JP2014059780A - Alarm system, alarm method, and alarm management device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To operate an alarm device adequately.SOLUTION: An alarm system includes: a plurality of alarm devices installed in a predetermined position; and an alarm management device to operate the plurality of alarm devices. The alarm management device includes: a position information acquiring means to acquire location information of a terminal; and an alarm device determination means to determine an alarm device to be operated among the plurality of alarm devices, corresponding to the location information of the terminal obtained by the position information acquiring means.

Description

  The present application relates to an alarm system, an alarm method, and an alarm management device.

  Conventionally, an alarm system that activates an alarm device when a disaster such as an earthquake or a fire occurs is known. When such a disaster occurs, it is difficult to grasp the locations of people who have not been evacuated indoors, such as offices and department stores. For this reason, conventionally, there has been known a method of providing a human sensor and controlling the sensitivity of the human sensor for generating an alarm signal to be high when the presence of a moving person is not sensed (for example, , See Patent Document 1).

  However, in the conventional method as described above, a human sensor is simply provided to detect the presence of a moving person and control the sensitivity to generate an alarm signal. Therefore, in the conventional method, it is difficult to grasp the location of a person who has not been evacuated and to appropriately operate an alarm device near the person who has not been evacuated.

  The disclosed technology has been made in view of the above-described problems, and an object thereof is to provide an alarm system, an alarm method, and an alarm management device that appropriately operate an alarm device.

  According to one aspect of the present invention, in order to achieve the above object, the alarm system includes a plurality of alarm devices installed at predetermined positions and an alarm management device that operates the plurality of alarm devices. The alarm management device determines the alarm device to be activated among the plurality of alarm devices in correspondence with the location information acquisition means for acquiring the location information of the terminal and the location information of the terminal obtained by the location information acquisition means. And an alarm device determining means.

  According to the disclosed technology, it is possible to appropriately activate the alarm device.

It is a figure which shows an example of schematic structure of a positional information management system. It is a figure which shows an example of the network which comprises a positional infomation management system. It is a figure which shows an example of schematic structure of the alarm system which concerns on this embodiment. It is a figure which shows an example of the functional block of the radio | wireless transmitter which concerns on this embodiment. It is a figure which shows an example of the functional block of the radio | wireless terminal which concerns on this embodiment. It is a figure which shows an example of the functional block of the management server which concerns on this embodiment. It is a figure which shows an example of the functional block of the alarm controller which concerns on this embodiment. It is a figure which shows an example of the hardware constitutions of the radio | wireless transmitter which concerns on this embodiment. It is a figure which shows an example of the hardware constitutions of the radio | wireless terminal which concerns on this embodiment. It is a figure which shows an example of the hardware constitutions of a management server or an alarm controller. It is a figure which shows an example of the alarm device action | operation sequence which concerns on this embodiment. It is a flowchart which shows the flow of an actuator list generation process. It is a figure which shows an example of the table which the alarm controller which concerns on this embodiment hold | maintains. It is a figure which shows the example of a screen of the display means which concerns on this embodiment.

  Hereinafter, embodiments according to the disclosed technology will be described in detail. In the embodiment described below, an example of an alarm system realized by applying a position information management system that manages position information of a person, an object, or the like in a predetermined indoor area is shown.

<Location information management system: schematic configuration>
FIG. 1 is a diagram illustrating an example of a schematic configuration of a location information management system. As illustrated in FIG. 1, the location information management system 1 includes wireless transmission devices 10-1 to 10-4, wireless terminals 11-1 to 11-3, a gateway device 12, and a management server 13. Composed. The wireless transmission devices 10-1 to 10-4, the wireless terminals 11-1 to 11-3, and the gateway device 12 are connected via the wireless network 14. The gateway device 12 and the management server 13 are connected via a network 15.

  In the following description, the wireless transmission devices 10-1 to 10-4 will be referred to as the wireless transmission device 10 and the wireless terminals 11-1 to 11-3 will be referred to as the wireless terminal 11 as appropriate.

  The wireless transmission device 10 is installed, for example, on the ceiling of each floor of a building. The wireless transmission device 10 has an independent housing and operates by being supplied with power from a pre-installed power source, or is incorporated in an illumination device such as an LED (Light Emitting Diode) fluorescent tube and is supplied with power from the illumination device. Operate.

  The wireless transmission device 10 continuously or intermittently transmits position information (for example, history information, information on the number of floors of a building, building number, etc.) related to each installation position by a wireless signal, to a predetermined radio wave range (that is, as a management target). To the area).

  Here, the predetermined radio wave range described above is determined by, for example, the transmission output from the wireless transmission device 10, the directivity of the antenna, and the like. In the example of FIG. 1, a conical dotted line shown below the wireless transmission device 10 indicates a predetermined radio wave range in each of the wireless transmission devices 10-1 to 10-4.

  Each of the wireless transmission devices 10-1 to 10-4 is arranged so that, for example, a predetermined radio wave range does not overlap with other radio transmission devices, and further, no gap is generated in the radio wave range of each wireless transmission device 10. For example, when predetermined radio wave ranges overlap, the radio terminal 11 is configured to determine any one radio transmission device 10 based on the received radio wave intensity.

