JP2018014723A - Information management system and surrounding environment management method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information management system that efficiently manages data related to a surrounding environment.SOLUTION: An information management system in the present invention is an information management system comprising a radio terminal and a management server that manages the position of the radio terminal. The radio terminal includes: surrounding environment detection means that detects surrounding environment information indicating an environment surrounding the terminal; position information receiving means that receives information on the position of the terminal; and transmission means that transmits, to the management server, the position information received by the position information receiving means and the surrounding environment information detected by the surrounding environment detection means. The management server includes storage means that stores the position information and the surrounding environment information transmitted from the radio terminal in association with each other.SELECTED DRAWING: Figure 14

Description

  The present invention relates to an information management system and an ambient environment management method.

  Conventionally, an environment management system for managing and monitoring the environment by measuring and managing data related to the surrounding environment such as temperature and humidity has been proposed.

  For example, Patent Literature 1 describes an environment monitoring system that uses various sensors attached to a moving object, measures an environment around the moving object, and acquires an environmental measurement value. As a result, environmental data can be collected, stored, managed, provided for each location, and the accuracy of the data must be ensured to a certain level or more, without having to install various sensors at each location. It is.

  However, in the system described in Patent Document 1, since a general wireless communication is assumed as a communication method between the sensor and the environment monitoring apparatus, the load of power consumption for sensor communication is large in some cases. There's a problem.

  The present invention has been made in view of such problems, and an object thereof is to provide an information management system or the like that efficiently manages data related to the surrounding environment.

  In order to solve the above-described problems and achieve the object, an information management system according to the present invention is an information management system including a wireless terminal and a management server that manages the position of the wireless terminal. Ambient environment detection means for detecting surrounding environment information indicating the surrounding environment condition of the terminal, a position information receiving means for receiving the position information of the terminal itself, the position information received by the position information receiving means, and the surrounding environment detection Transmitting means for transmitting the ambient environment information detected by the means to the management server, wherein the management server associates the location information transmitted from the wireless terminal with the ambient environment information. Storage means for storing;

  In addition, what applied the arbitrary combination of the component of this invention, expression, or a component to a method, an apparatus, a system, a computer program, a recording medium, etc. is also effective as an aspect of this invention.

  ADVANTAGE OF THE INVENTION According to this invention, the information management system etc. which manage the data regarding ambient environment efficiently can be provided.

The figure showing the location information management system (the 1) in one embodiment of the present invention. The figure showing the network which comprises the positional infomation management system in one Embodiment of this invention. The figure showing the location information management system (the 2) in one Embodiment of this invention. The hardware block diagram of the delivery apparatus in one Embodiment of this invention. The hardware block diagram of the radio | wireless terminal in one Embodiment of this invention. The hardware block diagram of the management apparatus in one Embodiment of this invention. The hardware block diagram of the management server in one Embodiment of this invention. The functional block diagram of the delivery apparatus in one Embodiment of this invention. The functional block diagram of the radio | wireless terminal in one Embodiment of this invention. The functional block diagram of the management apparatus in one Embodiment of this invention. The functional block diagram of the management server in one Embodiment of this invention. The figure showing the example of the information which the delivery apparatus in one Embodiment of this invention hold | maintains. The figure showing the example of the information which the radio | wireless terminal in one Embodiment of this invention hold | maintains. The figure showing the example of the format of the positional information which the radio | wireless terminal in one Embodiment of this invention transmits. The figure showing the example of the information which the management server in one Embodiment of this invention hold | maintains. The figure showing the operation | movement sequence of the positional infomation management system in one Embodiment of this invention. The figure showing the example of the search screen of the management server in one Embodiment of this invention. The figure showing the example of the search result screen of the management server in one Embodiment of this invention. The figure showing the radio | wireless terminal 120-2 hardware constitutions in this modification. The functional block diagram of the radio | wireless terminal 120-2 in this modification. The figure which shows an example of the surrounding environment information 336 in this modification. The figure which shows an example of the position management information 368-2 in this modification. The figure showing the operation sequence of position information management system 1-2 in this modification. The figure which shows an example (the 1) of control with respect to the to-be-controlled apparatus in this modification. The figure which shows an example (the 2) of control with respect to the to-be-controlled apparatus in this modification.

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

1. System 2. 2. Hardware configuration example Function 4. Operation sequence (1. System)
FIG. 1A shows a location information management system (part 1) according to an embodiment of the present invention. 1A includes a distribution apparatus 100, 102, 104, 106, wireless terminals 120, 122, 124, a management apparatus 140, a management server 160, a distribution apparatus, a wireless terminal, and a management apparatus. 180 and a network 190. Here, the network 180 is a wireless network managed by the management device 140. FIG. 1B shows the distribution apparatuses 100, 102, 104, and 106, the wireless terminals 120, 122, and 124, and the management apparatus 140 that constitute the wireless network in FIG. 1A.

  The distribution apparatuses 100, 102, 104, and 106 are fixed to, for example, the ceiling of a room, and position information (hereinafter referred to as “position information”) related to the fixed position, such as history information, building floor number, and building number. This is transmitted wirelessly continuously or intermittently. Each distribution apparatus has an independent housing and operates by being supplied with power from a pre-installed power source, or is incorporated in a lighting fixture such as an LED fluorescent tube and operates with power supplied from the lighting fixture. Distribution apparatuses 100, 102, 104, and 106 transmit the position information held by each of them to a predetermined range by a radio signal. The predetermined range is determined by the signal strength of the radio signal used. The distribution apparatus is arranged so as to cover an area that is a position management target, and is configured so that the respective areas do not overlap. Or even if it is a case where it overlaps, in the side which receives a positional information, it is comprised so that any one delivery apparatus can be determined based on the intensity | strength of a received radio wave. In the example of FIG. 1A, a conical dotted line shown below each distribution device represents a predetermined range. As a communication method for transmitting position information, for example, a ground complementary signal (Indoor Messaging System; IMES) can be used.

  The wireless terminals 120, 122, and 124 can receive a wireless signal transmitted by the nearest distribution device among the distribution devices 100, 102, 104, and 106. In the example of FIG. 1A, each wireless terminal is attached to a rectangular parallelepiped managed object that is a target whose position is to be managed. The wireless terminals 120, 122, and 124 are terminals that can transmit radio waves themselves, such as active tags. Hereinafter, the wireless terminal 120 will be described.

