device, a remote control method, and a remote control system.

  In the user environment, opportunities to use smart devices (that is, portable information processing terminals) such as smartphones and tablet PCs are increasing. Using these devices, the user can access confidential information for in-house use, for example, and work efficiently.

  Further, not only smart devices as described above, but also information processing terminals such as projectors and printers have become compatible with the network, and as with smart devices, they can process a variety of information from a remote location. ing.

  From the viewpoint of preventing information leakage, these information processing terminals are often managed to be taken out according to internal operational rules. The user performs work while paying attention not to take out these information processing terminals in a predetermined area (a specific room, a specific area, a specific floor, a specific building, or the like). However, there is no way to deal with when the user takes out the information processing terminal in violation of operational rules.

  On the other hand, Patent Documents 1 and 2 disclose a remote lock system that remotely locks a communication terminal that has been stolen from an external device. Also, in Cited Document 3, the position of a user's terminal is measured using outdoor and indoor positioning signals by GPS (Global Positioning System) and IMES (Indoor Messaging System). Thus, a method for transmitting an alarm signal is disclosed. The use of positioning signals by IMES is described in Patent Document 4 and Non-Patent Document 1.

  However, the existing method cannot remotely lock an information processing terminal taken out from a predetermined area. As a result, there is a possibility that confidential information stored on the terminal leaks to an external network through an information processing terminal taken out of a predetermined area carelessly or intentionally by a user.

  The present invention has been made in view of such problems, and an object thereof is to prevent information leakage from an information processing terminal taken out from a predetermined area.

In order to solve the above-described problems and achieve the object, a remote control device according to an embodiment of the present invention is provided.
A remote control device that transmits a control signal for limiting the functions of the information processing terminal to the information processing terminal,
Position information acquisition means for acquiring position information of the information processing terminal;
Transmitting means for transmitting the control signal to the information processing terminal when an area associated with the position information is not a predetermined area;
Have

Moreover, the remote control method in one embodiment of the present invention is:
A remote control method executed by a remote control device that transmits a control signal for restricting the function of the information processing terminal to the information processing terminal,
A position information acquisition step of acquiring position information of the information processing terminal;
A transmission step of transmitting the control signal to the information processing terminal when an area associated with the position information is not a predetermined area;
including.

Moreover, the remote control system in one embodiment of the present invention is:
A remote control system having an information processing terminal and a remote control device that transmits a control signal for limiting the function of the information processing terminal to the information processing terminal,
The remote control device is:
Position information acquisition means for acquiring position information of the information processing terminal;
Transmitting means for transmitting the control signal to the information processing terminal when an area associated with the position information is not a predetermined area;
Have
The information processing terminal
Control means for restricting the function of the information processing terminal in response to reception of the control signal.

  ADVANTAGE OF THE INVENTION According to this invention, the information leakage from the information processing terminal taken out from the predetermined area | region can be prevented.

The figure showing the outline | summary of the remote control system in one Embodiment of this invention. The figure for demonstrating the structure of the network used in one Embodiment of this invention. The hardware block diagram of the remote control apparatus in one Embodiment of this invention. The hardware block diagram of the information processing terminal in one Embodiment of this invention. The hardware block diagram of the communication apparatus in one Embodiment of this invention. The hardware block diagram of the gateway in one Embodiment of this invention. The functional block diagram of the remote control apparatus in one Embodiment of this invention, an information processing terminal, a communication apparatus, a gateway, and a positional information management server. The figure showing the example of the positional infomation management table which stores the positional information on the information processing terminal in one Embodiment of this invention. The figure showing the example of the apparatus information management table which stores the information of the information processing terminal in one Embodiment of this invention. The figure showing the example of the area | region information table which associates the positional information and area | region information in one Embodiment of this invention. The figure showing the example of the remote lock condition table which defines the remote lock condition for every information processing terminal in one embodiment of the present invention. The flowchart showing the flow of a process of the information processing terminal in one Embodiment of this invention. The flowchart showing the flow of a process of the remote control apparatus in one Embodiment of this invention. The sequence diagram showing the operation example of the remote control system in one Embodiment of this invention. The sequence diagram showing the operation example of the remote control system in one Embodiment of this invention.

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

1. 1. System overview Hardware configuration 2.1 Remote control device 2.2 Information processing terminal 2.3 Communication device 2.4 Gateway Function 3.1 Location information management function 3.1.1 Indoor location information acquisition 3.1.2 Outdoor location information acquisition 3.2 Remote lock setting function 4． Example of operation

(1. System overview)
FIG. 1 is a schematic diagram of a remote control system 1 according to an embodiment of the present invention. FIG. 1 shows an indoor area 10 of an office. Here, the area 10 is given an area name such as “A4-S side”, which represents an area of a section in the building, for example.

The “A4-S side” area shown in FIG. 1 includes information processing terminals 120, 122, 124, and 126. The information processing terminal 120 is a smart device that a user uses for business, for example. The information processing terminal 122 is a projector installed on the “A4-S side”. The information processing terminal 124 is a monochrome printer that can be carried. The information processing terminal 126 is a color multifunction peripheral. These information processing terminals 120-126 are configured not to be used outside a predetermined area. Specifically, when these information processing terminals 120-126 are taken out of a predetermined area, remote lock is set. As a result, the user cannot perform normal operations. In order to perform such processing, the information processing terminals 120-126 obtain their own position information by a method described later, and transmit the position information to the position information management server 102. The position information managed by the position information management server 102 is monitored by the remote control device 100. When the remote control device 100 determines that the position of the information processing terminal has deviated from the predetermined area, the remote control device 100 transmits a control signal to the information processing terminals 120-126. Here, an example of the control signal transmitted to the information processing terminal 120-126 is a remote lock signal for limiting the function of the information processing terminal. The information processing terminal 120-126 that has received the remote lock signal performs an operation different from the normal state, such as a predetermined function being invalidated. The operation of the information processing terminal that has received the remote lock signal may vary depending on the remote lock function of the information processing terminal. The following is an example of the change in operation associated with the activation of the remote lock function.
(1) Disable all functions of the information processing terminal so as not to accept operations from the user (2) Some functions of the information processing terminal (for example, stored in the storage means from the viewpoint of personal information protection) (3) The control signal transmitted to the information processing terminal 120-126 that generates an alert for displaying the appropriate storage location of the information processing terminal is the remote control described above. The control signal is not limited to the lock signal, and may be an arbitrary control signal that activates an arbitrary function of the information processing terminal 120-126. In this specification, for the sake of explanation, the description will be made on the assumption that the remote lock signal shown in (1) is transmitted. Note that the state in which the remote lock function is activated (lock state) can be released by a predetermined operation determined by the administrator (for example, a path generated when a remote lock signal is issued that can be known only by the administrator). Enter code).