  In the present embodiment, the wireless transmission device 10 is a wireless terminal 11 using a wireless communication method selected from, for example, IMES (Indoor Messaging System: IMES), visible light communication, infrared communication, wireless LAN (Local Area Network), and the like. However, the present invention is not limited to this.

  The wireless terminal 11 receives position information from the nearest wireless transmission device 10 among the wireless transmission devices 10-1 to 10-4. Further, the wireless terminal 11 is a terminal with an active tag capable of transmitting its own radio wave, for example, and is equivalent to an active tag such as a smartphone, a PDA (Personal Digital Assistant), a PC (Personal Computer), or a smart meter. What is necessary is just to have a function.

  In the example of FIG. 1, the location management target is a person possessing the wireless terminal 11 incorporated in, for example, a mobile phone or an ID (IDentity card) card, but is not limited to this. Or a wireless terminal 11 attached to an object or the like.

  When the wireless terminal 11 receives the position information of the wireless transmission device 10 from the wireless transmission device 10, the wireless terminal 11 receives the positional information or the received position information by short-range wireless communication such as IEEE802.15.4 and ZigBee (registered trademark), for example. The terminal information (terminal ID) and the like are transmitted to the wireless transmission device 10. Note that as the terminal information of the wireless terminal 11, for example, an IEEE 802.15.4 abbreviated address, an IEEE extended (MAC: Media Access Control) address, or the like may be used.

  Here, the information transmitted from the wireless terminal 11 to the wireless transmission device 10 is routed in the wireless network 14 based on the routing information held by the wireless transmission device 10, and the gateway passes through the predetermined wireless transmission device 10. Transmitted to the device 12. The wireless terminal 11 may transmit to the gateway device 12 when the gateway device 12 is present in the vicinity of the wireless transmission device 10. The transmission / reception operation of the wireless terminal 11 described above may be performed at a preset timing, or when the wireless terminal 11 has an acceleration sensor, at a timing when a change in acceleration of the wireless terminal 11 by the acceleration sensor is detected. .

  The gateway device 12 is installed in each room partitioned by, for example, each floor of a building or a wall. The gateway device 12 receives, for example, information transmitted from the wireless terminal 11 (position information, terminal information, etc. of the wireless terminal 11) via the wireless transmission device 10. Further, when the gateway device 12 receives the information transmitted from the wireless terminal 11 via the wireless transmission device 10, the gateway device 12 transmits the information to the management server 13 via the network 15.

  The gateway device 12 connects the wireless network 14 and the network 15 to each other, and bridges information transmitted from the wireless network 14 side to the network 15. In addition, the gateway device 12 includes a wireless network 14 when the wireless network 14 forms a PAN (Personal Area Network) based on, for example, IEEE 802.15.4 or the ZigBee standard, and the network 15 is a LAN based on the IEEE 802.3 standard. The communication system is converted with the network 15.

  When the wireless network 14 forms a PAN based on the above-mentioned IEEE 802.15.4 or ZigBee standard, the wireless terminal 11, the wireless transmission device 10, and the gateway device 12 are end device functions defined by the ZigBee standard. The router function and the coordinator function are controlled. For example, the wireless terminal 11 and the wireless transmission device 10 are under the control of the gateway device 12 at the time of startup, and the PAN is configured to determine the minimum route to the gateway device 12 and create the routing information described above.

  For example, when the management server 13 receives information transmitted from the wireless terminal 11 via the gateway device 12, the management server 13 records the received information together with the reception date and time. The management server 13 manages the position of the wireless terminal 11 based on the information transmitted from the wireless terminal 11. Note that the management server 13 may integrate the functions of the gateway device 12.

  The wireless network 14 configures a PAN based on IEEE 802.15.4 and ZigBee standards, for example, and is configured using short-range wireless communication such as “Bluetooth (registered trademark) LE”, “ANT”, and “Z-Wave”, for example. You may do it.

  The network 15 is a LAN defined by, for example, the IEEE 802.3 standard, but may include a plurality of types of networks such as the Internet.

<Wireless network 14>
FIG. 2 is a diagram illustrating an example of a network constituting the location information management system. In the example of FIG. 2, in the location information management system 1 shown in FIG. 1, the wireless transmission devices 10-1 to 10-4, the wireless terminals 11-1 to 11-3, and the gateway device 12 are connected to the wireless network 14. Connected through. As shown by the dotted lines in FIG. 2, the information transmitted from the wireless terminals 11-1 to 11-2 is received by the wireless transmission device 10-1 and is transmitted from the wireless transmission device 10-1 to the other wireless transmission device 10-2. 10-4 to the gateway device 12.

  Note that the number and arrangement of the wireless transmission devices 10 and the wireless terminals 11 illustrated in FIGS. 1 and 2 are not limited to this.

<Alarm system: schematic configuration>
Next, an alarm system according to this embodiment to which the above-described position information management system 1 is applied will be described. FIG. 3 is a diagram illustrating an example of a schematic configuration of the alarm system according to the present embodiment. As illustrated in FIG. 3, the alarm system 2 includes wireless transmission devices 10-1 to 10-9, wireless terminals 11-1 to 11-3, gateway devices 12-1 to 12-3, a management server 13, and the like. The alarm controller 20, the alarm operation instruction device 21, and the alarm devices 22-1 to 22-6 are configured. The management server 13, the alarm controller 20 as an example of an alarm management device, the alarm operation instruction device 21, and the alarm devices 22-1 to 22-6 are connected by a communication network such as wired or wireless. .