  The wireless terminal 120 is within a range in which a wireless signal from the distribution device 100 can be received, and receives position information from the distribution device 100. The reception of the position information from the distribution apparatus 100 is performed using IMES, for example. The wireless terminal 120 transmits information including its own identification information such as a network address to the distribution apparatus 100 together with the received position information. The transmission is performed through a network 180 by short-range wireless communication such as IEEE802.15.4 and ZigBee (registered trademark). In this case, IEEE802.15.4 abbreviated address or IEEE extended (MAC) address can be used as identification information of the wireless terminal 120. The identification information and position information transmitted to the distribution apparatus 100 are then transmitted to the management apparatus 140 via the adjacent distribution apparatus 102. The transmission / reception operation in the wireless terminal 120 is performed at a timing determined in advance in the wireless terminal 120 or at a timing when a change in acceleration by the acceleration sensor included in the wireless terminal 120 is detected.

  The management device 140 is a gateway that connects the network 180 and the network 190 to each other and bridges data transmitted from the network 180 side to the network 190. The management device 140 is installed, for example, for each floor of a building or for each room partitioned by walls. When the network 180 is a PAN (Personal Area Network) based on IEEE802.15.4 and ZigBee (registered trademark) and the network 190 is a LAN based on the IEEE802.3 standard, the communication system is converted between them. If the identification information of the wireless terminal 120 is represented by an IEEE 802.15.4 abbreviated address, it is converted into an IEEE extended address based on the information at the time of PAN configuration and transmitted to the management server 160.

  The management server 160 records the identification information and position information received via the management apparatus 140 together with the reception date and time, and manages the position of the distribution apparatus. In the management server 160, management objects related to wireless terminals are recorded in advance. Therefore, the location of the management target can be searched using these pieces of information.

  The network 180 connects each distribution apparatus 100, 102, 104, 106, the wireless terminals 120, 122, 124, and the management apparatus 140, for example, a PAN configured by IEEE802.15.4 and ZigBee (registered trademark) standards. It is. When the PAN is configured with IEEE802.15.4 and ZigBee (registered trademark) standards, the wireless terminal, the distribution device, and the management device each have an end device function, a router function, and a coordinator function defined by the ZigBee (registered trademark) standard. . Each distribution device and wireless terminal enters the management of the management device at the time of activation, forms a PAN, and determines the minimum path to the management device.

  The network 190 is a network that connects the management apparatus 140 and the management server 160, and is, for example, a LAN defined by the IEEE 802.3 standard.

  As described above, in the location information management system 1 according to an embodiment of the present invention, the wireless terminal can transmit the identification information and the location information to the management server using power that can be communicated with the nearest distribution device. it can. Further, it is not necessary to lay new infrastructure for installing the distribution apparatus, and the introduction cost can be reduced.

  The location information of the distribution device may be provided through the network 180. This eliminates the need for transmission means for transmitting position information such as IMES.

  In addition, the wireless terminal may transmit the identification information and the position information to the management apparatus 140 when the management apparatus exists in the vicinity of the distribution apparatus that transmitted the position information. Thereby, identification information and position information can be transmitted to the management server by the shortest path.

  Further, the management server function may be integrated into the management server. This eliminates the need for a separate management device.

  The wireless terminal may be a wireless terminal having a function equivalent to an active tag, such as a smartphone, PDA, PC, or smart meter. As a result, it is possible to manage the position information of the existing wireless terminal without attaching a tag.

  Further, in addition to the above-described position information, information for specifying a finer position, such as information representing a section in the room, may be included. As a result, finer location management is possible.

  The location management target may be a person. Thereby, the location of a person can be managed by the system 1.

  The network 180 may be configured using short-range wireless communication such as Bluetooth LE, ANT, Z-Wave, and the like. This makes it possible to manage position information of various wireless terminals.

  The network 190 may include a plurality of types of networks such as the Internet. This makes it possible to manage the location information of the wireless terminal regardless of the physical location between the network 180 and the management server 160.

  FIG. 1C shows a location information management system (part 2) according to an embodiment of the present invention. The position information management system 1 in FIG. 1C is a diagram in which the following points are added although the gist is the same as in FIG. 1A.

  1C includes a plurality of distribution devices (3a, 3b, 3c, 3d, 3e, 3f, 3g, 3h) on the ceiling β side of the indoor α and a plurality of wireless terminals on the floor side of the indoor α. (5a, 5b, 5c, 5d, 5e, 5f, 5g, 5h) and the management server 160.

  Further, each distribution device (3a, 3b, 3c, 3d, 3e, 3f, 3g, 3h) indicates a position where each distribution apparatus is installed (which means "installed position" after each installation). Position information (Xa, Xb, Xc, Xd, Xe, Xf, Xg, Xh) is stored, and each position information (Xa, Xb, Xc, Xd, Xe, Xf, Xg, Xh) is distributed.

  On the other hand, each wireless terminal (5a, 5b, 5c, 5d, 5e, 5f, 5g, 5h) has terminal identification information (Aa, Ab, Ac, Ad, Ae, Af, Ag, Ah) for identifying each. ) Is remembered. In addition, arbitrary identification information is shown as "identification information A" among several identification information. The identification information A includes a MAC address. Upon receiving the position information X from the distribution apparatus 3, each wireless terminal 5 transmits the position information X together with its own identification information A to the distribution apparatus 3.

  In addition, each distribution device 3 is built in an electric device (2a, 2b, 2c, 2d, 2e, 2f, 2g, 2h) installed on the ceiling β of the indoor α or attached to each of these external devices. ing. Hereinafter, an arbitrary electric device among the plurality of electric devices is referred to as “electric device 2”.

  Each electric device 2 supplies power to each distribution device 3. Among these, the electric equipment 2a is a fluorescent lamp type LED (Light Emitting Diode) lighting fixture. The electric device 2b is a ventilation fan. The electric device 2c is an access point for a wireless local area network (LAN). The electric device 2d is a speaker. The electric device 2e is an emergency light. The electric device 2f is a fire alarm or a smoke alarm. The electric device 2g is a surveillance camera. The electric device 2h is an air conditioner.

  Each electrical device 2 may be other than the one shown in FIG. 1C as long as it can supply power to each distribution device 3. For example, in addition to the example of the electric device 2, a general fluorescent or incandescent lighting fixture that is not an LED, a security sensor that detects an intruder from the outside, and the like can be given.

  On the other hand, each wireless terminal 5 is attached to the outside of the management object (4a, 4b, 4c, 4d, 4e) whose position is managed by the management server 160.

