JP2018185632A - Monitoring object entity information processing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an innovative monitoring object entity information transmission device.SOLUTION: The monitoring object entity information transmission device comprises: a transmitter capable of wirelessly transmitting position information of a monitoring object entity acquired by using a satellite; and an air cell for feeding electric power to the transmitter. The air cell, in which specific identification information for specifying a transmission source is previously displayed, comprises: an air-permeable film for taking oxygen in the air; and an opaque and non-air-permeable seal for covering the air-permeable film. The electric power supply to the transmitter is started by the air cell when the seal is peeled, and the reading of the specific identification information for specifying the transmission source that is previously displayed on the air-permeable film is permitted.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a monitoring target entity information processing system, and more particularly to a monitoring target entity information transmission apparatus and a monitoring target entity information processing method.

  Numerous techniques have been proposed for monitoring a monitoring target entity such as a person, a pet animal, or an object based on position information acquired by using a satellite such as GPS (Global Positioning System).

  In recent years, a small and lightweight wearable device has been proposed as an aid for monitoring these monitoring target entities. In this wearable device, it is essential to use a battery as a power source.

  For example, Patent Document 1 discloses a technique related to an arm-mounted electronic device that transmits position information acquired by GPS through the Internet and includes various sensors. Patent Document 2 discloses a technique relating to an emergency transport destination search system that transmits position information acquired by GPS through the Internet and includes an electronic triage tag having a biometric sensor. Furthermore, Patent Document 3 discloses a technique related to the configuration of an air battery. Patent Document 3 discloses an air battery in which an air hole formed in a positive electrode can is closed and a seal film is attached so as to be peeled off.

Japanese Unexamined Patent Publication No. 2017-032975 JP 2012-058962 A Japanese Patent No. 4,298,981

  However, the technologies related to wearable devices proposed so far are not sufficient.

  A problem is to provide an epoch-making monitoring target entity information transmitting apparatus that can be used while being associated with a monitoring target entity.

  Another object is to provide a technology that makes it possible to process monitoring target entity information in cooperation with an innovative monitoring target entity information transmitting apparatus.

  In order to solve the above-described problem, a monitoring target entity information transmitting apparatus according to a first aspect includes a transmitter capable of wirelessly transmitting position information of a monitoring target entity acquired by using a satellite; and for supplying power to the transmitter An air battery; the air battery is preliminarily displayed with unique identification information for specifying a transmission source, and a ventilation film for taking in oxygen in the air; and an opaque and non-breathable seal covering the ventilation film; And when the seal is peeled off, the air battery starts to supply power to the transmitter and allows reading of unique identification information for specifying the transmission source displayed in advance on the gas permeable membrane. To do.

  The monitoring target entity information transmitting apparatus according to the second aspect includes a transmitter capable of wirelessly transmitting the position information of the monitoring target entity acquired by using a satellite; and a gas permeable membrane for taking in oxygen in the air. An air battery for supplying power to the battery; a container that contains the transmitter and the air battery, and includes an identification information display unit on which unique identification information for specifying a transmission source is displayed in advance; and the ventilation of the air battery An opaque and non-breathable seal that covers the membrane and the identification information display part of the container; and when the seal is peeled off, the air battery starts to supply power to the transmitter; Reading of unique identification information specifying the transmission source displayed in advance on the identification information display unit is allowed.

  A monitoring target entity information transmitting apparatus according to a third aspect includes a transmitter capable of wirelessly transmitting position information of a monitoring target entity acquired by using a satellite; a battery for supplying power to the transmitter; oxygen in the air; An oxygen detection sensor for detecting; a container including an identification information display unit that houses the transmitter, the battery, and the oxygen detection sensor, and displays unique identification information for specifying a transmission source; An opaque and non-breathable seal that covers the detection sensor and the identification information display part of the container; when the seal is peeled off, oxygen in the air is detected by the oxygen detection sensor A path for starting power feeding from the battery to the transmitter is formed, and reading of unique identification information for specifying the transmission source displayed in advance on the identification information display unit is allowed.

  A monitoring target entity information transmitting apparatus according to a fourth aspect includes a transmitter capable of wirelessly transmitting position information of a monitoring target entity acquired by using a satellite; a battery for supplying power to the transmitter; and short-range wireless transmission A receiving sensor for detecting an activation signal; a receiving body that contains the transmitter, the battery, and the receiving sensor, and includes an identification information display unit in which unique identification information for specifying a transmission source is displayed in advance; An opaque and radio signal impermeable seal that covers the reception sensor and the identification information display part of the container; and when the seal is peeled off, detects the activation signal by the reception sensor; A path for starting power feeding from the battery to the transmitter is formed, and reading of unique identification information for specifying the transmission source displayed in advance on the identification information display unit is allowed.

  One aspect of the monitoring target entity information processing system using the first, second, third, or fourth monitoring target entity information transmitting apparatus described above is the monitoring target entity information wirelessly transmitted from the monitoring target entity information transmitting apparatus. And means for transmitting the monitoring target entity information of the IP protocol to a predetermined destination via a communication network in order to request processing of the collected monitoring target entity information. Including an IoT relay device.