  In the example of FIG. 3, the wireless transmission device 10 is arranged at regular intervals, for example, on each floor of the building. As described above, the wireless transmission device 10 uses a wireless communication method such as IMES, for example, to transmit position information (for example, background information and information such as the number of floors of a building) related to the installation position to a predetermined radio wave continuously or intermittently. It transmits to the range (that is, the area to be managed).

  The wireless terminal 11 is incorporated in, for example, a mobile phone or an ID card and held by a person such as a user. In the example of FIG. 3, the wireless terminal 11-1 is located on the nth floor of the building, the wireless terminal 11-2 is located on the second floor of the building, and the wireless terminal 11-3 is located on the first floor of the building. An example is shown.

  For example, when the wireless terminal 11 receives the position information from the wireless transmission device 10 or the like installed on each floor, the wireless terminal 11 transmits the received position information and its own terminal information to the wireless transmission device 10 using the short-range wireless communication described above. Via the gateway device 12.

  One gateway device 12 is installed on each floor of a building, for example, and has a function as a floor position information server that acquires position information of the wireless terminal 11 on each floor. In the example of FIG. 3, the gateway device 12-1 is installed on the nth floor of a building, for example, the gateway device 12-2 is installed on the second floor of the building, and the gateway device 12-3 is installed on the first floor of the building. Has been. The gateway device 12 receives information (position information, terminal information, etc.) transmitted from the wireless terminal 11 on each floor via the wireless transmission device 10.

  In the example of FIG. 1 or FIG. 3 described above, the gateway device 12 shows an example of receiving a wireless LAN signal or the like from the wireless transmission device 10 or the like. For example, the gateway device 12 is connected to a wireless LAN access point via a wire. May be.

  One management server 13 is installed in a building, for example, and has a function as a location information server for the entire building that acquires location information of the wireless terminal 11 from the gateway device 12 installed on each floor.

  In the example of FIG. 3, when the management server 13 acquires the position information of the wireless terminal 11 from the gateway device 12 on each floor, for example, at predetermined time intervals or in real time, for example, the terminal information (terminal ID) and position of the wireless terminal 11 A position management list for managing the position of the wireless terminal 11 is generated based on information or the like. In addition, the management server 13 transmits, for example, a position management list generated every predetermined time or in real time to the alarm controller 20.

  When the alarm controller 20 acquires the position management list from the management server 13, based on the position information of the wireless terminal 11 included in the position management list, for example, the alarm controller 22 that is closest to the position of the wireless terminal 11 is operated as an alarm device. Determine and generate an actuator list. In the present embodiment, the present invention is not limited to this. For example, it may be determined as an alarm device that activates a predetermined number of alarm devices 22 including the closest alarm device 22. In addition, the alarm controller 20 may rank the alarm devices 22 included in the operating device list according to the number of wireless terminals 11 that are present near the alarm device 22.

  When the alarm controller 20 receives an alarm operation instruction from the alarm operation instruction device 21, the alarm controller 20 operates the alarm device 22 based on the operation device list. At this time, the alarm controller 20 may instruct each of the alarm devices 22 to change the volume of the alarm or the level of the alarm sound according to the ranking of the alarm devices 22, for example. Thus, the alarm controller 20 has a function as an alarm management device that operates the alarm device 22.

  For example, when a fire or an earthquake occurs, the alarm activation instruction device 21 outputs an alarm activation instruction to the alarm controller 20 so as to activate the alarm device 22. The alarm operation instruction device 21 may output an operation instruction to the alarm controller 20 when a fire sensor, a seismic intensity meter, or the like is provided in advance and exceeds a predetermined threshold, for example, control from an external device or manual operation The operation instruction may be output by.

  The alarm device 22 is installed at a predetermined position on each floor of the building, for example. In the example of FIG. 3, the alarm devices 22-1 to 22-2 are installed on the n-th floor of the building, and the alarm devices 22-3 to 22-4 are installed on the second floor of the building. 5-22-6 are installed on the first floor of the building. The alarm device 22 operates in response to an operation instruction from the alarm controller 20. Note that the alarm device 22 can change, for example, the volume of the alarm or the level of the alarm sound according to the operation instruction of the alarm controller 20.

  According to the alarm system 2 of the present embodiment, since the alarm device 22 to be activated is determined based on the position information of the wireless terminal 11, it is possible to appropriately activate the nearby alarm device 22 where a person exists. Become.

  In the above-described example, the position information of the wireless terminal 11 is received and used as the position information transmitted from the wireless transmission device 10. However, the present invention is not limited to this. For example, the wireless terminal 11 may acquire position information using a standardized wireless communication interface such as WiFi (registered trademark) or Bluetooth, or another wireless communication interface that is not standardized. Further, the wireless terminal 11 may acquire position information by, for example, RFID communication and transmit the position information to the management server 13.

  Further, the wireless terminal 11 transmits only the above-described terminal ID to the wireless transmission device 10, and transmits, for example, the position information held by the wireless transmission device 10 and the terminal ID received from the wireless terminal 11 to the management server 13. You may do it.