  Among these, the management target 4a is a bag. The management object 4b is a table. The managed object 4c is a projector. The managed object 4d is a video conference terminal. The management target 4e is an MFP (Multi Function Product) including a copy function. The management object 4f is a broom.

  In addition, since the management target 4g is a personal computer and the function of the wireless terminal 5 is installed in the personal computer, it is also the wireless terminal 5g in this case. Furthermore, the managed object 4h is a mobile phone such as a smartphone, and the function of the wireless terminal 5 is mounted in the mobile phone, and in this case, the managed object 4h is also the wireless terminal 5h. Hereinafter, an arbitrary management object among the plurality of management objects will be referred to as “management object 4”.

  Each management object 4 may be other than the object shown in FIG. 1C. For example, as other examples of the management object 4, a facsimile machine, a scanner, a printer, a copier, an electronic blackboard, an air cleaner, a shredder, a vending machine, a wristwatch, a camera, a game machine, a wheelchair, an endoscope, etc. Medical equipment.

  Next, an outline of an example of a location information management method using the location management system 1 will be described. In the present embodiment, for example, the distribution device 3a installed on the ceiling β of the indoor α distributes position information Xa indicating the position where the distribution device 3a is installed by wireless communication. Thereby, the wireless terminal 5a receives the position information Xa. Next, the wireless terminal 5a transmits identification information Aa and position information Xa for identifying the wireless terminal 5a to the distribution device 3a by wireless communication. In this case, the wireless terminal 5a sends back the position information Xa received from the distribution device 3a to the distribution device 3a.

  Thereby, the distribution apparatus 3a receives the terminal identification information Aa and the position information Xa. Next, the distribution device 3a transmits terminal identification information Aa and position information Xa to the gateway 140 by wireless communication. Then, the gateway 140 transmits terminal identification information Aa and position information Xa to the management server 160 via the LAN network 190. The management server 160 manages the terminal identification information Aa and the position information Xa, so that the administrator of the position information management system 1 can grasp the position of the wireless terminal 5a (managed object 4a) in the indoor α. .

  Further, among the wireless terminals 5, especially the wireless terminals (5g, 5h), as shown in FIG. 1C, in the outdoor γ, wireless signals (time information, orbit information, etc.) are transmitted from a GPS (Global Positioning System) satellite 999. And the position on the earth can be calculated. Then, the wireless terminals (5g, 5h) use a mobile communication system such as 3G (3rd Generation), 4G (4th generation), etc., to make a base station 8a, a mobile communication network 8b, a gateway 8c, the Internet 8d, and a LAN. Identification information (Ag, Ah) and position information (Xg, Xh) for identifying the wireless terminals (5g, 5h) can be transmitted to the management server 160 via the network 190.

  The communication network 8 is constructed by the base station 8a, the mobile communication network 8b, the gateway 8c, the Internet 8d, the LAN network 190, and the gateway 140. In addition, in order to measure the latitude and longitude on the earth, at least three GPS satellites are required (four are required when the altitude is included), but for simplicity, one GPS satellite is shown in FIG. 1C. Show.

(2. Hardware configuration example)
Next, the hardware configuration of the distribution device 100, the wireless terminal 120, the management device 140, and the management server 160 included in the location information management system 1 will be described with reference to FIGS. 2A, 2B, 2C, and 2D.

  FIG. 2A represents the hardware configuration of the distribution apparatus 100 according to an embodiment of the present invention. The distribution apparatus 100 includes a CPU 200, a RAM 202, a ROM 204, a position signal transmission unit 208, a wireless communication unit 212, and a bus 214.

  The CPU 200 executes a program that controls the operation of the distribution apparatus 100. The RAM 202 constitutes a work area of the CPU 200 and the like. The ROM 204 stores the position information of the distribution device 100 in addition to the program executed by the CPU 200. The position signal transmission unit 208 is an apparatus including an antenna that transmits a positioning signal representing position information such as IMES. The wireless communication unit 212 is a device that includes an antenna capable of transmitting and receiving radio waves conforming to the IEEE802.15.4 standard, for example. A bus 214 electrically connects the above devices.

  With the above configuration, the distribution apparatus 100 according to an embodiment of the present invention transmits position information to the wireless terminal 120, receives identification information and position information from the wireless terminal 120, and transmits these information via the management apparatus. Can be sent to the management server.

  As described above, the position signal transmission unit 208 is not required when the position information is transmitted by wireless communication.

  FIG. 2B shows a hardware configuration of the wireless terminal 120 according to an embodiment of the present invention. The wireless terminal 120 includes a CPU 220, a RAM 222, a ROM 224, a position signal reception unit 228, a wireless communication unit 232, an acceleration detection unit 236, and a bus 238.

  The CPU 220 executes a program that controls the operation of the wireless terminal 120. The RAM 222 constitutes a work area of the CPU 220 and the like. The ROM 224 stores identification information of the wireless terminal 120 and position information received from the distribution device 100 in addition to the program executed by the CPU 220. The position signal receiving unit 228 is a device including an antenna that receives a positioning signal representing position information such as IMES. The wireless communication unit 232 is a device that includes an antenna capable of transmitting and receiving radio waves conforming to, for example, IEEE 802.15.4 standard. The acceleration detection unit 236 is, for example, an acceleration sensor or a motion sensor using inertial force or magnetism, and detects a change in acceleration. A bus 238 electrically connects the above devices.

  With the above configuration, the wireless terminal 120 according to an embodiment of the present invention can receive position information from the distribution apparatus 100 and transmit its own identification information to the distribution apparatus 100 together with the position information. In particular, identification information and position information can be efficiently transmitted by performing a transmission or reception operation at a timing when the wireless terminal is moved.

  In addition, when the wireless terminal 120 is an information terminal such as a smartphone or a PC, an input device such as a touch panel, a dial key, a keyboard, or a mouse that receives input from the user may be provided. Further, a display device such as a screen may be provided.

  In addition, when the wireless terminal 120 includes a GPS antenna and a corresponding control unit, it is possible to receive a positioning signal by IMES using the antenna, and it is possible to correspond to the position information management system 1 only by software modification.

  The acceleration detection unit 236 is an arbitrary component. When the acceleration detection unit 236 is not provided, the transmission or reception operation of the wireless terminal 120 is performed at a predetermined interval or time.

  Further, as described above, when the position information is received by wireless communication, the position signal receiving unit 228 is not necessary.