  In FIG. 1, the information processing terminals 120 to 126 described above are remotely controlled via a network 180 (see FIG. 2) based on short-range wireless communication and a network 190 such as an in-house LAN (including both wired and wireless). It is connected to the device 100 and the location information management server 102. The information processing terminals 120-126 are configured to be able to access the remote control device 100 and the location information management server 102 connected to the network 190 via a network 192 (not shown) such as a mobile phone communication network. Can be done. Further, the information processing terminal 120-126 receives an outdoor positioning signal by, for example, GPS (Global Positioning System) and an indoor positioning signal by, for example, IMES (Indoor Messaging System), and determines its current position. The position information to represent can be acquired. For example, from a positioning signal by GPS, it is possible to specify its own position by obtaining distances to a plurality of GPS satellites based on time information included in the positioning signal. Further, for example, from a positioning signal by IMES, information representing an absolute position such as latitude, longitude, or floor information can be acquired from a frame constituting a positioning signal transmitted from a single transmitter. The information processing terminals 120-126 transmit the position information acquired in this way to the position information management server 102 using the network 180, the network 190, or the network 192 described above. For example, when the information processing terminal 120-126 receives an outdoor positioning signal, the information processing terminal 120-126 transmits the position information to the position information management server 102 via the network 190 or the network 192. Further, when the information processing terminal 120-126 receives the indoor positioning signal, the information processing terminal 120-126 transmits the position information to the position information management server 102 via the network 180. The remote control device 100 monitors the position information of the information processing terminals 120-126 managed in this way, and sends a remote lock signal via the network 180, the network 190, or the network 192 according to a predetermined condition. Send to the information processing terminal. An example of the predetermined condition can be defined as shown in FIG. 11 (details will be described later). For example, when the information processing terminal acquires the position information in the “outdoor” area, the remote lock signal can be transmitted. Alternatively, when the information processing terminal acquires position information in an area other than the indoor area defined as “A4-S side” (including other indoor areas and outdoor areas), a remote lock signal is transmitted. can do. In this way, the area to which the information processing terminal to be managed belongs is detected, and for example, when the information processing terminal belongs to an area outside a predetermined area outdoors or indoors, a remote lock signal may be transmitted. it can.

  Here, a method in which the information processing terminal 120-126 transmits the position information acquired indoors to the position information management server 102 via the network 180 by short-range wireless communication will be described in detail. The network 180 is a PAN (Personal Area Network) using, for example, ZigBee (wireless communication), which includes the information processing terminals 120-126, communication terminals 140-146, and a gateway 160. Further, the communication devices 140 to 146 are further configured to be able to transmit indoor positioning signals (for example, IMES).

  The information processing terminal 120-126 that has received the indoor positioning signal from the communication device 140-146 transmits the identification information and the received position information to the communication device 140-146 through wireless communication using, for example, ZigBee (registered trademark). And send. The communication devices 140 to 146 constituting the PAN relay information transmitted from the information processing terminals 120 to 126 to the gateway 160. For example, when the network 180 is configured by ZigBee (registered trademark), the communication apparatuses 140 to 146 function as ZigBee routers (devices having a data relay function between other ZigBee devices).

  The gateway 160 connects the network 180 and the network 190 to each other, and relays data transmitted from the network 180 side to the network 190. For example, when the network 180 is a short-range wireless communication network based on ZigBee (registered trademark) and the network 190 is a LAN based on the IEEE 802.3 standard, the communication method is converted between them. The gateway 160 has a function of managing the configuration of the network 180.

  FIG. 2 shows the components extracted in order to explain the configuration of the network 180. As shown in FIG. 2, the information processing terminals 120-126 are connected to the end of the network 180, and when ZigBee (registered trademark) is used for short-range wireless communication, a ZigBee end device (ZigBee router or A device connected to the ZigBee coordinator and having no data relay function). On the other hand, the gateway 160 provides a ZigBee coordinator function (a device that exists in the ZigBee network and that starts up and manages the network) necessary for forming and managing the network 180.

  The location information management server 102 acquires and stores location information transmitted from the information processing terminals 120-126 via the network 180, the network 190, or the network 192.

  The remote control device 100 periodically acquires the position information of the information processing terminals 120-126 to be monitored from the position information management server 102, and when the position information belongs to an area different from the predetermined area. Transmits a remote lock signal to the information processing terminals 120-126. The remote lock signal is transmitted through the network 180, the network 190, and / or the network 192.

  With the above configuration, the remote control device 100 can transmit a remote lock signal to the information processing terminal when the information processing terminal 120-126 is located in a region other than a predetermined region. . Accordingly, it is possible to reduce the risk of information leakage from the information processing terminal taken out to an area where the user is not permitted.

(2. Hardware configuration)
Next, the hardware configuration of the remote control device 100, the information processing terminal 120, the communication device 140, and the gateway 160 according to an embodiment of the present invention will be described with reference to FIGS. 3, 4, 5, and 6. FIG.

(2.1 Remote control device)
FIG. 3 shows a hardware configuration of the remote control device 100 according to an embodiment of the present invention. The remote control device 100 includes a CPU 300, a RAM 302, a ROM 304, an HDD 306, a communication unit 308, a display unit 310, an input unit 312, and a bus 314.

  CPU 300 executes a program for controlling the operation of remote control device 100. The RAM 302 constitutes a work area of the CPU 300 and the like. The ROM 304 stores a system program of the remote control device 100 and the like. The HDD 306 stores the OS, application programs, data, and the like. The HDD 306 may be an arbitrary storage device using, for example, a semiconductor memory, a magnetic tape, an optical disk, or the like. The communication unit 308 is a device for communicating with an external device, for example, a device including an interface for connecting to a LAN based on the IEEE 802.3 standard. The display unit 310 is a device that presents the operation screen and processing results of the remote control device 100 to the user, such as a liquid crystal display. The input unit 312 is a device that receives input from the user, such as a keyboard or a mouse. A bus 314 electrically connects the above devices.

  With the above configuration, the remote control device 100 according to an embodiment of the present invention can transmit a remote lock signal to an information processing terminal located outside a predetermined area.

  The display unit 310 and the input unit 312 are optional components.

(2.2 Information processing terminal)
FIG. 4 illustrates a hardware configuration of the information processing terminal 120 (hereinafter, the information processing terminal 120 will be representatively described) according to an embodiment of the present invention. The information processing 110 includes a CPU 400, a RAM 402, a ROM 404, a first communication unit 406, a second communication unit 408, a positioning signal receiving unit 410, a display unit 412, an input unit 414, and a bus 416.

  CPU 400 executes a program for controlling the operation of information processing terminal 120. The RAM 402 constitutes a work area of the CPU 400 and the like. The ROM 404 stores a program executed by the CPU 400 and data necessary for executing the program. The first communication unit 406 is a device for communicating with an external device. For example, the first communication unit 406 is a device that performs communication according to a short-range wireless communication method such as ZigBee (registered trademark). The second communication unit 408 is a device for communicating with an external device. For example, the second communication unit 408 is a device that performs communication using a wireless LAN in accordance with the IEEE 802.11 standard. The positioning signal receiving unit 410 is a device for receiving a positioning signal transmitted by the communication device 140, and for example, receives a positioning signal in a frame format defined by the IMES standard. The display unit 412 is a device that displays the operation screen and processing result of the information processing terminal 120 to the user, such as a liquid crystal display. The input unit 414 is a device that receives input from the user, such as a keyboard, a mouse, a touch panel, and the like. A bus 416 electrically connects the above devices.