  The management server 13 may have a function of the alarm controller 20 so that the alarm controller 20 is omitted.

<Wireless transmission device 10: functional block>
FIG. 4 is a diagram illustrating an example of functional blocks of the wireless transmission device according to the present embodiment. As illustrated in FIG. 4, the wireless transmission device 10 is configured to include a communication unit 30, a storage unit 31, and a control unit 32.

  The communication unit 30 is configured to include a position information transmission unit 30A and a wireless communication unit 30B.

  The position information transmitting unit 30A transmits the position information 31A continuously or intermittently to the wireless terminal 11 in a predetermined radio wave range by using, for example, an IMES signal (ground complementary signal). Note that the position information transmitting unit 30A may transmit the position information 31A using, for example, a format defined in IMES.

  When the wireless communication unit 30B receives position information and terminal information from the wireless terminal 11 via the wireless network 14 by short-range wireless communication such as IEEE 802.15.4 and ZigBee, for example, the wireless communication unit 30B The terminal information is transmitted to the gateway device 12. For example, when the wireless network 14 is configured in accordance with the ZigBee standard, the wireless communication unit 30B performs routing with respect to the gateway device 12 using the held routing information, and obtains location information, terminal information, and the like of the wireless terminal 11. Send.

  For example, the storage unit 31 stores position information 31A, routing information, and the like, but is not limited thereto.

  The position information 31A includes information such as the number of floors, latitude, longitude, and building number, for example. The floor number indicates the floor number of the building where the wireless transmission device 10 is installed, and the latitude and longitude indicate the latitude and longitude of the position where the wireless transmission device 10 is located. The building number indicates the building number of the building where the wireless transmission device 10 is installed. Note that the position information 31A is not limited to the above-described content, and may include information for specifying a finer position, such as information representing a section in the room.

  The control unit 32 controls the operation of the wireless transmission device 10. When the wireless transmission device 10, the wireless terminal 11, and the gateway device 12 configure a PAN using ZigBee, the wireless transmission device 10 is controlled to provide a router function.

  With the configuration described above, the wireless transmission device 10 can transmit position information to the wireless terminal 11 and transmit terminal information, position information, and the like received from the wireless terminal 11 to the gateway device 12.

<Wireless terminal 11: Functional block>
FIG. 5 is a diagram illustrating an example of functional blocks of the wireless terminal according to the present embodiment. As shown in FIG. 5, the wireless terminal 11 is configured to include a communication unit 40, an acceleration detection unit 41, a storage unit 42, and a control unit 43.

  The communication unit 40 is configured to include a position information receiving unit 40A and a wireless communication unit 40B.

  The position information receiving unit 40A receives position information included in the IMES signal transmitted from the wireless transmission device 10, for example. The position information 31A detected by the position information receiving means 40A is stored in the storage means 42 as position information 42B.

  The wireless communication unit 40B transmits the terminal information 42A and the position information 42B stored in the storage unit 42 to the wireless transmission device 10 by using, for example, a communication method conforming to IEEE802.15.4 and ZigBee standards.

  In the wireless communication means 40B, for example, the floor, latitude, longitude, and building number fields are represented by 9 bits, 21 bits, 21 bits, and 8 bits, respectively, for example, a format that connects the corresponding fields of a message received according to the IMES standard. Thus, the position information 42B may be transmitted. The expression format of each field may be in conformity with, for example, the IMES standard, and in addition to this format, a header or checksum information defined by the communication method may be added.

  The acceleration detection unit 41 detects a change in acceleration of the wireless terminal 11. The acceleration detection unit 41 detects a change in acceleration such as the start or stop of movement of the wireless terminal 11, for example. Here, the detection of acceleration at the start and stop of movement by the acceleration detection means 32 is used to determine the transmission / reception timing of the wireless terminal 11.

  The storage unit 42 stores, for example, terminal information 42A, position information 42B, and the like, but is not limited to this.

  The terminal information 42A includes information such as a network address that specifies the wireless terminal 11, for example. For example, when the wireless network 14 is based on the IEEE 802.15.4 or ZigBee standard, an IEEE 802.15.4 abbreviated address, an IEEE extended (MAC) address, or the like can be used.

  The position information 42B includes, for example, position information 31A received by the position information receiving unit 40A.

  The control unit 43 controls the operation of the wireless terminal 11. The control unit 43 controls the transmission timing of the terminal information 42A and the position information 42B by the wireless communication unit 40B based on, for example, a change in acceleration detected by the acceleration detection unit 41. The control means 43 may control the transmission / reception timing based on a preset interval or time, or may control the reception and transmission timing independently.

  The control unit 43 controls the wireless terminal 11 to provide an end point function when the wireless terminal 11 forms a PAN based on the wireless transmission device 10, the gateway device 12, and ZigBee.

  With the configuration described above, the wireless terminal 11 can transmit, for example, the position information received from the wireless transmission device 10 to the wireless transmission device 10 together with the terminal information.

  When the wireless terminal 11 is an information processing apparatus 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. Thereby, for example, it is possible to present position information to the user, input position information from the user, and the like.