  FIG. 2C shows the hardware configuration of the management apparatus 140 according to an embodiment of the present invention. The management device 140 includes a CPU 240, a RAM 242, a ROM 244, a wireless distribution device 248, a wired distribution device 252, and a bus 254.

  The CPU 240 executes a program that controls the operation of the management apparatus 140. The RAM 242 constitutes a work area of the CPU 240 and the like. The ROM 244 stores programs executed by the CPU 240 and data used by the programs. The wireless distribution device 248 is a device including an antenna capable of transmitting and receiving radio waves conforming to the IEEE802.15.4 standard, for example. The wired distribution device 252 is a device having a network interface that conforms to, for example, the IEEE 802.3 standard. A bus 254 electrically connects the above devices.

  With the above configuration, the management apparatus 140 according to an embodiment of the present invention can convert a signal from the network 180 including the distribution apparatus 100 and the wireless terminal 120 into a network 190 including the management server 160. When the network 180 configuring the PAN is ZigBee (registered trademark), it can have a coordinator function for managing devices participating in the PAN.

  FIG. 2D shows the hardware configuration of the management server 160 in one embodiment of the present invention. The management server 160 includes a CPU 260, a RAM 262, a ROM 264, an HDD 266, a communication unit 270, a display unit 274, an input unit 278, and a bus 280.

  The CPU 260 executes a program that controls the operation of the management server 160. The RAM 262 constitutes a work area for the CPU 260 and the like. The ROM 264 stores a program executed by the CPU 260 and data used by the program. The HDD 266 stores information for managing the position of the wireless terminal 120 used in the position information management system 1. The communication unit 270 is a device having a network interface that conforms to, for example, the IEEE 802.3 standard. The display unit 274 includes a display such as a liquid crystal display or a CRT display. The input unit 278 includes, for example, a keyboard and a mouse that accept input from the user. A bus 280 electrically connects the above devices.

  With the above configuration, the management server 160 in one embodiment of the present invention can manage the location of the wireless terminal 120 and search for the location of the wireless terminal 120.

  The HDD 266 may be any storage device including a tape drive, or may be a storage area accessible via a network.

  Further, the management server 160 may include a wireless distribution device included in the management device 140 described above, and may perform the processing instead of the management device 140. Thereby, it is not necessary to provide the management device 140 separately.

(3. Function)
FIG. 3A shows a functional block diagram of the distribution apparatus 100 according to an embodiment of the present invention. The distribution apparatus 100 according to an embodiment of the present invention includes a storage unit 300, a communication unit 304, and a control unit 312.

  The storage unit 300 stores the position information 302 of the distribution device 100. An example of a table for storing the position information 302 is shown in FIG. FIG. 4 includes items of floor number, latitude, longitude, and building number. The number of floors represents the number of floors of the building where the distribution apparatus 100 is installed. The latitude and longitude represent the latitude and longitude of the position where the distribution apparatus 100 is located. The building number represents the building number of the building where the distribution apparatus 100 is installed. In the example of FIG. 4, the distribution apparatus 100 is located on the 16th floor of a building C of a certain building, and is located at a point where the latitude is 35.459555 and the longitude is 139.3387110.

  The communication unit 304 includes a position information transmission unit 306, a terminal information reception unit 308, and a terminal information transmission unit 310.

  The position information transmitting unit 306 wirelessly transmits the position information 302 including information such as the history information, the number of floors of the building, and the building number continuously or intermittently to the wireless terminal 120 within a predetermined range. The position information 302 is transmitted using, for example, a format defined in IMES.

  The terminal information receiving unit 308 receives identification information and position information transmitted from the wireless terminal 120.

  The terminal information transmission unit 310 transmits the identification information and position information transmitted from the wireless terminal 120 to the management server 160 via the management device 140. When the network 180 is made using the ZigBee (registered trademark) standard, the transmission is performed using routing information held by the distribution apparatus 100.

  The control unit 312 controls the operation of the distribution device 100. When the distribution apparatus 100 configures a PAN using the wireless terminal 120 and the management apparatus 140 and ZigBee (registered trademark), the distribution apparatus 100 is controlled to provide a router function.

  With the above configuration, the distribution apparatus 100 according to an embodiment of the present invention holds the position information 302, transmits the position information 302 to the wireless terminal 120, receives the identification information and position information of the wireless terminal 120, and The identification information can be transmitted to the management server through the management device 140.

  Note that the position information 302 may include additional information such as a name of a building where the distribution apparatus 100 is installed and information indicating a section in the room. As a result, finer location management is possible.

  FIG. 3B shows a functional block diagram of the wireless terminal 120 in an embodiment of the present invention. The wireless terminal 120 according to an embodiment of the present invention includes a storage unit 320, a communication unit 326, an acceleration detection unit 332, and a control unit 334.

  The storage unit 320 stores and holds identification information 322 and position information 324. The identification information 322 includes information such as the network address of the wireless terminal 120 that can identify the wireless terminal 120 on the location information management system 1. For example, when the network 180 is based on the IEEE 802.15.4 and ZigBee (registered trademark) standards, an IEEE 802.15.4 abbreviated address or an IEEE extended (MAC) address can be used. The position information 324 is the position information 302 transmitted from the distribution apparatus 100. An example of a table for storing the position information 324 is shown in FIG. The configuration is the same as in FIG.

  The communication unit 326 includes a position information receiving unit 328 and an identification information transmitting unit 330.

  The position information receiving unit 328 receives the position information 302 transmitted from the distribution apparatus 100. The received position information 302 is held in the storage unit 320 of the wireless terminal 120.

  The identification information transmitting unit 330 transmits the position information 324 together with the identification information 322 of the wireless terminal 120 to the distribution apparatus 100. The position information 322 is transmitted to the wireless terminal 120 in a format as shown in FIG. 6, for example. In the format of FIG. 5, the floor, latitude, longitude, and building number fields are represented by 9 bits, 21 bits, 21 bits, and 8 bits, respectively, and the corresponding fields of the message received according to the IMES standard are connected. . The representation format of each field conforms to the IMES standard. Actually, in addition to this format, a header and checksum information defined by the communication method are added and transmitted. As a communication method, for example, IEEE802.15.4 and ZigBee (registered trademark) standards are used.

  The acceleration detection unit 332 detects a change in acceleration of the wireless terminal 120. The change in acceleration is detected, for example, when the wireless terminal 120 starts moving, when the movement stops, or when a tilt is detected. The detected change in acceleration is used to determine the timing of the transmission or reception operation of the wireless terminal 120. The acceleration detection means 332 is an arbitrary component.