  With the above configuration, the information processing terminal 120 according to the embodiment of the present invention acquires position information using the positioning signal transmitted from the communication device 140 and transmits this position information to the position information management server 102. be able to. When the information processing terminal 120 receives a remote lock signal from the remote control device 100, the information processing terminal 120 can lock its function.

  The second communication unit 408 may be a communication device that can access the mobile phone communication network by a communication method such as 3G. Alternatively, the information processing terminal 120 may include both a communication device for wireless LAN communication and a communication device for 3G communication.

  In addition, the information processing terminal 120 may include additional hardware in order to realize the functions that the information processing terminal 120 has. For example, the information processing terminal 124 such as a printer may include an output unit for performing printing and a reading unit for reading a document. Additional hardware not shown in FIG. 4 may optionally be added.

(2.3 Communication device)
FIG. 5 illustrates a hardware configuration example of the communication devices 140 to 146 (hereinafter, the communication device 140 will be described as a representative) according to an embodiment of the present invention. The communication device 140 includes a CPU 500, a RAM 502, a ROM 504, a communication unit 506, a positioning signal transmission unit 508, and a bus 510.

  The CPU 500 executes a program that controls the operation of the communication device 140. The RAM 502 constitutes a work area of the CPU 500 and the like. The ROM 504 stores a program executed by the CPU 500 and data necessary for executing the program. The communication unit 506 is a device for communicating with an external device. For example, the communication unit 506 is a device capable of wireless communication according to a short-range wireless communication method such as ZigBee (registered trademark). The positioning signal transmission unit 508 is a device that transmits a positioning signal used by the wireless terminal 120 to acquire the current position. For example, the positioning signal transmission unit 508 transmits a positioning signal in a frame format defined by the IMES standard. More specifically, the positioning signal transmission unit 508 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 the antenna. A bus 510 electrically connects the above devices.

  With the above configuration, the communication device 140 according to an embodiment of the present invention can transmit a positioning signal necessary for the information processing terminals 120 to 126 to perform positioning. Further, communication between the information processing terminals 120-126 and the gateway 160 can be relayed.

(2.4 Gateway)
FIG. 6 shows a hardware configuration of the gateway 160 according to an embodiment of the present invention. The gateway 160 includes a CPU 600, a RAM 602, a ROM 604, a first communication unit 606, a second communication unit 608, and a bus 610.

  CPU 600 executes a program for controlling the operation of gateway 160. The RAM 602 constitutes a work area of the CPU 600 and the like. The ROM 604 stores a program executed by the CPU 600 and data necessary for executing the program. The first communication unit 606 is a device for communicating with an external device. For example, the first communication unit 606 is a device capable of wireless communication according to a short-range wireless communication method such as ZigBee (registered trademark). The second communication unit 608 is a device for communicating with an external device, for example, a device including an interface for connecting to a LAN based on the IEEE 802.3 standard. A bus 610 electrically connects the above devices.

  With the above configuration, the gateway 160 according to the embodiment of the present invention can manage the short-range wireless communication network 180 including the communication device 140 and the information processing terminals 120-126. Further, the gateway 160 can connect the short-range wireless communication network 180 and the network 190 to each other.

(3. Function)
Next, the configuration of functional blocks of the remote control device 100, the information processing terminal 120, the communication device 140, the gateway 160, and the location information management server 102 according to an embodiment of the present invention will be described using FIG. FIG. 7 shows elements that are particularly relevant to the description of the present embodiment among various elements included in these apparatuses. Moreover, in FIG. 7, the arrow which connects each means represents the flow of the typical information between each means. In particular, dashed arrows represent the flow of information between different devices. Hereinafter, the functions provided by the above configuration will be described by dividing them into “location information management function” and “remote lock setting function”.

(3.1 Location information management function)
First, a function for acquiring and managing position information of the information processing terminal 120 will be described. As described above, the position information is acquired when the information processing terminal 120 receives an outdoor positioning signal or an indoor positioning signal. When receiving the indoor positioning signal, the information processing terminal 120 can transmit the position information to the position information management server 102 using the network 180. When the information processing terminal 120 receives an outdoor positioning signal, the information processing terminal 120 can transmit the position information to the position information management server 102 using the network 190 or 192. Hereinafter, the case where the information processing terminal 120 acquires position information through an indoor positioning signal and the case where the information processing terminal 120 acquires position information through an outdoor positioning signal will be described separately.

(3.1.1 Acquisition of indoor location information)
First, the case where the information processing terminal 120 receives an indoor positioning signal and acquires position information will be described. Here, an example in which the indoor positioning signal is a positioning signal based on IMES will be described.

  The communication apparatus 140 according to an embodiment of the present invention includes a position information storage unit 700 and an indoor positioning signal transmission unit 702 (the relay unit 712 will be described later).

  The position information storage unit 700 stores position information indicating the position where the communication device 140 is installed. The position information can include, for example, information indicating latitude, longitude, and floor. The position information is set in advance by the administrator or the like for each communication device.

  The indoor positioning signal transmission unit 702 generates a positioning signal including the position information stored in the position information storage unit 700 and transmits it to the information processing terminal 120. The positioning signal can be constituted by a frame structure defined by the IMES standard.

  The information processing terminal 120 according to an embodiment of the present invention includes a positioning signal receiving unit 704, an indoor position information acquisition unit 706, an identification information storage unit 708, an indoor position information transmission unit 710, and a positioning signal identification unit 720.

  The positioning signal receiving unit 704 receives a positioning signal transmitted from a GPS satellite or the communication device 140. The positioning signal receiving means 704 passes the received positioning signal to the positioning signal identifying means 720 described later. Then, it is discriminated whether the positioning signal is an indoor positioning signal or an outdoor positioning signal, and the result is received. When the positioning signal receiving unit 704 receives a result indicating that the positioning signal is an indoor positioning signal from the positioning signal identifying unit 720, the positioning signal receiving unit 704 passes the positioning signal to the indoor position information acquisition unit 706.

  The indoor position information acquisition unit 706 acquires the position information from the positioning signal configured according to the IMES standard received by the positioning signal reception unit 704. The position information includes latitude, longitude, and floor information. The indoor position information acquisition unit 706 passes the acquired position information to the indoor position information transmission unit 710.

  The identification information storage unit 708 stores identification information of the information processing terminal 120. For example, the MAC address of the information processing terminal 120 can be used as the identification information.

  The indoor position information transmission unit 710 transmits the position information received from the indoor position information acquisition unit 706 and the identification information stored in the identification information storage unit 708 to the communication device 140. Here, these pieces of information can be relayed by the communication device 140 (or the communication devices 142-146) and the gateway 160 (via the network 180) and transmitted to the location information management server 102. The information processing terminal 120 transmits the position information and the identification information to the communication device 140 that is the transmission source of the positioning signal among a plurality of installed communication devices. Details of the relay processing in the communication device 140 and the gateway 160 will be described later. The position information and the identification information can be transmitted every time the information processing terminal 120 acquires the position information through the positioning signal. The positioning signal can be received, for example, in response to detection of a change in acceleration by a predetermined time, a constant interval, or an acceleration sensor (not shown) provided in the information processing terminal 120.