  In another aspect of the monitoring target entity information processing system using the first, second, third, or fourth monitoring target entity information transmitting apparatus described above, the monitoring target entity information transmitted from the IoT relay apparatus is received. When a two-dimensional code corresponding to the identification information for identifying the transmission source that is integrated in the database and the transmission source transmitted from the supervisor user terminal is received, the corresponding transmission source is identified from the database. When searching for unique identification information and receiving the other information transmitted from the monitor user terminal and means for allowing the monitor user terminal to input other information about the monitoring target entity, Means for storing in association with unique identification information for identifying the transmission source in the database, and other information about the monitoring target entity registered by the supervisor using terminal Based on the permissible range, the means for analyzing the monitoring target entity information collected and storing the analysis result of the monitoring target entity information in the database, in response to a request from the monitor user terminal And a means for transmitting the analysis processing result to the monitor user terminal, further comprising a monitoring target entity information processing apparatus corresponding to the predetermined destination.

  According to the disclosed technology, it is possible to prevent reading of unique identification information for identifying a transmission source by a third party other than the party such as the monitor of the monitoring target entity, and at the terminal used by the monitor of the monitoring target entity. It becomes possible to grasp the position information of the monitoring target entity.

  Other objects, features and advantages will become apparent upon reading the detailed description set forth below when taken in conjunction with the drawings and the appended claims.

1 is a block diagram showing a configuration of a monitoring target entity information processing system according to an embodiment. The figure which shows the structure of a 1st monitoring object entity information transmission apparatus. The figure which shows the structure of a 2nd monitoring object entity information transmission apparatus. The figure which shows the structure of a 3rd monitoring object entity information transmission apparatus. The figure which shows the structure of a 4th monitoring target entity information transmission apparatus. The figure which shows the component of the 1st-4th monitoring object entity information transmission apparatus. The figure for demonstrating the monitoring object entity information in one embodiment. The figure for demonstrating the monitoring object entity information in one embodiment. The sequence chart for demonstrating the monitoring subject entity information processing in one embodiment. The sequence chart for demonstrating the monitoring subject entity information processing in one embodiment. The figure which shows the structure of the accumulation | storage database in one Embodiment.

  Hereinafter, further detailed description will be given with reference to the accompanying drawings. The drawings show preferred embodiments. However, it can be implemented in many different forms and is not limited to the embodiments described herein.

[Monitoring entity information processing system]
Referring to FIG. 1 showing a system configuration in one embodiment, a monitoring target entity information processing system 1 includes a plurality of monitoring target entity information transmitting apparatuses 2, a plurality of wireless receivers 3, and an IoT relay apparatus 4. A network WSN, a communication network 5, an abnormality monitoring device 6, and a supervisor using terminal 7 are included.

  The wireless sensor network WSN receives various types of information (including data) voluntarily transmitted from a plurality of geographically dispersed monitoring target entity information transmission devices 2 at predetermined intervals via a corresponding wireless receiver 3. And exists for collection in the IoT relay device 4. Here, the wireless sensor network WSN is illustrated as a star network form (topology), but is not limited to this topology.

  Each monitoring target entity information transmission device 2 is associated with each monitoring target entity, and the identification information of the monitoring target entity that is detected by the built-in sensor as necessary for the unique identification information for identifying the transmission source and the position information of the monitoring target entity A wireless transmitter as a transmission source that voluntarily wirelessly transmits information at predetermined intervals. Each monitoring target entity information transmitting apparatus 2 can be implemented in various forms, as will be described in detail later. The monitoring target entity information transmitting apparatus 2 has a unique configuration and is an important component in the monitoring target entity information processing system 1. .

  The monitoring target entities in this embodiment include persons such as children, elderly people, and patients, pets (pets) such as dogs and cats, and objects such as vehicles and valuables. Each monitoring target entity information transmitting apparatus 2 functions as a wearable computer attached to these monitoring target entities.

  Each wireless receiver 3 receives unique identification information for identifying a transmission source transmitted from the corresponding monitoring target entity information transmitting device 2, position information of the monitoring target entity, index information of the monitoring target entity, and the like. Input to the IoT relay device 4 through the line. Each wireless receiver 3 is operated and managed by the service provider together with the IoT relay device 4.

  Specifically, the IoT relay device 4 in the wireless sensor network WSN is an IoT gateway, and is independently wirelessly transmitted at predetermined intervals from a plurality of geographically dispersed monitoring target entity information transmission devices 2. This includes a function of collecting monitoring target entity information TG including various information via the corresponding wireless receiver 3.

  In addition, the IoT relay device 4 requests an abnormality monitoring device (monitoring target entity information processing device) corresponding to a predetermined destination on the cloud via the communication network 5 in order to request processing of the collected monitoring target entity information TG. ) 6 includes a function of transmitting the monitoring target entity information TG.

  When the IoT relay device 4 transmits the monitoring target entity information TG to the abnormality monitoring device 6 via the communication network 5, the communication protocol of the wireless sensor network WSN is changed to the IP (Internet Protocol) protocol of the communication network 5. It further includes a gateway function for conversion.