  The control unit 334 controls the reception timing of the position information by the position information reception unit 328 and the transmission timing of the identification information 322 and the position information 324 by the identification information transmission unit 330. The transmission / reception timing is determined based on the detection of a change in acceleration by the acceleration detection means 332. Alternatively, it may be determined based on an interval or time preset in the wireless terminal 120. Also, transmission and reception timings may be determined independently of each other. Furthermore, when the wireless terminal 120 configures a PAN with ZigBee (registered trademark) together with the distribution apparatus 100 and the management apparatus 140, the control unit 334 controls the wireless terminal 120 to provide an endpoint function.

  With the above configuration, the wireless terminal 120 according to an embodiment of the present invention can efficiently receive location information from the distribution device and efficiently transmit identification information together with the location information to the distribution device.

  When the wireless terminal 120 is an information terminal such as a smartphone or a PC, an input unit that receives an input from the user or a display unit that presents information to the user may be provided. As a result, it is possible to present identification information or position information to the user and to input or modify identification information or position information from the user.

  FIG. 3C is a functional block diagram of the management apparatus 140 according to an embodiment of the present invention. The management apparatus 140 according to an embodiment of the present invention includes a communication unit 340, a conversion unit 346, and a control unit 348.

  The communication unit 340 includes a reception unit 342 and a transmission unit 344. The receiving unit 342 receives data transmitted from a distribution device or a wireless terminal belonging to the network 180. The transmission unit 344 transmits the data converted by the management apparatus 140 to the management server 160 belonging to the network 190. The network 180 is a PAN based on IEEE802.15.4 and ZigBee (registered trademark) standards, for example. The network 190 is a LAN based on the IEEE802.3 standard, for example.

  The converting unit 346 converts the data received by the receiving unit 342 from the network 180 into a format compatible with the network 190. The converted data is transmitted to the management server 160 via the network 190 by the transmission unit 344. Here, when the identification information of the wireless terminal 120 included in the data is represented by an IEEE 802.15.4 abbreviated address, it is converted into an IEEE extended address based on the information at the time of PAN configuration.

  The control unit 348 controls the operation of the management device 140. When the management apparatus 140 configures a PAN according to the ZigBee (registered trademark) standard together with the distribution apparatus 100 and the wireless terminal 120, the management apparatus 140 is controlled to provide a coordinator function.

  With the above configuration, the management apparatus 140 according to an embodiment of the present invention can bridge communication between the network 180 to which the distribution apparatus 100 and the wireless terminal 120 belong and the network 190 to which the management server belongs.

  FIG. 3D shows a functional block diagram of the management server 160 in one embodiment of the present invention. The management server 160 according to an embodiment of the present invention includes a communication unit 360, a storage unit 366, an input unit 370, a display unit 372, and a control unit 374.

  The communication unit 360 includes a reception unit 362 and a transmission unit 364. The receiving unit 362 receives the identification information and the position information transmitted from the wireless terminal through the management device 140. The received identification information and position information are stored in the storage means 366. When the transmission unit 364 is requested to provide location information to an external server or the like, the transmission unit 364 transmits the location information to the external server or the like.

  The storage unit 366 has location management information 368. The location management information 368 is information obtained by adding management information such as a reception time to the identification information and location information received from the wireless terminal 120. An example of a table storing the information is shown in FIG. FIG. 7 includes items of identification information, device name, owned department, latitude, longitude, floor number, building, and reception date and time. The identification information is information such as an IEEE extended address of the wireless terminal 120 that has transmitted the identification information. The latitude, longitude, number of floors, and building correspond to the positional information received together with the identification information. The reception date and time is the date and time when the management server 160 received the information. The device name is the name of the management target to which the wireless terminal 120 that transmitted the information is attached or the device name of the wireless terminal 120. The owned department is a department name that owns the wireless terminal 120 that has transmitted the information. Information on the device name and the owned department is associated with identification information by the management server 160 in advance.

  The input unit 370 accepts an input from the user so that the user searches for position information.

  The display unit 372 displays on the screen a GUI related to a search screen for the user to search for position information. An example of the search screen is shown in FIG. 9A. In the “location search system” shown in FIG. 9A, based on the information stored in the storage unit 366, the department and device name related to the wireless terminal are displayed in a list on the screen. When the user selects a check box of a device to be searched through the input unit 370, a check mark is added. When all the devices to be searched are checked and the “Execute Search” button is selected, the search is executed and the screen is switched to a result display screen. In the example of FIG. 9A, an example is shown in which the user performs a search for a device called “UCS P3000” owned by “Sales Section 1”. FIG. 9B is an example of the search result screen. When the “execute search” button is selected, the display unit 372 displays a floor plan of “A building 4th floor” where “UCS P3000” is located based on the data stored in the storage unit 366, the device name, Displays the reception date and time.

  The control unit 374 controls the operation of the management server.

  With the above configuration, the management server 160 according to an embodiment of the present invention can manage the location of the wireless terminal and search for the location. In particular, information representing the position of the wireless terminal itself can be directly received and managed, and the amount of calculation for searching for the position can be reduced.

  The management server 160 has the same functions as the conversion unit 346, the control unit 348, and the reception unit 342 included in the management device 140, and may have the same functions as the management device 140. This eliminates the need to provide the management device 140 separately.

  Further, the location management information 368 stored by the management server 160 includes the date and time when the wireless terminal transmits the information, the identifier of the distribution device or the management device, via the information shown in FIG. 7 or instead of the information, Information including time taken for arrival of information or electric field strength may be stored. Thereby, position information can be managed under more detailed conditions.

  In addition, the management server 160 may record past location information of the wireless terminal. Thereby, the movement of the wireless terminal can be tracked.

(4. Operation sequence)
FIG. 8 is a diagram showing an operation sequence of the location information management system 1 in the embodiment of the present invention in the configuration of FIG. In FIG. 8, the distribution apparatus 100 that transmits position information to a region to which the own apparatus belongs, receives position information from the distribution apparatus 100 when a change in acceleration is detected, and distributes the received position information and identification information of the own terminal. An example including a wireless terminal 120 that transmits data to 100, a management device 140 that bridges a PAN (IEEE802.15.4 and ZigBee (registered trademark)) and a LAN (IEEE802.3), and a management server 160 will be described. It is assumed that the PAN among the distribution apparatus 100, the wireless terminal 120, and the management apparatus 140 has already been established.