  The positioning signal identifying unit 720 receives the positioning signal from the positioning signal receiving unit 704 and identifies whether the positioning signal is an indoor positioning signal or an outdoor positioning signal. In order to perform such identification, a difference in the frame configuration of the positioning signal can be used. Specifically, as described in Appendix A 1.1.1.2.2.1 of the appendix of Non-Patent Document 1, identification of IMES and GPS positioning signals is performed by reading the preamble value of each frame. It can be performed.

  The communication device 140 according to an embodiment of the present invention further includes a relay unit 712.

  The relay unit 712 relays the position information and the identification information transmitted from the information processing terminal 120 to the position information management server 102 to another communication device and / or the gateway 160. The relayed information can be transmitted to the next node (communication device or gateway) based on the routing information stored in the communication device. The position information and identification information transmitted from the information processing terminal 120 are transmitted to the gateway 160 and then transmitted to the position information management server 102. The relay unit 712 can provide a function of a ZigBee router when the network 180 is configured by ZigBee (registered trademark).

  The gateway 160 according to an embodiment of the present invention includes a communication conversion unit 714 and manages the configuration of the network 180. The gateway 160 can provide a function as a ZigBee coordinator when the network 180 is configured by ZigBee (registered trademark).

  The communication conversion unit 714 converts data received from the communication devices 140 to 146 belonging to the network 180 into a format compatible with an external network (for example, the network 190 in FIG. 1), and converts the data into the location information management server 102. Send to.

  The location information management server 102 according to an embodiment of the present invention includes a location information receiving unit 716 and a location information storage unit 718.

  The position information receiving unit 716 receives the identification information and the position information transmitted from the information processing terminal 120. The received identification information and position information are passed to the position information storage means 718.

  The position information storage means 718 classifies the position information received from the position information receiving means 716 for each received identification information, and stores it. FIG. 8 shows an example of a location information management table that stores location information of the information processing terminal 120. The position information management table includes items of “date and time”, “latitude”, “longitude”, “floor”, and “positioning area”. “Date and time” stores the date and time when the position information is received from the information processing terminal 120. Alternatively, the date and time may store the date and time when the information processing terminal 120 acquires the position information. In this case, the date and time can be acquired separately from the information processing terminal 120. The information on “latitude”, “longitude”, and “floor” is information included in the position information received from the information processing terminal 120. The item “positioning area” is recorded as “indoor” when the position information received from the information processing terminal 120 is acquired from an indoor positioning signal, and is acquired from an outdoor positioning signal. If it is, it is recorded as “outdoor”. Whether the position information transmitted from the information processing terminal 120 is “indoor” or “outdoor” is specific to an indoor positioning signal such as “floor” in the position information. It can be determined depending on whether or not the above information is included. However, the present invention is not limited to this method. For example, the determination is made based on information such as an “indoor” or “outdoor” flag transmitted from the information processing terminal 120 together with position information and identification information. Also good. As described above, the position information management table illustrated in FIG. 8 is provided for each identification information of the information processing terminal, and can store the history of the position information within a certain period.

(3.1.2 Acquisition of location information outdoors)
Next, a case where the information processing terminal 120 receives outdoor positioning signals and acquires position information will be described. Here, an example in which the outdoor positioning signal is a positioning signal transmitted from a GPS satellite will be described.

  The information processing terminal 120 according to an embodiment of the present invention further includes an outdoor position information acquisition unit 722 and an outdoor position information transmission unit 724.

  As already described, the positioning signal receiving unit 704 receives the positioning signal transmitted from the GPS satellite or the communication device 140. The positioning signal receiving unit 704 passes the received positioning signal to the positioning signal identifying unit 720. Then, it is discriminated whether the positioning signal is an indoor positioning signal or an outdoor positioning signal, and the result is received. When the positioning signal receiving unit 704 receives a result indicating that the positioning signal is an outdoor positioning signal from the positioning signal identifying unit 720, the positioning signal receiving unit 704 passes the positioning signal to the outdoor position information acquiring unit 706.

  The outdoor position information acquisition unit 722 acquires the current position information (background coordinates) by calculation using the GPS positioning signal received by the positioning signal reception unit 704. The current position information can be calculated by obtaining the distance to each satellite using time information included in positioning signals transmitted from three or more GPS satellites. Details of the method for acquiring the current position using the GPS satellite are already widely known, and are omitted here. The position information acquired here includes latitude and longitude information. The outdoor position information acquisition unit 722 passes the acquired position information to the outdoor position information transmission unit 724.

  The outdoor position information transmission unit 724 transmits the position information received from the outdoor position information acquisition unit 722 and the identification information stored in the identification information storage unit 708 to the position information management server 102. Here, these pieces of information can be transmitted to the location information management server 102 via the network 190 or the network 192.

  The position information and identification information of the information processing terminal 120 transmitted in this way are received by the position information receiving means 716 of the position information management server 102 and stored in the position information storage means 718 as described above. When position information based on outdoor positioning signals is transmitted, “outdoor” information is recorded as the “positioning area”. Whether the location information transmitted from the information processing terminal 120 is “indoor” or “outdoor”, as described above, for example, indoors such as “floor” in the location information. It can be determined depending on whether or not specific information is included in the positioning signal.

  In addition, the information processing terminal 120 according to the embodiment of the present invention further includes an undetected state notification unit 726.

  The undetected state notifying unit 726 notifies the position information management server 102 that the positioning signal is not detected when the positioning signal receiving unit 704 cannot detect the positioning signal at a predetermined time or at a certain interval. Send to. The notification is transmitted via the network 190 or the network 192 and received by the location information receiving unit 716 of the location information management server 102. At this time, the location information storage unit 718 stores “date and time” when the location information management server 102 receives the notification (or “date and time” when the information processing terminal 120 transmits the notification). In addition, “undetected” information is recorded as the “positioning area”. On the other hand, no information is recorded in the position information (latitude, longitude, floor information).

  By managing the position information of the information processing terminal 120 by the above function, the remote control device 100 according to the embodiment of the present invention can monitor the position of the information processing terminal 120 through the position information management server 102. . In addition, the information processing terminal 120 transmits the position information acquired indoors through the PAN using the indoor positioning signal, so that the power consumption related to the communication of the information processing terminal 120 can be reduced.

(3.2 Remote lock setting function)
Next, a function of monitoring the position of the information processing terminal 120 and performing a remote lock on the information processing terminal 120 when the position indicates an area different from a predetermined area will be described.

  The remote control device 100 according to an embodiment of the present invention includes a monitoring unit 730, a device information storage unit 732, a position information acquisition unit 734, an indoor area specifying unit 736, an indoor area information storage unit 738, a remote lock condition storage unit 740, and a remote. It has a lock signal transmission means 742.

  The monitoring unit 730 periodically monitors the position information of the information processing terminal to be monitored, and when the position to which the information processing terminal belongs deviates from a predetermined position, the monitoring unit 730 remotely locks the terminal. Send a signal.