  Source information (source IP address) for specifying the IoT relay device 4 and destination information (destination IP address) for specifying the abnormality monitoring device 6 are added to the monitoring target entity information TG to monitor the IP packet form. The target entity information TGIP is transmitted from the IoT relay device 4 to the abnormality monitoring device 6. In this monitoring target entity information processing system 1, the gateway function of the IoT relay device 4 connects the thing and the Internet.

  The IoT relay device 4 described above includes the following elements as a hardware configuration. That is, a CPU (Central Processing Unit) as a processor, a RAM (Random Access Memory) as a working memory, and a ROM (Read Only Memory) storing a boot program for startup.

  The IoT relay device 4 includes an OS (Operating System), application programs, and various types of information (including data) in a rewritable manner, a non-volatile flash memory, a communication control unit, a NIC (Network Interface Card), and the like. Communication interface unit. Since these components can be easily understood and implemented by those skilled in the art, they are not shown.

  In order to logically realize each function described above, a processing program is installed in the flash memory as an application program. In the IoT relay device 4, when the power is turned on, the processor (CPU) always develops and executes this processing program in the RAM.

  The communication network 5 is an IP network because the monitored entity information processing system 1 is premised on application of the IoT technology, and more specifically is the Internet having an OPEN characteristic.

  The abnormality monitoring device 6 in the monitoring target entity information processing system 1 receives the monitoring target entity information TGIP transmitted from the IoT relay device 4 and integrates it into the integrated database, and the monitoring user using terminal 7 transmits it. When a two-dimensional code (QR code (registered trademark), etc.) is received, unique identification information for identifying the corresponding transmission source is searched from the integrated database, and other information including the entity name of the monitored entity is stored. And a function for allowing the supervisor using terminal 7 to input.

  When the abnormality monitoring device 6 receives other information transmitted from the supervisor user terminal 7, the abnormality monitoring device 6 stores the information in association with unique identification information for identifying the transmission source in the integrated database, and the supervisor user terminal A function for analyzing the collected monitoring target entity information TGIP based on the permissible range of the monitoring target entity registered in step 7 and the result of the analysis processing of the monitored target entity information TGIP are stored in the accumulation database. And a function of transmitting the analysis processing result to the supervisor using terminal 7 in response to a request from the using terminal 7.

  The abnormality monitoring device 6 further includes a function of actively transmitting the analysis processing result to the supervisor using terminal 7 regardless of a request from the supervisor using terminal 7 when an abnormality occurs.

  The above-described abnormality monitoring apparatus 6 is a server computer that is operated and managed by a service provider, and the hardware configuration thereof can be easily understood and implemented by those skilled in the art, and thus illustration and description thereof are omitted. In the abnormality monitoring device 6, in order to logically realize each function described above, a processing program is installed in the flash memory as an application program. In the abnormality monitoring device 6, the processor always develops and executes the processing program in the RAM when the power is turned on. The integrated database is configured in a flash memory and is updated while maintaining a predetermined data storage amount.

  The supervisor use terminal 7 in the monitoring target entity information processing system 1 is a terminal such as a smartphone, a personal computer, and a tablet having a Web (World Wide Web) browser, and is used by the monitoring subject entity monitor. The monitor of the monitoring target entity is a use contractor of the abnormality monitoring device 6. Here, only one supervisor use terminal 7 is illustrated for the sake of brevity.

  The supervisor using terminal 7 has a function of transmitting an acquired two-dimensional code (such as a QR code) corresponding to unique identification information for specifying a transmission source to the abnormality monitoring device 6 via the communication network 5. When the input of other information including the entity name of the monitoring target entity from the abnormality monitoring device 6 is permitted, the function of transmitting other information input by the monitor of the monitoring target entity is included.

  The supervisor use terminal 7 has a function of requesting the analysis result of the monitoring target entity information TGIP from the abnormality monitoring device 6 via the communication network 5, and a function of receiving the analysis processing result from the abnormality monitoring device 6. And a function of displaying the received analysis processing result. The monitor of the monitoring target entity can grasp the current status of the monitoring target entity based on the analysis processing result displayed on the monitor user terminal 7 and can take necessary measures.

  The hardware configuration of the supervisor use terminal 7 described above can be easily understood and implemented by those skilled in the art, and thus illustration and description thereof are omitted. In the supervisor user terminal 7, in order to logically realize each function described above, a processing program is installed as an application program in the flash memory. Then, in the supervisor using terminal 7, the processor develops this processing program in the RAM and executes it when the power is turned on or an instruction by the supervisor is given.

[Monitoring entity information sending device]
Next, the monitoring target entity information transmitting apparatus 2 in the monitoring target entity information processing system 1 shown in FIG. 1 will be described in detail.

  Each monitoring target entity information transmitting apparatus 2 is associated with each monitoring target entity, and includes unique identification information (which may be simply referred to as transmission source identification information) TXID for identifying a transmission source, and positional information of the monitoring target entity (Here, geographical position information (longitude, latitude, sea level)) A wireless transmitter as a transmission source that autonomously wirelessly transmits TGPS at predetermined intervals.