<Management server 13: functional block>
FIG. 6 is a diagram illustrating an example of functional blocks of the management server according to the present embodiment. As shown in FIG. 6, the management server 13 is configured to include a communication unit 50, a storage unit 51, a location management list generation unit 52, an input unit 53, a display unit 54, and a control unit 55. The

  The communication unit 50 receives, for example, the location information of the wireless terminal 11 from the gateway device 12 via the network 15 and stores the received information in the storage unit 51 together with the reception date and time. Further, the communication unit 50 may transmit the position information of the wireless terminal 11 to an external device or the like when requested to provide the position information of the wireless terminal 11.

  The storage unit 51 stores, for example, the location management information 51A, but is not limited to this. The location management information 51A is a table for managing location information of the wireless terminal 11, for example. The location management information 51A includes, for example, information such as terminal information (terminal ID) of the wireless terminal 11, a device name to which the wireless terminal 11 is attached, location information (latitude, longitude, floor number, building), and reception date and time.

  The location management list generation means 52 receives, for example, the location management information 51A from the location management information 51A, the terminal information (terminal ID) of the wireless terminal 11, the location information of the wireless terminal 11 (latitude, longitude, floor number, etc.) A location management list is generated by extracting information such as date and time. When the position management list generation unit 52 generates the position management list, the position management list generation unit 52 transmits the position management list generated via the communication unit 50 to the alarm controller 20.

  The input unit 53 receives a user input for searching for the position of the wireless terminal 11 via the gateway device 12.

  The display unit 54 is configured by, for example, a GUI (Graphical User Interface) or the like, and displays a list of device names to which the wireless terminal 11 is attached or when the user selects a check box of a device to be searched by the input unit 53. Alternatively, a search result screen may be displayed.

  The control unit 55 controls each configuration of the management server 13.

<Alarm controller 20: functional block>
FIG. 7 is a diagram illustrating an example of functional blocks of the alarm controller according to the present embodiment. As shown in FIG. 7, the alarm controller 20 includes a communication unit 60, a storage unit 61, an alarm device determination unit 62, an operation instruction unit 63, a screen generation unit 64, an input unit 65, and a display unit 66. And control means 67.

  The communication unit 60 has a function as a position information acquisition unit that acquires a position management list from the management server 13 and acquires, for example, position information received by the wireless terminal 11 from the wireless transmission device 10 or the like. Further, the communication unit 60 may transmit, for example, the screen generated by the screen generation unit 64 to an external device or the like.

  The storage unit 61 stores, for example, alarm device installation information 61A, position management information 61B, and the like, but is not limited thereto.

  The alarm device installation information 61A is information that is registered in advance when the alarm device 22 is installed indoors, and is a table for managing position information (installation information) and the like of the alarm device 22. The alarm device installation information 61A includes, for example, alarm device identification information (ID) and position information (latitude, longitude, building floor information, etc.). A specific example of the alarm device installation information 61A will be described later.

  The position management information 61B is a table for managing the position information of the wireless terminal 11 by using, for example, the position management list acquired from the management server 13. The position management information 61B includes, for example, terminal information (terminal ID) of the wireless terminal 11 and position information (information such as latitude, longitude, and a floor of a building). A specific example of the location management information 61B will be described later.

  The alarm device determination unit 62 determines the alarm device to be activated among the alarm devices 22 installed on each floor of the building, for example, corresponding to the position information of the wireless terminal 11 included in the position management list acquired from the communication unit 60. To do.

  Specifically, the alarm device determination unit 62 refers to the alarm device installation information 61A and the position management information 61B in the storage unit 61, compares the position information of the alarm device 22 with the position information of the wireless terminal 11, and performs wireless communication. For each terminal 11, for example, the alarm device 22 closest to the wireless terminal 11 is determined as the alarm device to be activated. In the present embodiment, the present invention is not limited to this. For example, it may be determined as an alarm device that activates a predetermined number of alarm devices 22 including the closest alarm device 22. At this time, the alarm device determination means 62 may determine, for example, at least one alarm device 22 in a predetermined range centered on the position information of the wireless terminal 11 as an alarm device to be activated.

  Moreover, the alarm device determination means 62 determines, for example, the alarm device 22 to be operated on each floor of the building. Thereby, it becomes possible to determine the alarm device 22 to be operated in accordance with the layout or the like of the alarm device 22 arranged on each floor.

  The operation instruction unit 63 generates an operation device list based on the alarm device 22 obtained by the alarm device determination unit 62. At this time, the operation instruction means 63 may rank each alarm device 22 according to, for example, the number of wireless terminals 11 present near the alarm device 22.

  When receiving the alarm operation instruction from the alarm operation instruction device 21, the operation instruction means 63 operates the alarm device 22 based on the operation device list. Here, the operation instruction means 63 may instruct the alarm device 22 to change the volume of the alarm or the level of the alarm sound based on the ranking of the operation device list.

  The screen generation means 64 can identify, for example, the alarm device 22 included in the actuator list and the alarm device 22 not included in the alarm device 22 on the map (for example, layout diagram) corresponding to the floor of the building. Generate a screen to be displayed. Here, the screen generation means 64 may change the color or symbol for displaying the alarm device 22 based on the ranking of the alarm device 22 described above. The screen generation means 64 may generate a screen that displays the position of the person who has the wireless terminal 11 with respect to the alarm device 22 on the map described above.