  The monitoring unit 730 first acquires the device information of the information processing terminal to be monitored from the device information storage unit 732. FIG. 9 illustrates an example of a device information management table that stores device information of an information processing terminal. The monitoring unit 730 acquires the device information (including “device number”, “device name”, and “identification information”) of the information processing terminal to be monitored from the device information storage unit 732, and the identification information will be described later. To position information acquisition means 734 to be transmitted. Then, from the position information acquisition unit 734, the position information (latitude, longitude, floor (when available)) of the information processing terminal and information accompanying this (information of the “positioning area” stored in the position information management server 102) Receive).

  Next, when the “positioning area” of the received position information of the information processing terminal is “indoor”, the monitoring unit 730 passes the position information to an indoor area specifying unit 736 described later. And the information (indoor area information) showing the name of the indoor area corresponding to the position information is received from the indoor area specifying means 736. As will be described in detail later, the position information and the indoor area information are associated in advance by an indoor area information table as shown in FIG.

Next, the monitoring unit 730 acquires the remote lock condition of the information processing terminal to be monitored from the remote lock condition storage unit 740 described later. Remote lock conditions for each information processing terminal to be monitored are defined in advance in the remote lock condition table as shown in FIG. The information that the monitoring unit 730 acquires about the information processing terminal to be monitored at the stage of acquiring the remote lock condition is as follows.
-Location information (latitude, longitude, floor (if available))
-Location information acquisition date-Positioning area ("indoor", "outdoor", "not detected")
-Indoor area information (if available)
In the example of the remote lock condition shown in FIG. 11, the remote lock condition is satisfied when the area to which the information processing terminal 120 belongs is “outdoor”. The remote lock condition is satisfied when the area to which the information processing terminal 122 belongs is other than “A4-S side”. In addition, the remote lock condition is satisfied when the floor represents a position other than “4” in the position information of the information processing terminal 124. Further, when the position information of the information processing terminal 126 is “not detected” or “outdoors”, the remote lock condition is satisfied.

  Then, the monitoring unit 730 instructs the remote lock signal transmission unit 742 described later to transmit the remote lock signal to the information processing terminal that satisfies the remote lock condition. At this time, the identification information of the information processing terminal acquired from the device information storage unit 732 is passed to the remote lock signal transmission unit 742 as transmission destination information of the remote lock signal.

  The device information storage unit 732 stores device information of the information processing terminal to be monitored. The device information is stored by, for example, a device information management table shown in FIG. In the device information management table, “device number” uniquely assigned to each information processing terminal, “device name” representing the name of the device, and “identification information” that can uniquely identify the information processing terminal on the network The item (for example, the MAC address of the information processing terminal) is stored. The device information is set in advance by the administrator of the remote control system 1.

  The position information acquisition unit 734 receives the identification information of the information processing terminal to be monitored from the monitoring unit 730. Next, position information (latitude, longitude, floor (when available)) specified by the identification information and other information (stored in the position information management server 102) are stored in the position information management server 102 from the position information storage unit 718. Information on the “positioning area” obtained). These pieces of information are stored in the position information management table shown in FIG. Then, the position information acquisition unit 734 passes the acquired information to the monitoring unit 730.

  The indoor area specifying unit 736 receives the indoor position information of the information processing terminal to be monitored from the monitoring unit 730. Next, with reference to the indoor area information table shown in FIG. 10 stored in the indoor area information storage means 738, the indoor area information corresponding to the position information is specified. Then, the specified indoor area information is passed to the monitoring unit 730.

  The indoor area information storage unit 738 stores an indoor area information table that associates indoor position information represented by latitude, longitude, and floor with an indoor area name representing the indoor area. FIG. 10 shows an example of the indoor area information table. The indoor area information table includes items of “indoor area name”, “east end”, “west end”, “south end”, “north end”, and “floor”. The “indoor area name” is a name representing an indoor area. “East end” and “West end” represent the boundary between the east side and the west side of the indoor area in longitude (east longitude). The “south end” and “north end” represent the boundary line between the south side and the north side of the indoor area in latitude (north latitude). That is, the indoor area defined in the indoor area information table can be defined as a rectangle. However, in this invention, it is not restricted to this point, For example, the indoor area | region of arbitrary shapes may be defined using the rectangle and curve which have five or more sides. According to FIG. 10, for example, the “A4-S side” area is an area of “4th floor” extending from north latitude “35.66630” to north latitude “35.66660” and east longitude “139.76520” to east longitude “139.76570”. I understand.

The remote lock condition storage unit 740 stores a remote lock condition for each information processing terminal. The remote lock condition is stored in, for example, a remote lock condition table shown in FIG. The remote lock condition table includes items of “device number” and “remote lock condition”. The “device number” is a unique number uniquely assigned to each information processing terminal, and is stored in the device information management table of the device information storage unit 732. The monitoring device 730 can refer to the remote lock condition of a desired information processing terminal using this device number. The “remote lock condition” is a condition used to determine whether or not to transmit a remote lock signal to the information processing terminal. The condition is expressed using information related to the position information of the information processing terminal. An example of the information is shown below.
-Location information (latitude, longitude, floor (if available))
-Location information acquisition date-Positioning area ("indoor", "outdoor", "not detected")
-Indoor area information (if available)
The method of describing the conditions is arbitrary, and a combination of a plurality of conditions by logical sum or logical product can also be used.

  In response to the instruction from the monitoring unit 730, the remote lock signal transmission unit 742 transmits the remote lock signal to the transmission destination (information processing terminal 120) specified by the identification information received from the monitoring unit 730. Information acquired when the location information management server 102 receives location information from each terminal can be used as connection information (for example, an IP address) necessary for transmitting a remote lock signal to a transmission destination. For example, the connection information may be stored as an additional item in the position information management table illustrated in FIG. 8 and acquired through the position information acquisition unit 730 of the remote control device 100. The remote lock signal is transmitted to the information processing terminal that is the transmission destination using the network 180, the network 190, and / or the network 192.

  The remote lock refers to a function for locking the information processing terminal system remotely via a network. By enabling this lock function, some or all of the functions are temporarily disabled in the information processing terminal. The remote lock signal is a signal transmitted to activate the remote lock, and its configuration depends on a system having a remote lock function. The present invention can use any remote lock system capable of locking an information processing terminal through a network such as the Internet, an intranet, or a cellular phone communication network.

  The information processing terminal 120 according to an embodiment of the present invention further includes a remote lock signal receiving unit 750, a remote lock control unit 752, and a lock release receiving unit 754.

  The remote lock signal receiving means 750 receives the remote lock signal transmitted from the remote control device 100. The received remote lock signal is passed to the remote lock control means 752.

  When receiving the remote lock signal, the remote lock control means 752 sets a lock on the function of the information processing terminal 120. Which function is locked depends on the function of the system of the information processing terminal 120. However, at least the user of the information processing terminal 120 cannot use the information processing terminal 120 as in the normal state when the lock is set. On the other hand, when the remote lock control means 752 receives an unlock password or an unlock signal from an unlock receiving means 754, which will be described later, the remote lock control means 752 releases the lock function.