  In addition, when each monitoring target entity information transmitting apparatus 2 includes an index detection unit that is linked to various index detection sensors, the monitoring target entity index information TGBM detected by the index detection sensor is used as the transmission source identification information TXID and the monitoring target entity. Together with the position information TGPS, a wireless transmitter as a transmission source that autonomously wirelessly transmits at predetermined intervals.

  Note that the predetermined interval is set in the monitoring content (item) of the monitoring target entity such as a person, pet, or object by providing a setting button (not shown) in the monitoring target entity information transmitting apparatus 2, for example. It can be changed accordingly.

  Each monitored entity information transmitting apparatus 2 can be implemented as a wireless transmitter compliant with the international standard wireless communication standard IEEE802.15.4 (including 4g and 4e), and has a low bandwidth and low power consumption (power saving). Because wireless communication is realized, it is suitable for battery drive.

  Each monitoring target entity information transmission device 2 can be implemented in various forms as illustrated in FIGS. 2, 3, 4, and 5.

  The first monitoring target entity information transmitting apparatus 2A shown in FIG. 2 has unique identification information for specifying the transmission source of the position information TGPS of the monitoring target entity acquired by using a GPS (Global Positioning System) satellite. It includes a transmitter 21 that can transmit together with TXID, an air battery 22 for supplying power to the transmitter 21, and a housing 25 that houses the transmitter 21 and the air battery 22 together with other components (not shown).

  The air battery 22 is preliminarily displayed (printed display) with unique identification information TXID for specifying a transmission source as a two-dimensional code (for example, QR code) 24, a ventilation film 23 for taking in oxygen in the air, and this ventilation An opaque and non-breathable seal 26 covering the membrane 23. The air battery 22 employed here is, for example, a button-shaped air battery, which is a secondary battery that can be charged and reused even if it is a disposable primary battery having a driving life of years or years. There may be. In addition, when using a disposable primary battery, it is possible, for example, by exchanging the gas permeable membrane 23 with one in use at the time of battery exchange.

  In the first monitoring target entity information transmitting apparatus 2A, power supply to the transmitter 21 and other components is started by the activated air battery 22 when the seal 26 is peeled off by the monitor of the monitoring target entity. At the same time, reading of unique identification information TXID for specifying a transmission source preliminarily displayed by the QR code 24 on the ventilation film 23 is permitted. This prevents the transmission source identification information TXID from being read by a third party other than the party, such as a monitor of the monitoring target entity, and is monitored by the terminal used by the monitor of the monitoring target entity (monitoring terminal 7). It becomes possible to grasp the position information TGPS of the target entity.

  The unique identification information TXID for specifying the transmission source displayed in advance by the QR code 24 on the gas permeable membrane 23 of the air battery 22 is specifically the unique code of the monitoring target entity information transmitting apparatus 2A given at the manufacturing stage. (Maker ID + model ID + serial ID), and an electronic certificate may be used.

  The second monitoring target entity information transmitting apparatus 2B shown in FIG. 3 includes a transmitter 21 that can transmit the position information TGPS of the monitoring target entity acquired by using the GPS satellite together with the unique identification information TXID that identifies the transmission source, It has a gas permeable membrane 23 for taking in oxygen in the air and includes an air battery 22 for supplying power to the transmitter 21.

  The monitoring target entity information transmitting apparatus 2B accommodates the transmitter 21 and the air battery 22 together with other components (not shown), and the unique identification information TXID for specifying the transmission source is a two-dimensional code (for example, QR code). 24 further includes a container 25 having an identification information display unit 25a displayed in advance 24, and an opaque and non-breathable seal 26 covering the ventilation film 23 of the air battery 22 and the identification information display unit 25a of the container 25. .

  The air battery 22 employed here is, for example, a button-shaped air battery, which is a secondary battery that can be charged and reused even if it is a disposable primary battery having a driving life of years or years. There may be.

  In the second monitoring target entity information transmitting apparatus 2B, the power supply to the transmitter 21 and other components is started by the activated air battery 22 when the seal 26 is peeled off by the monitor of the monitoring target entity. At the same time, the identification information display unit 25a is allowed to read the unique identification information TXID for specifying the transmission source displayed in advance by the QR code 24. This prevents the transmission source identification information TXID from being read by a third party other than the party, such as a monitor of the monitoring target entity, as well as the first monitoring target entity information transmitting apparatus 2A described above, and The position information TGPS of the monitoring target entity can be grasped at the terminal (monitoring user use terminal 7) used by the monitoring person.

  The unique identification information TXID for specifying the transmission source displayed in advance on the identification information display unit 25a of the container 25 with the QR code 24 is similarly the unique code of the monitoring target entity information transmission device 2D assigned at the manufacturing stage. An electronic certificate may be used.

  The third monitoring target entity information transmitting apparatus 2C shown in FIG. 4 includes a transmitter 21 that can transmit the position information TGPS of the monitoring target entity acquired by using the GPS satellite together with the unique identification information TXID that identifies the transmission source, A battery 22 for supplying power to the transmitter 21 and an oxygen detection sensor 27 for detecting oxygen in the air are included.