  In step S800, the distribution apparatus 100 transmits the position information continuously or intermittently using IMES or the like.

  In step S802, the wireless terminal 120 detects a change in acceleration.

  In step S804, when the wireless terminal 120 detects a change in acceleration, the wireless terminal 120 receives position information transmitted from the distribution apparatus 100.

  In step S806, the wireless terminal 120 stores the received position information.

  In step S808, the wireless terminal 120 transmits the identification information of the terminal itself and the received position information to the distribution apparatus 100.

  In step S810, the distribution apparatus 100 transmits the identification information and position information received from the wireless terminal 120 to the management apparatus through the minimum path.

  In step S812, the management apparatus 140 converts the data transmitted from the network 180 including the identification information and the position information received from the distribution apparatus 100 into a format compatible with the network 190.

  In step S <b> 814, the management apparatus 140 transmits the identification information and position information converted into a format compatible with the network 190 to the management server 160.

  In step S816, the management server 160 registers the identification information and the position information received from the management device together with information on the wireless terminal corresponding to the identification information.

  Through the above procedure, the location information management system 1 according to the embodiment of the present invention efficiently transmits the identification information and the location information to the nearest distribution device by the wireless terminal, thereby reducing the power consumption of the wireless terminal. Can be suppressed.

  As described above, the management server 160 may execute the functions of the management apparatus 140 in an integrated manner. In this case, it is not necessary to install a separate management device 140.

  If the wireless terminal does not include the acceleration detection unit 332, step S802 is not executed, and the reception of the position information in step S804 can be performed at a predetermined time or at a predetermined interval. The subsequent processing is the same as steps S806 to S816.

[Modification]
Next, a modification regarding the wireless terminal 120 will be described based on the above-described embodiment. Hereinafter, the wireless terminal 120-2 as a modification of the wireless terminal 120 will be referred to, but the present invention can be similarly applied to the above-described wireless terminals 122 and 124 which are wireless terminals.

(Hardware configuration example of wireless terminal 120-2)
FIG. 10 shows a hardware configuration of the wireless terminal 120-2 in the present modification. Compared with FIG. 2B, the wireless terminal 120-2 includes an ambient environment detection unit 239 in addition to the CPU 220, RAM 222, ROM 224, position signal reception unit 228, wireless communication unit 232, acceleration detection unit 236, and bus 238. Hereinafter, different points will be mainly described.

  The surrounding environment detection unit 239 is a sensor that detects an environment value related to the surrounding environment of the wireless terminal 120-2, and detects the environment value of the surrounding environment and its change. Specifically, the ambient environment detection unit 239 includes, for example, a temperature sensor, a humidity sensor, an illuminance sensor, an odor sensor (for example, a gas sensor), a human sensor, an atmospheric pressure sensor, a contact sensor, a radiation sensor, an acoustic (sound sensor) sensor, and an electromagnetic wave sensor. And so on.

  For example, when the ambient environment detection unit 239 is a temperature sensor, the ambient temperature of the wireless terminal 120 is detected and the temperature value is acquired.

  For example, when the surrounding environment detection part 239 is a humidity sensor, the humidity around the wireless terminal 120 is detected and the humidity value is acquired.

  For example, when the surrounding environment detection unit 239 is an illuminance sensor, the illuminance around the wireless terminal 120 is detected and the illuminance value is acquired.

  For example, when the surrounding environment detection part 239 is an odor sensor (for example, gas sensor), the odor (for example, gas odor) around the wireless terminal 120 is detected, and the odor value is acquired.

  In addition, for example, when the surrounding environment detection unit 239 is a human sensor, the presence or absence of human detection around the wireless terminal 120 is detected, and the human detection value (for example, 0 when not detected, 1 when detected) is acquired. .

  For example, when the surrounding environment detection unit 239 is an atmospheric pressure sensor, the atmospheric pressure around the wireless terminal 120 is detected and the atmospheric pressure value is acquired.

  For example, when the surrounding environment detection unit 239 is a contact sensor, the presence / absence of contact with the wireless terminal 120 is detected, and the contact value (for example, 0 when not detected, 1 when detected) is acquired.

  For example, when the surrounding environment detection part 239 is a radiation sensor, the surrounding radiation of the radio | wireless terminal 120 is detected and the radiation value is acquired.

  Further, for example, when the ambient environment detection unit 239 is an acoustic (sound sensor) sensor, the acoustic around the wireless terminal 120 is detected and the acoustic value (volume value) is acquired.

  For example, when the surrounding environment detection part 239 is an electromagnetic wave sensor, the electromagnetic wave around the wireless terminal 120 is detected and the electromagnetic wave intensity value is acquired.

  The above sensor is merely an example. Therefore, another sensor that detects an environmental value related to the environment around the wireless terminal 120 may be used. The ambient environment detection unit 239 can include at least one, a plurality, or all of the above sensors.

(Function of the wireless terminal 120-2)
FIG. 11 is a functional block diagram of the wireless terminal 120-2 in the present modification. Compared with FIG. 3B, the wireless terminal 120-2 includes an ambient environment detection unit 333 in addition to the storage unit 320, the communication unit 326, the acceleration detection unit 332, and the control unit 334. Further, the storage unit 320 stores ambient environment information 336 in addition to the identification information 322 and the position information 324.

  The ambient environment detection unit 333 is realized by the ambient environment detection unit 239 described above, and detects an environment value indicating the status of the ambient environment at every predetermined acquisition interval. Specific environmental values of the surrounding environment include, as described above, a temperature value, a humidity value, an illuminance value, an odor value, a human value, an atmospheric pressure value, a contact value, a radiation value, an acoustic value, an electromagnetic wave intensity value, and the like.

(Example of ambient environment information)
FIG. 12 shows an example of the ambient environment information 336 in this modification. The ambient environment information 336 is an environment value detected and acquired by the ambient environment detection unit 333. The ambient environment detection unit 333 stores the environment value obtained by detecting the environment value of the ambient environment as ambient environment information 336 in the storage unit 320.

  In the ambient environment information 336 shown in FIG. 12, temperature, humidity, illuminance, odor, human feeling, atmospheric pressure, contact, radiation, and the like are stored as environment values detected and acquired by the ambient environment detection unit 333. According to the ambient environment information 336, at this time, in the environment around the wireless terminal 120-2, the temperature is 25 degrees, the humidity is 50%, the illuminance is 50 lx, no human feeling, the atmospheric pressure is 1020 hpa, no contact, the radiation is 0. It turns out that it is 001Sv, sound 60dm, and electromagnetic wave intensity -50dBm.