  The input unit 65 receives a user input for acquiring position information of the wireless terminal 11 via the management server 13.

  The display unit 66 is configured by a GUI or the like, for example, and displays the screen generated by the screen generation unit 64. A screen example displayed by the display unit 66 will be described later.

  The control means 67 controls each component of the alarm controller 20.

  With the configuration described above, it is possible to appropriately determine the alarm device 22 to be activated based on the position information of the wireless terminal 11. Further, the presence of the person who has the wireless terminal 11 can be detected with high accuracy by ranking the alarm devices 22 determined in this manner and changing the alarm sound or changing the color displayed on the screen. It is possible to perform rescue operations efficiently.

<Radio Transmission Device 10: Hardware Configuration>
FIG. 8 is a diagram illustrating an example of a hardware configuration of the wireless transmission device according to the present embodiment. As shown in FIG. 8, the wireless transmission device 10 includes a CPU (Central Processing Unit) 70, a RAM (Random Access Memory) 71, a ROM (Read Only Memory) 72, a position signal transmission unit 73, and a wireless communication unit. 74. Each unit is connected via a bus 75.

  The CPU 70 executes a program that controls the operation of the wireless transmission device 10. The RAM 71 constitutes a work area of the CPU 70 and the like. The ROM 72 stores, for example, position information 31A in addition to the program executed by the CPU 70.

  The position signal transmission unit 73 includes an antenna that transmits a positioning signal such as IMES, and transmits the position information 31A to the wireless terminal 11 using the IMES signal.

  The wireless communication unit 74 has an antenna capable of transmitting and receiving radio waves conforming to, for example, the IEEE 802.15.4 standard, and receives terminal information, position information, and the like received from the wireless terminal 11 based on the held routing information. Transmit to the transmitting device 10 or the like.

  The bus 75 electrically connects each part.

<Wireless terminal 11: Hardware configuration>
FIG. 9 is a diagram illustrating an example of a hardware configuration of the wireless terminal according to the present embodiment. As illustrated in FIG. 9, the wireless terminal 11 is configured to include a CPU 80, a RAM 81, a ROM 82, a position signal receiving unit 83, a wireless communication unit 84, and an acceleration detection unit 85. Each unit is connected via a bus 86.

  The CPU 80 executes a program that controls the operation of the wireless terminal 11. The RAM 81 constitutes a work area for the CPU 80 and the like. The ROM 82 stores terminal information 42 </ b> A and position information 42 </ b> B of the wireless terminal 11 in addition to programs executed by the CPU 80.

  The position signal receiving unit 83 includes an antenna that receives a positioning signal such as IMES, and receives position information 31A included in the IMES signal.

  The wireless communication unit 84 includes an antenna capable of transmitting and receiving radio waves conforming to, for example, the IEEE 802.15.4 standard, and transmits, for example, terminal information 42A, position information 42B, and the like to the wireless transmission device 10.

  The acceleration detection unit 85 is, for example, an acceleration sensor or a motion sensor using inertial force or magnetism, and detects a change in acceleration of the wireless terminal 11 such as start or stop of movement of the wireless terminal 11.

  The bus 86 electrically connects each part.

  When the wireless terminal 11 is an information processing apparatus such as a smartphone or a PC, the wireless terminal 11 may include a touch panel that accepts input from the user, an input unit such as a dial key, a keyboard, and a mouse, and a display unit such as a screen display. good.

<Management server 13 or alarm controller 20: hardware configuration>
FIG. 10 is a diagram illustrating an example of a hardware configuration of the management server or the alarm controller. The management server 13 or the alarm controller 20 is configured to include a CPU 90, a RAM 91, a ROM 92, an HDD (Hard Disk Drive) 93, a communication unit 94, a display unit 95, and an input unit 96. These devices are connected via a bus 97.

  The CPU 90 executes a program that controls the operation of the management server 13. The RAM 91 constitutes a work area of the CPU 90 and the like. The ROM 92 stores, for example, a program executed by the CPU 90, data used by the program, location management information 51A, alarm device installation information 61A, and the like.

  The HDD 93 stores information used in the position information management system 1, information used in the alarm system 2, and the like. The HDD 93 may be any storage device including a tape drive, or may be a storage area accessible via a network.

  The communication unit 94 has a network interface that conforms to, for example, the IEEE 802.3 standard.

  The display unit 95 includes, for example, a liquid crystal display, a CRT (Cathode Ray Tube) display, and the like.

  The input unit 96 is a pointing device such as a keyboard or a mouse that receives input from the user. A bus 97 electrically connects these devices.

<Alarm device operation sequence>
FIG. 11 is a diagram illustrating an example of an alarm device operation sequence according to the present embodiment. As illustrated in FIG. 11, the wireless transmission device 10 transmits its own location information (S10), and the wireless terminal 11 receives location information and the like from the wireless transmission device 10. Note that the wireless terminal 11 may not only receive position information from the wireless transmission device 10, but may also receive position information by other wireless communication such as WiFi or RFID.

  Further, the wireless terminal 11 transmits position information and the like to the gateway device 12 via, for example, the wireless transmission device 10 or a wireless LAN (S11). Note that the wireless terminal 11 may directly transmit the position information and the like to the gateway device 12 without going through the wireless transmission device 10 or the wireless LAN.