  The monitoring target entity information transmitting apparatus 2C accommodates the transmitter 21, the battery 22, and the oxygen detection sensor 27 together with other components (not shown), and the unique identification information TXID for specifying the transmission source is a two-dimensional code (for example, , QR code) 24 and a container 25 having an identification information display part 25a displayed in advance, and an opaque and non-breathable seal 26 covering the oxygen detection sensor 27 and the identification information display part 25a of the container 25. Including.

  The battery 22 employed here is, for example, a button-shaped dry battery, and is a secondary battery that can be charged and reused even if it is a disposable primary battery having a driving life of years or years. Also good.

  In the third monitoring target entity information transmitting apparatus 2C, when the seal 26 is peeled off by the monitoring entity monitoring entity, oxygen in the air is detected by the oxygen detection sensor 27 and transmitted from the battery 22. The device 21 is allowed to form a path for starting power feeding, and the identification information display unit 25a is allowed to read the unique identification information TXID for specifying the transmission source displayed in advance by the QR code 24. This prevents the transmission source identification information TXID from being read by a third party other than the party, such as the monitor of the monitoring target entity, as in the first and second monitoring target entity information transmitting apparatuses 2A and 2B described above. At the same time, it is possible to grasp the position information TGPS of the monitoring target entity at a terminal (monitoring user use terminal 7) used by the monitoring target entity.

  The unique identification information TXID for specifying the transmission source displayed in advance on the identification information display unit 25a of the container 25 with the QR code 24 is similarly the unique code of the monitoring target entity information transmission device 2D assigned at the manufacturing stage. An electronic certificate may be used.

  The fourth monitoring target entity information transmitting apparatus 2D shown in FIG. 5 includes a transmitter 21 that can transmit the position information TGPS of the monitoring target entity acquired by using the GPS satellite together with the unique identification information TXID that identifies the transmission source, A battery 22 for supplying power to the transmitter 21 and a reception sensor 28 for detecting an activation signal (for example, Bluetooth (registered trademark) signal, infrared signal) by short-range wireless transmission are included.

  The monitoring target entity information transmitting apparatus 2D accommodates the transmitter 21, the battery 22, and the reception sensor 28 together with other components (not shown), and the unique identification information TXID for specifying the transmission source is a two-dimensional code (for example, A container 25 having an identification information display part 25a displayed in advance by a QR code 24, and an opaque and radio signal opaque seal 26 covering the reception sensor 28 and the identification information display part 25a of the container 25. .

  The battery 22 employed here is, for example, a button-shaped dry battery, and is a secondary battery that can be charged and reused even if it is a disposable primary battery having a driving life of years or years. Also good.

  In the fourth monitoring target entity information transmitting apparatus 2D, when the seal 26 is peeled off by the monitor of the monitoring target entity, the reception sensor 28 detects an activation signal by short-range wireless transmission, and the battery 22 The transmitter 21 is configured to form a path for starting power supply, and the identification information display unit 25a is allowed to read the unique identification information TXID for specifying the transmission source displayed in advance by the QR code 24. Accordingly, the transmission source identification information TXID is transmitted to a third party other than the parties such as the monitoring target entity monitoring person as in the first, second, and third monitoring target entity information transmitting apparatuses 2A, 2B, and 2C. While being prevented from being read, it is possible to grasp the position information TGPS of the monitoring target entity at a terminal (monitoring user use terminal 7) used by the monitoring target entity monitoring person.

  The unique identification information TXID for specifying the transmission source displayed in advance on the identification information display unit 25a of the container 25 with the QR code 24 is similarly the unique code of the monitoring target entity information transmission device 2D assigned at the manufacturing stage. An electronic certificate may be used.

  The monitoring target entity information transmitting apparatus 2 (2A, 2B, 2C, 2D) illustrated in FIGS. 2, 3, 4, and 5 includes a transmitter 21, an air battery 22 or a battery as shown in FIG. 22 and an oxygen detection sensor 27 or a reception sensor 28 depending on the embodiment, and further includes the following components.

  That is, the monitoring target entity information transmission apparatus 2 includes a CPU 201 as a processor, a RAM 202 as a working memory, and a ROM 203 that stores a boot program for startup.

  The monitoring target entity information transmitting apparatus 2 includes a nonvolatile flash memory 204 that stores an OS, application programs, and various types of information (including data) in a rewritable manner, and an antenna and a communication interface (not shown).

  Furthermore, the monitoring target entity information transmitting apparatus 2 includes a GPS receiver (not shown) that receives positioning signals transmitted from a plurality of GPS satellites and outputs the position information TGPS of the monitoring target entity. Is provided with a position information acquisition unit 205 that acquires position information TGPS of the monitoring target entity from the GPS receiver.

  The monitoring target entity information transmitting apparatus 2 includes an index detection unit 206 that acquires (detects) the index information TGBM of the monitoring target entity, that is, the movement index, the health index, the environmental index, and the like in conjunction with various index detection sensors (not shown). In addition. The index detection unit 206 uses an acceleration sensor, a strain sensor, a temperature sensor, a humidity sensor, a pulse wave sensor, or the like as an index detection sensor according to the detection index.