  The ambient environment information 336 is merely an example. The environmental value stored here differs depending on the environmental value detected by the ambient environment detection unit 239. Further, the ambient environment information 336 is information detected by the sensor, and thus can be said to be sensing information.

(Example of location management information of the management server 160)
Here, FIG. 3D is referred again. As described above, the storage unit 366 of the management server 160 has the position management information 368. The location management information 368 is information obtained by adding management information such as a reception time to the identification information and location information received from the wireless terminal 120-2.

  FIG. 13 shows an example of the location management information 368-2 in this modification. Compared to FIG. 7, the position management information 368-2 according to the present modification includes wireless information in addition to identification information, position information, reception time, etc. received from the wireless terminal 120-2 at predetermined intervals or times. The ambient environment information 336 received from the terminal 120-2 is included.

  The management server 160 receives the ambient environment information 336 from the wireless terminal 120-2 via the distribution device 100. Then, as the position management information 368-2, the received ambient environment information 336 (for example, temperature, humidity, illuminance, odor, human feeling, atmospheric pressure, contact, radiation, sound, electromagnetic wave intensity, etc.) is transmitted from the wireless terminal 120-2. Are added together with identification information, position information, and reception time.

  As a result, the management server 160 refers to the location management information 368-2, and in addition to the location of the wireless terminal 120-2, the environment value related to the surrounding environment of the wireless terminal 120-2 is determined in real time (more accurately, , Every predetermined interval or time).

(Operation sequence)
FIG. 14 is a diagram illustrating an operation sequence of the location information management system 1-2 in the present modification. Compared to FIG. 8, in this modification, when the wireless terminal 120-2 receives position information from the distribution apparatus 100, the distribution apparatus displays the received position information and identification information of its own terminal together with the detected environment value related to the surrounding environment. The operation of transmitting to 100 is performed. The same steps as those in FIG. 8 are assigned the same step numbers as they are.

  In step S800, the distribution apparatus 100 transmits the position information continuously or intermittently using IMES or the like.

  In step S802, the wireless terminal 120-2 detects a change in acceleration.

  In step S804, when the wireless terminal 120-2 detects a change in acceleration, the wireless terminal 120-2 receives position information transmitted from the distribution apparatus 100.

  In step S806, the wireless terminal 120-2 receives and stores the position information.

  In step S807-1, the wireless terminal 120-2 (ambient environment detection unit 333) detects the environmental value of the ambient environment. The timing for detecting the environmental value of the surrounding environment may be synchronized with the reception timing of the position information from the distribution apparatus 100. After that, since the position information is transmitted to the distribution apparatus 100, the environment value of the surrounding environment can be transmitted together with the position information.

  In step S807-2, the wireless terminal 120-2 stores the detected environment value of the surrounding environment as the surrounding environment information 336 (for example, FIG. 12).

  In step S808-2, the wireless terminal 120-2 transmits the surrounding environment information 336, which is the detected environment value of the surrounding environment, to the distribution apparatus 100 in addition to the identification information of the terminal itself and the received position information.

  In step S810-2, the distribution apparatus 100 transmits the ambient environment information 336 to the management apparatus through the minimum path in addition to the identification information and the position information received from the wireless terminal 120.

  In step S812-2, the management apparatus 140 converts the data transmitted from the network 180 including the surrounding environment information 336 in addition to the identification information and position information received from the distribution apparatus 100 into a format compatible with the network 190. .

  In step S <b> 814-2, the management apparatus 140 transmits the identification information, the position information, and the surrounding environment information 336 converted into a format compatible with the network 190 to the management server 160.

  In step S816-2, the management server 160 registers the ambient environment information 336 together with the information on the wireless terminal corresponding to the identification information in addition to the identification information and the position information received from the management device 140 (for example, FIG. 13).

  With the above procedure, the location information management system 1-2 in the present modification allows the radio terminal to efficiently transmit identification information, location information, and ambient environment information to the nearest distribution device, so that the radio terminal Power consumption can be reduced. In addition, the management server can manage values (data values) related to the environment around the wireless terminal, together with the position information of the wireless terminal, based on the surrounding environment information.

(About usage examples of ambient environment information)
As described above, in the present modification, the management server 160 includes the location information of the wireless terminal 120-2 and the environment in the wireless terminal 120-2, that is, the environment at the location specified by the location information of the wireless terminal 120-2. Can be managed. Therefore, the management server 160 can control various controlled devices via a network or the like based on the ambient environment information 336 of the wireless terminal 120-2. Hereinafter, a specific usage example will be described.

  FIG. 15 shows an example (part 1) of control for the controlled device in the present modification. As shown in FIG. 15, for example, when the temperature value is determined to be inappropriate at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, Can be instructed to control the temperature at the position (point) to an appropriate temperature value.

  For example, when the humidity value is determined to be inappropriate at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, controls the air conditioning management system (non- (Shown) can be instructed to control the humidity at that position (point) to an appropriate humidity value.

  Further, for example, when the illuminance value is determined to be inappropriate at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, controls the lighting management system (non- The illuminance at that position (point) can be instructed to be controlled to an appropriate illuminance value.

  Further, for example, when the odor value is determined to be inappropriate (abnormal) at a position (for example, a construction site or a laboratory) specified by the position information of the wireless terminal 120-2, the management server 160 For example, it is possible to instruct an air conditioning management system or a ventilation device (not shown) as a controlled device to control the odor at the position (point) to an appropriate odor value.

  Further, for example, when a human feeling is detected at a position (for example, a restricted entry area) specified by the position information of the wireless terminal 120-2, the management server 160, for example, (Not shown) can be instructed to control the execution of security, warning, notification, etc. at that position (point).

  For example, when it is determined that the atmospheric pressure value is inappropriate (abnormal) at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, manages the atmospheric pressure as the controlled device. A system (not shown) can be instructed to control the pressure at that position (point) to an appropriate pressure value.

  Further, for example, when contact is detected at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, for a security system (not shown) as a controlled device, It is possible to instruct to control the execution of location (point) security, warning, notification, etc.

  Further, for example, when the radiation value is determined to be inappropriate (abnormal) at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, the security system as the controlled device (Not shown) can be instructed to control the execution of security, warning, notification, etc. at that position (point).