  The unlock release accepting unit 754 accepts an unlock password that is input through an input unit (not shown) of the information processing terminal 120. The accepted unlock password is passed to the remote lock control means 752. In addition, the lock release reception unit 754 receives a lock release signal received via the network, and passes this signal to the remote lock control unit 752.

  With the above function, the remote control device 100 according to the embodiment of the present invention can transmit a remote lock signal to an information processing terminal belonging to an area other than the permitted area, and remotely set a lock. .

(4. Example of operation)
Next, an operation example of the remote control system 1 according to an embodiment of the present invention will be described with reference to FIGS.

  First, the processing of the information processing terminal 120 in one embodiment of the present invention and the processing flow of the remote control device 100 in one embodiment of the present invention will be described using FIGS.

  FIG. 12 is a flowchart illustrating processing in which the information processing terminal 120 according to an embodiment of the present invention receives a positioning signal, acquires position information, and transmits the position information to the position information management server 102. This process can be started, for example, at a predetermined time, every predetermined time, in response to an operation by the user, or in response to an instruction from an external device. The timing at which processing is performed is arbitrarily determined by the administrator of the remote control system 1.

  In step S1200, processing of information processing terminal 120 is started.

  In step S1202, if the positioning signal receiving unit 704 detects a positioning signal transmitted from a GPS satellite or the communication device 140, the process proceeds to step S1204. Otherwise, the process proceeds to step S1218.

  In step S <b> 1204, the positioning signal receiving unit 704 receives the positioning signal transmitted from the GPS satellite or the communication device 140.

  In step S1206, the positioning signal identifying unit 720 receives the positioning signal from the positioning signal receiving unit 704, and identifies whether the positioning signal is an indoor positioning signal or an outdoor positioning signal.

  If the positioning signal is an indoor positioning signal in step S1208, the process proceeds to step S1210. Otherwise, the process proceeds to step S1214.

  In step S <b> 1210, the indoor position information acquisition unit 706 acquires position information from the indoor positioning signal received by the positioning signal reception unit 704. The indoor positioning signal is a positioning signal according to the IMES standard, for example.

  In step S <b> 1212, the indoor position information transmission unit 710 transmits the position information received from the indoor position information acquisition unit 706 and the identification information stored in the identification information storage unit 708 to the position information management server 102. Here, these pieces of information can be relayed by the communication device 140 (or the communication devices 142-146) and the gateway 160 (via the network 180) and transmitted to the location information management server 102.

  In step S1214, the outdoor position information acquisition unit 722 acquires the current position information (latitude and longitude) by calculation using the GPS positioning signal received by the positioning signal reception unit 704.

  In step S 1216, the outdoor position information transmission unit 724 transmits the position information received from the outdoor position information acquisition unit 722 and the identification information stored in the identification information storage unit 708 to the position information management server 102. Here, these pieces of information can be transmitted to the location information management server 102 via the network 190 or the network 192.

  In step S <b> 1218, the undetected state notifying unit 726 transmits a notification that the positioning signal has not been detected to the position information management server 102. The notification is transmitted via the network 190 or the network 192 and received by the location information receiving unit 716 of the location information management server 102.

  In step S1220, the process of information processing terminal 120 ends.

  Through the above processing, the position information acquired by the information processing terminal 120 is stored in the position information management server 102. At this time, whether the position information is acquired by a positioning signal transmitted indoors or acquired by a positioning signal transmitted outdoors can be distinguished and stored. Furthermore, a state where the information processing terminal 120 cannot detect a positioning signal is also managed.

  FIG. 13 illustrates a process in which the remote control device 100 according to an embodiment of the present invention determines whether the area to which the information processing terminal 120 belongs is an allowed area, and transmits a remote lock signal when the area is not valid. It is a flowchart. This process can be performed at a predetermined time or at regular intervals. The timing at which processing is performed is arbitrarily determined by the administrator of the remote control system 1.

  In step S1300, processing of remote control device 100 is started.

  In step S1302, the monitoring unit 730 acquires the device information of the information processing terminal to be monitored from the device information management table (FIG. 9) of the device information storage unit 732. The device information includes “device number”, “device name”, and “identification information”.

  In step S <b> 1304, the monitoring unit 730 passes the identification information of one information processing terminal among the information processing terminals to be monitored to the position information acquisition unit 734. Then, the position information acquisition unit 734 receives the position information of the information processing terminal and information associated therewith (including information on the “positioning area” stored in the position information management server 102).

  If the “positioning area” of the position information of the information processing terminal is “indoor” in step S1306, the process proceeds to step S1308. Otherwise, the process proceeds to step S1310.

  In step S1308, the monitoring unit 730 passes the position information acquired in step S1304 to the indoor area specifying unit 736, and information indicating the name of the indoor area corresponding to the position information (indoor area) from the indoor area specifying unit 736 Information).

  In step S1310, the monitoring unit 730 refers to the remote lock condition of the information processing terminal stored in the remote lock condition storage unit 740.

  If the remote lock condition is satisfied in step S1312, the process proceeds to step S1314. Otherwise, the process proceeds to step S1316.

  In step S1314, the monitoring unit 730 causes the remote lock signal transmission unit 742 to transmit a remote lock signal to the information processing terminal that satisfies the remote lock condition.

  If it is determined in step S1316 that the processing has been completed for all the information processing apparatuses to be managed that have acquired the apparatus information in step S1302, the process proceeds to step S1318. Otherwise, the process returns to step S1304. And the process about the further information processing terminal is continued.

  In step S1318, the process ends.

  Through the above processing, the remote control device 100 according to the embodiment of the present invention sends a remote lock signal to the information processing terminal that satisfies the remote lock condition, that is, the information processing terminal taken out of the permitted area. Can be sent.

  Next, an example of the operation of the remote control system 1 according to an embodiment of the present invention will be described with reference to FIGS. In the present embodiment, description will be made based on the exemplary configuration of the information processing terminal 120 illustrated in FIGS. 1 and 8-11. The information processing terminal 120 (device number “# 001”, device name “smartphone 001”, identification information “002673abcdef01”) originally belongs to the area 10, that is, the “A4-S side” area, and is arranged on the ceiling. A positioning signal transmitted from the nearest communication device 140 is received. This positioning signal is a positioning signal conforming to the IMES standard.

  FIG. 14 illustrates an operation example in which the information processing terminal 120 transmits indoor position information to the position information management server 102 and an operation example in which a notification that a positioning signal cannot be detected is transmitted.

In step S1400, the indoor positioning signal transmission unit 702 of the communication device 140 continues to transmit a positioning signal including the following position information to a certain area.
-Latitude `` 35.66635 ''
-Longitude `` 139.76555 ''
-Floor "4"
In step S1410, the positioning signal receiving unit 704 of the information processing terminal 120 receives the positioning signal transmitted from the indoor positioning signal transmitting unit 702 of the communication device 140.

  In step S1412, the positioning signal identifying unit 720 of the information processing terminal 120 receives the positioning signal from the positioning signal receiving unit 704, and reads the value of the preamble of the frame constituting the positioning signal, so that the positioning signal becomes indoors. It is identified as a positioning signal for use.