  In the monitoring target entity information transmitting device 2C, when oxygen in the air is detected by the oxygen detection sensor 27, the switch SW is operated under the control of the processor 201, so that power supply from the battery 22 to the transmitter 21 is started. A path is formed. Further, in the monitoring target entity information transmitting apparatus 2D, when the activation signal by the short-distance wireless transmission from the terminal used by the monitor of the monitoring target entity (monitoring user use terminal 7) is detected by the reception sensor 28, the processor 201 By operating the switch SW under the control, a path for starting power feeding from the battery 22 to the transmitter 21 is formed.

  The transmitter 21 includes monitoring source entity information TG including transmission source identification information TXID, position information TGPS of the monitoring target entity, and monitoring time information TM, and further including index information TGBM of the monitoring target entity according to the embodiment. After performing a predetermined modulation process or the like (see FIG. 7), it is transmitted as a radio frequency signal. Here, either the standard time or the total seconds (integrated seconds) can be applied to the monitoring time information TM in the format of year / month / day, hour: minute. Further, the transmission source identification information TXID uses data preset (registered) in the flash memory 204.

  More specifically, the monitoring target entity information transmitting apparatus 2 described above includes the position information acquisition unit 205 and does not include the index detection unit 206. In the form without the index detection unit 206, the transmission source identification information TXID, the monitoring target entity position information TGPS, and The monitoring target entity is attached to the monitoring target entity as a wearable computer that wirelessly transmits the monitoring target entity information TG including the monitoring time information TM. Therefore, it is possible to always grasp the position information about the monitoring target entity including persons such as children, the elderly, and patients, pets such as dogs and cats, and objects such as vehicles and valuables.

As a result, the monitoring target entity information transmitting apparatus 2 of this form can be used as follows, for example.
(1) It is attached to a person's clothing, and the position information is continuously captured. At the same time, a warning is notified when a preset allowable action range is exceeded.
(2) The position information is constantly captured by wearing the pet collar, and at the same time, a warning is given when the preset allowable action range is exceeded.
(3) Measures against theft of objects such as vehicles.
(4) Management of valuables and other items.

  In addition, the monitoring target entity information transmission apparatus 2 described above includes both the position information acquisition unit 205 and the index detection unit 206 that is linked to various index detection sensors, and the transmission source identification information TXID, the monitoring target entity The monitoring target entity is attached as a wearable computer that wirelessly transmits the monitoring target entity information TG including the position information TGPS, the index information TGBM of the monitoring target entity, and the monitoring time information TM. Therefore, it is possible to always grasp the index information together with the position information about the monitoring target entity including the person, the pet, and the object.

When the index detection unit 206 is linked with an acceleration sensor and / or a strain sensor as an index detection sensor, the index detection unit 206 can obtain a movement index as the index information TGBM of the monitoring target entity. As a result, the monitoring target entity information transmitting apparatus 2 of this form can be used as follows, for example.
(1) Detection of human and pet movements.
(2) Detection of what transportation means a person is moving.
(3) Detection of collision of objects such as vehicles.
(4) Detection of destruction of objects such as window glass.
(5) Detection of shaking of objects such as buildings.

When the index detection unit 206 is linked with the temperature sensor and the pulse wave sensor as the index detection sensor, the index detection unit 206 can obtain the health index as the index information TGBM of the monitoring target entity. As a result, the monitoring target entity information transmitting apparatus 2 of this form can be used as follows, for example.
(1) Pulse management of people and pets.
(2) Person and pet body temperature management.

In addition, the index detection unit 206 can obtain an environmental index as the index information TGBM of the monitoring target entity when interlocked with the temperature sensor and the humidity sensor as the index detection sensor. As a result, the monitoring target entity information transmitting apparatus 2 of this form can be used as follows, for example.
(1) Temperature and humidity management of things such as greenhouses.
(2) Watering management of things such as potted plants.
(3) Person diaper management in nursing homes and nurseries.
[Monitored entity information processing]

  Next, the operation in the monitoring target entity information processing system 1 will be described with reference to FIG.

  9 and 10 show an example of the monitoring target entity information processing sequence in the monitoring target entity information processing system 1 described above. In the following description, the intervention of the communication network 5 is omitted unless it becomes unclear.

  In the monitoring target entity information transmitting apparatus 2 (2A, 2B) described above, the transmitter 21 and other components (by the air battery 22 that is activated when the seal 26 is peeled off by the monitor of the monitoring target entity) When the power supply is started and the monitoring target entity information transmission processing program is executed, the processor 201 performs the following processes S20, S21, S22, S24, and S25 (see FIG. 9).

  Further, in the monitoring target entity information transmitting apparatus 2 (2C, 2D), a path for starting power supply from the battery 22 to the transmitter 21 is triggered when the seal 26 is peeled off by the monitor of the monitoring target entity. When the processor 201 forms and the monitoring target entity information transmission processing program is executed, the processor 201 performs the following processes S20 to S25 (see FIG. 9).

  [Processing S20, S21] At a predetermined interval, unique identification information TXID for specifying a transmission source preset (registered) in the flash memory 204 is obtained (read).

  [Processing S22] The latest position information TGPS of the monitoring target entity acquired by the position information acquisition unit 205 is obtained.