  Further, for example, when the sound value (volume value) is determined to be inappropriate (corresponding to the noise level) at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, A security system (not shown) as a control device can be instructed to control the execution of alarms, notifications, improvement instructions, etc. at the position (point).

  Further, for example, when the electromagnetic wave value is determined to be inappropriate (abnormal) at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, the security system as the controlled device (Not shown) can be instructed to control the execution of security, warning, notification, etc. at that position (point).

  In addition, for example, when the wireless terminal 120-2 is attached to the patient's arm or the like and the surrounding environment detection unit 239 included in the wireless terminal 120-2 is a pulse sensor, the pulse from the patient's arm or the like. The value is detected, and the pulse is acquired by the surrounding environment detection control unit 237. If the pulse value is determined to be inappropriate (abnormal) at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, The system (not shown) can be notified to the medical staff or the like of the detection of abnormal pulse value along with the patient name and its location.

  Further, for example, when the wireless terminal 120-2 is installed not only in the space as described above but also in the water surface such as a sluice or underwater, the surrounding environment detection unit 239 can be a flow velocity sensor. In this case, the surrounding environment detection unit 239 of the wireless terminal 120-2 detects the flow velocity of the water flow or the air current flowing around the wireless terminal 120-2, and acquires the flow velocity value (m / s). When the flow rate value is determined to be inappropriate (abnormal) at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, (Not shown) can be instructed to control the execution of security, warning, notification, etc. at that position (point).

  Further, for example, when the wireless terminal 120 is not only installed alone as described above but also attached to an electric device or a power strip, the ambient environment detection unit 239 can be a power sensor. In this case, the power of the electrical device or power strip attached to the wireless terminal 120 is detected, and the power value (W) is acquired. When the power value is determined to be inappropriate (abnormal) at the position specified by the position information of the wireless terminal 120-2, the management server 160, for example, the device management system as the controlled device (Not shown) can be instructed to control the execution of alarms, notifications, etc. of the position (point).

  There are other usage examples as follows. FIG. 16 shows an example (part 2) of control on the controlled device in the present modification. As described above, the wireless terminal 120-2 may not be the active tag itself, but may be a mobile terminal 120-3 having a function equivalent to that of the active tag, such as a smartphone, a PDA, a PC, or a smart meter. Thereby, the position information of the portable terminal 120-3 can be managed without attaching an active tag to an object whose position is to be managed.

  Moreover, since the portable terminal 120-3 has the surrounding environment detection means 333, it can detect the environmental value of surrounding environment (for example, S807-1 of FIG. 14). Moreover, since the portable terminal 120-3 is normally provided with a display etc., the detected environmental value of the surrounding environment can be displayed on a display. Thereby, the user can grasp and manage the surrounding environment around him / her in real time using the portable terminal 120-3.

  In some cases, the portable terminal functions only as the wireless terminal 120 that does not include the surrounding environment detection unit 333, that is, does not include various sensors. In the case of such a portable terminal 120-4, the portable terminal 120-4 transmits the positional information received from the distribution apparatus 100 and its own identification information to the distribution apparatus 100 as shown in FIG. Are transmitted to the management server 160.

  The management server 160 compares the position information of the portable terminal 120-4 with the position information of the wireless terminal 120-2 having the surrounding environment detection unit 333, and if the two pieces of position information match, the portable terminal 120-4 is wireless. It is determined that the mobile terminal 120-2 is located at the position specified by the position information of the terminal 120-2, the surrounding environment information 336 of the wireless terminal 120-2 is transmitted to the mobile terminal 120-4, and the display (display means) of the mobile terminal 120-4 Then, control is performed to display the transmitted ambient environment information 336. Thereby, even if the portable terminal 120-4 does not have the surrounding environment detection means 333, the user can grasp and manage the surrounding environment around him in real time using the portable terminal 120-4. It is.

  Of course, in addition to always displaying the ambient environment information 336, the ambient environment information 336 may be displayed only when the value is a predetermined value or exceeds a predetermined threshold according to the value of the ambient environment information 336. . This is because when the ambient environment information 336 is a predetermined value or exceeds a predetermined threshold, the degree of urgency to be notified to the user is considered high.

  As described above, the wireless terminal 120-2 in the present modification detects the environmental value related to the surrounding environment of the wireless terminal, and transmits the surrounding environment information 336 in addition to the position information received from the distribution apparatus 100 and its own identification information. To do.

  As a result, the management server 160 refers to the location management information 368-2 including the ambient environment information 336, so that in addition to the location of the wireless terminal 120-2, the environment value related to the ambient environment of the wireless terminal 120-2 is real-time. (More precisely, at predetermined intervals or times). Since the wireless terminal 120-2 can be realized by an active tag or the like as described above, the user can easily add the active tag to the target object whose position is to be managed, and easily change the surrounding environment of the target object. Can be managed.

  Moreover, since the management server 160 in this modification can manage the environment at the position specified by the position information of the wireless terminal 120-2 together with the position information of the wireless terminal 120-2, the surrounding environment of the wireless terminal 120-2 Based on the information 336, various controlled devices can be controlled via a network or the like.

[Summary]
As described above, according to this embodiment, it is possible to provide a position information management system that efficiently manages position information. Note that the present invention is not limited to such specific embodiments, and various modifications and changes can be made within the scope of the gist of the present invention described in the claims.

100, 102, 104, 106 Distribution device 120, 122, 124 Wireless terminal 140 Management device 160 Management server 180 Network 190 Network

JP 2012-098901 A

Claims (2)

An information management system including a wireless terminal and a management server that manages the position of the wireless terminal,
The wireless terminal is
Ambient environment detection means for detecting ambient environment information indicating the surrounding environment status of the terminal,
Position information receiving means for receiving position information of the terminal itself;
Transmitting means for transmitting the position information received by the position information receiving means and the surrounding environment information detected by the surrounding environment detecting means to the management server;
The management server has storage means for storing the location information transmitted from the wireless terminal in association with the surrounding environment information;
An information management system characterized by A surrounding environment management method in an information management system including a wireless terminal and a management server for managing the position of the wireless terminal,
The wireless terminal is
Ambient environment detection procedure for detecting ambient environment information indicating the surrounding environment status of the terminal,
A location information receiving procedure for receiving location information of the own terminal;
A transmission procedure for transmitting the location information received in the location information reception procedure and the ambient environment information detected in the ambient environment detection procedure to the management server;
Run
The management server has storage means for storing the location information transmitted from the wireless terminal in association with the surrounding environment information;
Environmental management method characterized by

Images