In step S1414, the indoor position information acquisition unit 706 of the information processing terminal 120 acquires position information from the received positioning signal. The position information is included in a predetermined position in a frame constituting the positioning signal, which is defined according to the IMES standard, for example. In the present embodiment, the position information acquired by the information processing terminal 120 is as follows.
-Latitude `` 35.66635 ''
-Longitude `` 139.76555 ''
-Floor "4"
In step S 1416, the indoor position information transmission unit 710 of the information processing terminal 110 transmits the position information together with the identification information stored in the identification information storage unit 708 to the communication device 140. Here, the identification information (MAC address) of the information processing terminal 110 is as follows.
-Identification information “002673abcdef01”
In step S <b> 1418, the relay unit 712 of the communication device 140 relays the position information and identification information received from the information processing terminal 120 to the gateway 160.

  In step S1420, the communication conversion unit 714 of the gateway 160 converts the communication data transmitted from the network 180 to which the communication device 140 belongs to a format suitable for the network 190 such as a LAN.

  In step S <b> 1422, the position information receiving unit 716 of the position information management server 102 receives the position information and identification information of the information processing terminal 120 via the communication device 140 and the gateway 160.

In step S1424, the location information storage unit 718 of the location information management server 102 stores the received location information and identification information of the information processing terminal 120. At this time, the date and time when the location information management server 102 received the location information from the information processing terminal 120 is stored together. Further, since the position information received from the information processing terminal 120 includes “floor” information, it is determined that the position information is “indoor” and the information is stored as “positioning area”. To do. In the position information management table shown in FIG. 8, the item stored first from the top represents the information stored by the above operation. The contents are excerpted below.
-Date and time `` 2012/6/26 10:00:00 ''
-Latitude `` 35.66635 ''
-Longitude `` 139.76555 ''
−Floor “4”
-Positioning area "Indoor"
While the information processing terminal 120 is not moved, the position information represented by the positioning signal transmitted from the communication device 140 is stored in the position information management server 102 by the same processing as described above. As a result, an example of the stored position information is shown in the second item from the top in FIG. The contents are excerpted below.
-Date and time `` 2012/6/26 10:05:00 ''
-Latitude `` 35.66635 ''
-Longitude `` 139.76555 ''
−Floor “4”
-Positioning area "Indoor"
Through the above processing, the remote control system 1 according to the embodiment of the present invention can manage the location information of the user information processing terminal 110 and the wireless terminals 120-126. In particular, when positioning signals are received indoors, by collecting position information via the network 180 such as PAN, power consumption is usually kept low for information processing terminals that are often used indoors. be able to.

  Here, it is assumed that the information processing terminal 120 is taken out of the area 10 (“A4-S side”) and moved to an area where a positioning signal cannot be received by the user who uses the information processing terminal 120.

  In step S1450, when the positioning signal receiving unit 704 cannot detect the positioning signal after a predetermined time (for example, 5 minutes) has elapsed, the undetected state notifying unit 726 of the information processing terminal 120 indicates that the positioning signal has not been received. A notification of detection is transmitted to the location information management server 102.

In step S1452, the location information receiving unit 716 of the location information management server 102 that has received the notification stores the following information in the location information storage unit 718.
-Date and time `` 2012/6/26 10:10:00 ''
-Latitude "-"
-Longitude "-"
− Floor “-”
-Positioning area `` Not detected ''
An example of the stored position information is shown in the third item from the top in FIG.

  FIG. 15 illustrates an operation example of processing for monitoring the position of the information processing terminal 120 by the remote control device 100 and an operation example in which the information processing terminal 120 transmits outdoor position information to the position information management server 102. Represents. The following embodiment will be described assuming that the operation sequence shown in FIG. 14 described above starts after step S1452 (that is, the location information management table of the location information management server 102 has the date / time item “2012”). / 6/26 10:10:00 "is stored).

In step S1500, the monitoring unit 730 acquires the device information of the information processing terminal to be monitored from the device information management table (FIG. 9) of the device information storage unit 732. In the device information management table, device information of one or more information processing terminals to be monitored can be stored. In this embodiment, for the sake of brevity, the information processing terminal 120 whose device number is “# 001” will be representatively described. That is, the following device information of the information processing terminal 120 is acquired.
-Device number: "# 001"
-Device name: “Smartphone 001”
-Identification number: “002673abcdef01”
In step S1502, the monitoring unit 730 passes the identification information of the information processing terminal to the position information acquisition unit 734. Then, the position information acquisition unit 734 receives the position information of the information processing terminal and information associated therewith (including information on the “positioning area” stored in the position information management server 102). In the present embodiment, the following information stored in the position information management table of the position information management server 102 is acquired in step S1452 of FIG.
-Date and time `` 2012/6/26 10:10:00 ''
-Latitude "-"
-Longitude "-"
− Floor “-”
-Positioning area `` Not detected ''
Here, since the “positioning area” is “not detected”, the monitoring unit 730 does not acquire the indoor area information through the indoor area specifying unit 736.

In step S1504, the monitoring unit 730 refers to the remote lock condition (FIG. 11) of the information processing terminal stored in the remote lock condition storage unit 740, and uses the information acquired in step S1502, to determine the remote lock condition. Determine if it is satisfied. In the present embodiment, the remote lock condition of the information processing terminal 120, that is, the device number “# 001” is determined from the remote lock condition table shown in FIG.
"Positioning area" = "Outdoor"
It is. Therefore, it is not determined that the remote lock condition is satisfied, and the process is terminated without transmitting the remote lock signal. Thereafter, the monitoring unit 730 waits for a certain time.

  In step S1510, the positioning signal receiving unit 704 of the information processing terminal 120 receives positioning signals transmitted from a plurality of GPS satellites.

  In step S1512, the positioning signal identifying unit 720 receives the positioning signal from the positioning signal receiving unit 704 and reads the preamble value of the frame constituting the positioning signal, so that the positioning signal is an outdoor positioning signal. Identify it.

In step S <b> 1514, the outdoor position information acquisition unit 722 acquires the current position by calculation using the GPS positioning signal received by the positioning signal reception unit 704. The calculation can be performed by obtaining the distance to each satellite using time information included in positioning signals transmitted from three or more GPS satellites. Details of the method for acquiring the current position using the GPS satellite are already widely known, and are omitted here. In the present embodiment, it is assumed that the following position information (latitude and longitude) is calculated.
-Latitude `` 35.66650 ''
-Longitude `` 139.76555 ''
Unlike indoor location information, floor information is not acquired.

In step S1516, the outdoor location information transmission unit 724 transmits the location information acquired in step S1514 and the identification information stored in the identification information storage unit 708 to the location information management server 102. Here, these pieces of information can be transmitted to the location information management server 102 via the network 190 or the network 192.
-Identification information “002673abcdef01”
In step S1518, the location information storage unit 718 of the location information management server 102 stores the received location information and identification information of the information processing terminal 120. At this time, the date and time when the location information management server 102 received the location information from the information processing terminal 120 is stored together. Further, since the “floor” information is not included in the position information received from the information processing terminal 120, it is determined that the position information is “outdoor” and the information is stored as a “positioning area”. . In the position information management table shown in FIG. 8, the fourth item stored from the top represents the information stored by the above operation. The contents are excerpted below.
-Date and time `` 2012/6/26 10:15:00 ''
-Latitude `` 35.66650 ''
-Longitude `` 139.76555 ''
− Floor “-”
-Positioning area "Outdoor"
In step S1520, for example, after waiting for a certain time, the monitoring unit 730 acquires the device information of the information processing terminal to be monitored from the device information management table (FIG. 9) of the device information storage unit 732.