  The gateway device 12 transmits the position information received from the wireless terminal 11 via the wireless transmission device 10 or wireless LAN, for example, to the management server 13 etc. via the wired LAN, for example (S12). Here, the management server 13 receives, for example, the position information of the wireless terminal 11 existing on each floor via the gateway device 12 installed on each floor.

  When the management server 13 generates the location management list of the wireless terminal 11 (S13), the management server 13 transmits it to the alarm controller 20 (S14).

  When the alarm controller 20 receives the position management list from the management server 13, the alarm controller 20 refers to the position management list, determines, for example, the alarm device 22 closest to the position of the wireless terminal 11 for each wireless terminal 11 on each floor, and operates. A device list is generated (S15).

  For example, when an earthquake or fire occurs, the alarm activation instruction device 21 instructs the alarm controller 20 to activate the alarm device 22 (S16). When receiving the operation instruction from the alarm operation instruction device 21, the alarm controller 20 refers to the operation device list created in the process of S15 and operates the alarm device 22-1 close to the position of the wireless terminal 11.

  That is, the alarm controller 20 does not operate the alarm device 22-2 that is more than a predetermined distance from the position of the wireless terminal 11 among the alarm devices 22-1 to 22-2 of all the floors (the process of S17 is not performed). The alarm device 22-1 close to the position of the wireless terminal 11 is activated (S18). The alarm device 22-1 operates in response to an operation instruction from the alarm controller 20 (S19).

<Operation device list generation processing>
FIG. 12 is a flowchart showing the flow of the operation device list generation process according to the present embodiment. As shown in FIG. 12, the alarm controller 20 acquires the position management list of the wireless terminal 11 from the management server 13 by the communication means 60 (S20).

  The alarm controller 20 refers to the alarm device installation information 61A and the position management information 61B by the alarm device determination means 62, and extracts the position information of the alarm device 22 and the position information of the wireless terminal 11 on each floor (S21).

For example, when the position of the wireless terminal 11 is the position A (latitude A, longitude A) and the installation position of the alarm device 22 is the position B (latitude B, longitude B), the alarm device determination unit 62 The distance between the position A and the position B of the alarm device 22 is calculated by (latitude A−latitude B) ² + (longitude A−longitude B) ² (S22).

  The alarm device determination means 62 refers to the distance between the radio terminal 11 and the alarm device 22 and determines the alarm device 22 closest to the position of the radio terminal 11 (S23). Generate (S24). Here, the operation instruction means 63 may rank the alarm devices 22 according to, for example, the number of wireless terminals 11 that are present near the alarm device 22.

  The alarm device determination means 62 determines whether or not the alarm device 22 has been specified for all the wireless terminals 11 (S25). If it is determined that alarm device 22 has not been specified for all wireless terminals 11 (NO in S25), the process returns to S21. If it is determined that alarm device 22 has been specified for all wireless terminals 11 (YES in S25), the process ends.

  As described above, the alarm device to be activated can be determined based on the position information of the wireless terminal 11.

<Example of table held by alarm controller 20>
FIG. 13 is a diagram illustrating an example of a table held by the alarm controller according to the present embodiment. 13A shows an example of a table of alarm device installation information 61A, and FIG. 13B shows an example of a table of location management information 61B.

  The table shown in FIG. 13A includes, for example, “alarm device ID”, “latitude”, “longitude”, “floor (floor) information” and the like as items, and is registered when the alarm device 22 is installed indoors in advance. Is done. “Alarm device ID” indicates, for example, an ID for identifying the alarm device 22, and “latitude”, “longitude”, and “floor information” are registered based on the position information of the alarm device 22.

  The table shown in FIG. 13B includes, for example, “terminal ID”, “latitude”, “longitude”, “floor (floor) information”, and the like as items, and is updated, for example, every predetermined time or in real time. The table shown in FIG. 14B is obtained by the management server 13.

  For each terminal ID shown in FIG. 13B, the alarm controller 20 determines, for example, a nearby alarm device 22 with reference to the table shown in FIG. Note that the items of the table held by the alarm controller 20 are not limited to this, and may include, for example, a building ridge number.

<Screen Example of Display Unit 66>
FIG. 14 is a diagram showing a screen example of the display unit according to the present embodiment. FIG. 14A shows an example of a screen on which the position of the alarm device 22 is shown in the building layout diagram, and FIG. 14B shows the position of the alarm device 22 and the wireless terminal 11 in the building layout diagram. An example screen is shown.

  Note that the screen example of FIG. 14 described above is an example that is generated by the screen generation unit 64 of the alarm controller 20 and displayed on the screen of the display unit 66.

  As shown in FIG. 14A, for example, on the layout diagram (floor map) of the first floor of the building displayed on the screen 110, longitudes (139.790200 to 139.790500) are shown in the X direction, and the Y direction. The latitude (35.667700 to 35.667900) is shown in FIG. Moreover, the installation positions of the alarm devices 22-1 to 22-3 are shown together with longitude and latitude information.