  [Process S23] The latest monitoring target entity index information TGBM detected by the index detection unit 206 is obtained.

  [Process S24] The monitoring time entity TM is added to the unique identification information TXID for identifying the obtained transmission source, the position information TGPS of the monitoring target entity, and the index information TGBM of the monitoring target entity, thereby obtaining the monitoring target entity information TG. Generate.

  [Process S25] The generated monitoring target entity information TG is voluntarily wirelessly transmitted.

  The monitor of the monitoring object entity peels off the seal 26 and, at an arbitrary timing, displays the unique identification information TXID for specifying the transmission source previously displayed (printed) with the QR code 24 in the built-in camera of the monitor using terminal 7 Can be read.

  In the IoT relay device 4, when the power is turned on, the monitoring target entity information processing program is activated, and the processor performs the following processing.

  [Processing S40 (see FIG. 9)] The monitoring target entity information TG transmitted from each monitoring target entity information transmitting apparatus 2 is collected via the corresponding wireless receiver 3.

  [Process S41] Source information (source IP address) SA for specifying the IoT relay device 4 and destination information (destination IP address) DA for specifying the abnormality monitoring device 6 are added to the collected monitoring target entity information TG, and the IP The monitoring target entity information TGIP (see FIG. 8) converted into the protocol is generated.

  [Process S42] The generated monitoring target entity information TGIP is transmitted to the abnormality monitoring apparatus 6 via the communication network 5.

  In the abnormality monitoring device 6, the monitoring target entity information processing program is started when the power is turned on, and the processor performs the following processing.

  [Processing S60 (see FIG. 10)] The monitoring target entity information TGIP transmitted from the IoT relay device 4 is received.

  [Process S61] The received monitoring object entity information TGIP is integrated into the integrated database DB1 (see FIG. 11).

  Here, the monitoring target entity information TGIP accumulated (stored) in the accumulation database DB1 includes transmission source information (transmission source IP address) SA that identifies the IoT relay device 4 and destination information (destination IP) that identifies the abnormality monitoring device 6. Address) Information obtained by removing DA. That is, using the transmission source identification information TXID as key information, the position information TGPS of the monitoring target entity, the index information TGBM of the monitoring target entity, and the monitoring time information TM are accumulated in association with each other.

  [Process S62] When the QR code transmitted from the supervisor using terminal 7 is received, the corresponding transmission source identification information TXID is searched from the integrated database DB1.

  [Processing S63] When the corresponding transmission source identification information TXID can be searched, the supervisor using terminal 7 is allowed to input other information. At the same time, an on “1” flag is registered in the flag column of the integrated database DB1. When the ON “1” flag is registered in the flag column, unauthorized access to this record is prohibited by a third party terminal other than the shared terminal.

  [Process S64] When other information transmitted from the supervisor use terminal 7 is received, it is stored in association with the transmission source identification information TXID in the integrated database DB1.

  [Processing S65] Based on the permissible ranges (permissible movement range, permissible temperature range, permissible humidity range, etc.) for the supervised entity registered by the supervisor using terminal 7, the accumulated subject matter information TGIP is analyzed. .

  [Process S66] The result (for example, normal or abnormal) of the analysis process of the monitoring target entity information TGIP is stored in the integrated database DB1.

  [Process S67] In response to a request from the supervisor use terminal 7, the analysis processing result is transmitted to the supervisor use terminal 7. When an abnormality occurs, the analysis processing result is actively transmitted to the supervisor user terminal 7 regardless of the request from the supervisor user terminal 7. An alarm sound may be used in combination for positive transmission of the analysis processing result.

  Further, in the supervisor use terminal 7, the monitoring target entity information processing program is activated upon power-on or an instruction from the supervisor, and the processor performs the following processing.

  [Processing S70 (see FIG. 10)] The acquired QR code corresponding to the transmission source identification information TXID is transmitted to the abnormality monitoring device 6 through a site (web page) provided by the abnormality monitoring device 6.

  [Processing S71] When input of other information is permitted from the abnormality monitoring device 6, the supervisor of the monitoring target entity inputs necessary information and transmits it to the abnormality monitoring device 6.

  Here, the other information includes, for example, the entity name (person name, pet name, article name, etc.) for the monitoring target entity, the allowable range (allowable movement range, allowable temperature range, allowable humidity range, etc.) for the monitoring target entity, It includes identification information (telephone number, e-mail address, etc.) of the supervisor using terminal 7 and identification information (phone number, e-mail address, etc.) of the shared terminal.

  [Processing S72] The abnormality monitoring apparatus 6 is requested for the analysis processing result of the monitoring target entity information TGIP.

  [Process S73] The analysis process result is received from the abnormality monitoring apparatus 6.

  [Process S74] The received analysis process result is displayed.

[Effect in one embodiment]
The monitoring target entity information transmitting apparatus 2 (2A, 2B, 2C, 2D) of the above-described embodiment is configured to transmit the transmission source identification information TXID to a third party other than the party, such as a monitor of the monitoring target entity. In addition to preventing this, it is possible to grasp the position information TGPS of the monitoring target entity at the terminal (monitoring user use terminal 7) used by the monitoring target entity.