In step S1522, the monitoring unit 730 again acquires information from the position information acquisition unit 734. In the present embodiment, in step S1518, the following information stored in the position information management table of the position information management server 102 is acquired.
-Date and time `` 2012/6/26 10:15:00 ''
-Latitude `` 35.66650 ''
-Longitude `` 139.76555 ''
− Floor “-”
-Positioning area "Outdoor"
Here, since the “positioning area” is “outdoor”, the indoor area information is not acquired by the monitoring unit 730 through the indoor area specifying unit 736.

In step S1524, the monitoring unit 730 again refers to the remote lock condition (FIG. 11) stored in the remote lock condition storage unit 740 and determines whether the remote lock condition is satisfied using the information acquired in step S1502. To do. In this embodiment, the remote lock condition of the information processing terminal 120 (device number “# 001”) is based on the remote lock condition table shown in FIG.
"Positioning area" = "Outdoor"
It is. Therefore, the monitoring unit 730 determines that the remote lock condition is satisfied.

  In step S1528, the monitoring unit 730 causes the remote lock signal transmission unit 742 to transmit a remote lock signal to the information processing terminal that satisfies the remote lock condition. In this embodiment, upon receiving an instruction from the monitoring unit 730, the remote lock signal transmission unit 742 transmits a remote lock signal to the information processing terminal 120. The connection destination information (IP address) necessary for transmitting the remote lock signal to the information processing terminal 120 is acquired from the position information management server 102 that received the position information from the information processing terminal 120 in step S1516, for example. be able to.

  In step S1530, the remote lock signal receiving unit 750 of the information processing terminal 120 receives the remote lock signal transmitted from the remote control device 100. Then, when receiving the remote lock signal, the remote lock control means 752 sets a lock on the function of the information processing terminal 120.

  As described above, the remote control system 1 according to an embodiment of the present invention reduces the risk of information leakage by transmitting a remote lock signal to an information processing terminal in a different area from a predetermined area. can do.

In the remote lock condition table of FIG. 11, conditions other than the remote lock conditions described in the above embodiment are described. The conditions will be described below.
-The condition “indoor area name” set in the information processing terminal 122 of the device number “# 002”! = "A4-S side"
This condition is satisfied when the “indoor area name” of the information processing terminal 122 does not represent “A4-S side”. That is, when the positioning area of the information processing terminal 122 is “outdoor” or “undetected” or “indoor” but indicates another “indoor area name” (for example, “A4-N side”) ). By setting the conditions, take-out management can be performed in indoor area units.
-The condition “floor” set in the information processing terminal 124 of the device number “# 003”! = "4"
This condition is satisfied when the “floor” included in the position information of the information processing terminal 124 does not represent “4”. That is, the positioning area of the information processing terminal 122 is “outdoor” or “not detected”, or “indoor”, but indicates another “floor” (for example, “5”). By setting the conditions, it is possible to carry out carry-out management in units of indoor floors.
-Condition “positioning area” = “not detected” set in information processing terminal 126 of device number “# 004” | “outdoor”
This condition is satisfied when the “positioning area” included in the position information of the information processing terminal 126 is “not detected” or “outdoors”. By setting the conditions, it is possible to perform take-out management of an information processing terminal that is required to be installed indoors where a location can be specified without fail.

  In addition to the above conditions, the remote lock condition may be set using the position information of the information processing terminal or any information that can be acquired along with the position information. As a result, it is possible to carry out information terminal management more flexibly.

DESCRIPTION OF SYMBOLS 1 Remote control system 100 Remote control apparatus 102 Location information management server 120,122,124,126 Information processing terminal 140,142,144,146 Communication apparatus 160 Gateway 700 Position information storage means 702 Indoor positioning signal transmission means 704 Positioning signal reception means 706 Indoor position information acquisition means 708 Identification information storage means 710 Indoor position information transmission means 712 Relay means 714 Communication conversion means 716 Position information reception means 718 Position information storage means 720 Positioning signal identification means 722 Indoor position information acquisition means 724 Indoor position information acquisition means 724 Means 726 Undetected state notification means 730 Monitoring means 732 Device information storage means 734 Position information acquisition means 736 Indoor area specifying means 738 Indoor area information storage means 740 Remote lock condition storage means 742 Remote lock signal transmission means 7 0 Remote lock signal receiving unit 752 remote lock control unit 754 locks the cancel-accepting means

Japanese Patent Laid-Open No. 2007-074704 JP 2011-139484 A JP 2011-145873 A Japanese Patent No. 4296302

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

Claims (10)

A remote control device that transmits a control signal for limiting the functions of the information processing terminal to the information processing terminal,
Position information acquisition means for acquiring position information of the information processing terminal;
Transmitting means for transmitting the control signal to the information processing terminal when an area associated with the position information is not a predetermined area;
Having a remote control device. The area associated with the location information includes an outdoor or indoor area,
The remote control device according to claim 1. The position information is acquired by an outdoor positioning signal or an indoor positioning signal,
The position information acquired by the outdoor positioning signal represents an outdoor area,
The position information acquired by the indoor positioning signal represents an indoor area.
The remote control device according to claim 2. The indoor area represents an area of a section in a building.
The remote control device according to claim 3. The outdoor positioning signal is a positioning signal by GPS,
The indoor positioning signal is a positioning signal by IMES.
The remote control device according to claim 3 or 4. The indoor positioning signal is transmitted from a communication device installed in the indoor area,
The position information acquired by the position information acquisition means is position information transmitted from the information processing terminal via a relay means of the communication device.
The remote control device according to any one of claims 3 to 5. When the position information acquisition means cannot acquire the position information of the information processing terminal at a predetermined time, the transmission means transmits the control signal to the information processing terminal;
The remote control device according to any one of claims 1 to 6. The information processing terminal includes a mobile phone terminal, a projector or a printer,
The remote control device according to any one of claims 1 to 7. A remote control method executed by a remote control device that transmits a control signal for restricting the function of the information processing terminal to the information processing terminal,
A position information acquisition step of acquiring position information of the information processing terminal;
A transmission step of transmitting the control signal to the information processing terminal when an area associated with the position information is not a predetermined area;
Including a remote control method. A remote control system having an information processing terminal and a remote control device that transmits a control signal for limiting the function of the information processing terminal to the information processing terminal,
The remote control device is:
Position information acquisition means for acquiring position information of the information processing terminal;
Transmitting means for transmitting the control signal to the information processing terminal when an area associated with the position information is not a predetermined area;
Have
The information processing terminal
A remote control system comprising: control means for restricting a function of the information processing terminal in response to reception of the control signal.

Images