  In the present embodiment, for example, the alarm device 22 (for example, the alarm device 22-1) whose operation is determined as being present near the person carrying the wireless terminal 11, and the other alarm device 22 (for example, the alarm device) that does not operate other than that. 22-2 to 22-3) are displayed so as to be distinguishable by colors and symbols. Further, the displayed color or symbol may be changed depending on the number of people who have the wireless terminal 11 present near the alarm device 22.

  As shown in FIG. 14B, for example, the position of the person who has the wireless terminal 11 with respect to the alarm device 22 may be displayed on the screen 110. In the example of FIG. 14B, a person a holding the wireless terminal 11 is displayed in the vicinity of the alarm device 22-1.

  Specifically, the alarm controller 20 holds in advance a layout diagram in which the position of the alarm device 22 is written for each floor of the building. A screen 110 is generated using a table or the like shown and displayed on the display means 66. Note that the alarm controller 20 may transmit the screen 110 generated in this way to a terminal held by, for example, a rescuer and display it on the terminal. Thereby, with respect to the rescue person or the like, which alarm device 22 is near the person holding the wireless terminal 11 or who is holding the wireless terminal 11 in a positional relationship with the alarm device 22 It is possible to notify the position and the like.

  In the screen example of FIG. 14, only the position of the alarm device 22 for latitude information and longitude information for the first floor of the building is displayed. However, the present embodiment is not limited to this, and walls, doors, windows By registering information such as the position, the position of a desk, chair, or other object in advance, it is possible to display it on the screen. Thereby, even a person who has never entered the floor (floor) can easily grasp the state of the entire floor.

  As described above, according to the embodiment of the present invention, it is possible to appropriately activate the alarm device. In addition, the above-described alarm system makes it possible to easily acquire the position information of a person such as a wireless terminal possessed by a person in the event of a disaster and easily grasp the person's whereabouts, and appropriately activate the alarm device. For example, by grasping position information of an object to which a wireless terminal is attached, an alarm for theft or the like can be given.

  The preferred embodiments of the present invention have been described in detail above, but the present invention is not limited to such specific embodiments, and various modifications can be made within the scope of the gist of the present invention described in the claims. Can be changed.

DESCRIPTION OF SYMBOLS 1 Position information management system 2 Alarm system 10 Wireless transmitter 11 Wireless terminal 12 Gateway apparatus 13 Management server 14 Wireless network 15 Network 20 Alarm controller (an example of an alarm management apparatus)
21 alarm operation instruction device 22 alarm device 30, 40, 50 communication means 30A position information transmission means 30B wireless communication means 31, 42, 51, 61 storage means 31A position information 32, 43, 55, 66 control means 40A position information reception means 40B Wireless communication means 41 Acceleration detection means 42A Terminal information 42B Position information 51A Position management information 52 Position management list generation means 53, 65 Input means 54, 66 Display means 61A Alarm device installation information 61B Position management information 62 Alarm device determination means 63 Operation Instruction means 64 Screen generation means 70, 80, 90 CPU
71, 81, 91 RAM
72, 82, 92 ROM
73 Position Signal Transmitting Units 74 and 84 Wireless Communication Unit 83 Position Signal Receiving Unit 85 Acceleration Detection Unit 93 HDD
94 Communication unit 95 Display unit 96 Input unit 110 Screen

Japanese Patent No. 4718844

Claims (9)

An alarm system including a plurality of alarm devices installed at predetermined positions and an alarm management device for operating the plurality of alarm devices,
The alarm management device includes:
Position information acquisition means for acquiring terminal position information;
An alarm system comprising: an alarm device determination unit that determines an alarm device to be activated among the plurality of alarm devices in correspondence with the position information of the terminal obtained by the position information acquisition unit. The alarm device determination means includes
The position information of the plurality of alarm devices and the position information of the terminal are compared to determine the alarm device that activates at least one alarm device including the alarm device closest to the terminal. The alarm system according to 1. The alarm device determination means includes
The alarm system according to claim 1 or 2, wherein an alarm device to be activated is determined on each floor of the building in which the alarm device is installed.   The alarm system according to claim 3, further comprising a screen generation unit configured to generate a screen for displaying the position of the terminal on a map corresponding to each floor. An alarm method in an alarm system including a plurality of alarm devices installed at predetermined positions and an alarm management device that operates the plurality of alarm devices,
With the alarm management device,
Location information acquisition procedure for acquiring terminal location information;
An alarm device determination procedure for determining an alarm device to be activated among the plurality of alarm devices in correspondence with the position information of the terminal obtained by the position information acquisition procedure. The alarm device determination procedure includes:
The position information of the plurality of alarm devices and the position information of the terminal are compared to determine the alarm device that activates at least one alarm device including the alarm device closest to the terminal. 5. The alarm method according to 5. The alarm device determination procedure includes:
The alarm method according to claim 5 or 6, wherein an alarm device to be activated is determined on each floor of the building in which the alarm device is installed.   The alarm method according to claim 7, further comprising a screen generation procedure for generating a screen for displaying the position of the terminal on the map corresponding to each floor. Position information acquisition means for acquiring terminal position information;
Alarm device determination means for determining an alarm device to be activated among a plurality of alarm devices in correspondence with the terminal position information obtained by the position information acquisition means;
An alarm management device comprising: an operation instruction unit that operates the alarm device determined by the alarm device determination unit.

Images