  The monitoring target entity information transmitting apparatus 2 (2A, 2B, 2C, 2D) according to the embodiment described above includes the position information acquisition unit 205 and does not include the index detection unit 206, and the transmission source identification information TXID, The monitoring target entity is attached to the monitoring target entity as a wearable computer that wirelessly transmits the monitoring target entity information TG including the position information TGPS of the monitoring target entity and the monitoring time information TM. Therefore, it is possible to always grasp the position information about the monitoring target entity including persons such as children, the elderly, and patients, pets such as dogs and cats, and objects such as vehicles and valuables.

  The monitoring target entity information transmitting apparatus 2 (2A, 2B, 2C, 2D) according to the embodiment described above includes both the position information acquisition unit 205 and the index detection unit 206 that is linked to various index detection sensors. Is attached to the monitoring target entity as a wearable computer that wirelessly transmits the monitoring target entity information TG including the transmission source identification information TXID, the monitoring target entity position information TGPS, the monitoring target entity index information TGBM, and the monitoring time information TM. . Therefore, it is possible to always grasp the index information together with the position information about the monitoring target entity including the person, the pet, and the object.

[Modification]
The processing in the above-described embodiment is provided as a computer-executable program, and can be provided via a non-transitory computer-readable recording medium such as a CD-ROM or a flexible disk, and further via a communication line.

  In addition, each of the processes in the above-described embodiment can be performed by selecting and combining any or all of the processes.

DESCRIPTION OF SYMBOLS 1 Monitoring object entity information processing system 2 Monitoring object entity information transmission apparatus 3 Wireless receiver 4 IoT relay apparatus 5 Communication network 6 Abnormality monitoring apparatus 7 Monitoring user terminal 2A Monitoring object entity information transmission apparatus 2B Monitoring object entity information transmission apparatus 2C Monitoring Target entity information transmitting device 2D Monitoring target entity information transmitting device 21 Transmitter 22 Air battery / battery 23 Breathing membrane 24 QR code 25 Container 25a Identification information display unit 26 Seal 27 Oxygen detection sensor 28 Reception sensor 205 Position information acquisition unit 206 Index Detection unit

Claims (19)

A transmitter capable of wirelessly transmitting the position information of the monitored entity acquired by using a satellite;
An air battery for powering the transmitter;
The air battery includes a ventilation film for preliminarily displaying unique identification information for specifying a transmission source, and taking in oxygen in the air; and an opaque and non-breathable seal covering the ventilation film;
When the seal is peeled off, power supply to the transmitter is started by the air battery, and reading of unique identification information for specifying the transmission source displayed in advance on the gas permeable membrane is permitted;
Monitoring target entity information transmission device. A transmitter capable of wirelessly transmitting the position information of the monitored entity acquired by using a satellite;
An air cell for supplying power to the transmitter, comprising a gas permeable membrane for capturing oxygen in the air;
A container including an identification information display unit that houses the transmitter and the air battery and displays in advance unique identification information that identifies a transmission source;
An opaque and non-breathable seal that covers the gas permeable membrane of the air battery and the identification information display portion of the container;
When the seal is peeled off, power supply to the transmitter is started by the air battery, and reading of unique identification information for specifying the transmission source displayed in advance on the identification information display unit is permitted. ;
Monitoring target entity information transmission device. A transmitter capable of wirelessly transmitting the position information of the monitored entity acquired by using a satellite;
A battery for powering the transmitter;
An oxygen detection sensor for detecting oxygen in the air;
A container including an identification information display unit that accommodates the transmitter, the battery, and the oxygen detection sensor, and displays unique identification information for specifying a transmission source;
An opaque and non-breathable seal covering the oxygen detection sensor and the identification information display part of the container;
When the seal is peeled off, oxygen in the air is detected by the oxygen detection sensor to form a path for starting power supply from the battery to the transmitter, and in the identification information display unit Allowing reading of unique identification information identifying the transmission source displayed in advance;
Monitoring target entity information transmission device. A transmitter capable of wirelessly transmitting the position information of the monitored entity acquired by using a satellite;
A battery for powering the transmitter;
A receiving sensor for detecting an activation signal by short-range wireless transmission;
A container including an identification information display unit that accommodates the transmitter, the battery, and the reception sensor, and displays unique identification information for specifying a transmission source;
An opaque and wireless signal opaque seal covering the receiving sensor and the identification information display part of the container;
When the seal is peeled off, the reception sensor detects the activation signal, forms a path for starting power supply from the battery to the transmitter, and displays in advance on the identification information display unit. Allowing reading of unique identification information identifying the source to be transmitted;
Monitoring target entity information transmission device. When the seal is peeled off, unique identification information for specifying the transmission source that is allowed to be read is printed and displayed in advance in a two-dimensional code.
5. The monitoring target entity information transmitting apparatus according to claim 1, 2, 3, or 4. The transmitter is capable of wirelessly transmitting indicator information of a monitoring target entity detected by a sensor together with position information of the monitoring target entity acquired by using a satellite.
5. The monitoring target entity information transmitting apparatus according to claim 1, 2, 3, or 4. The indicator information of the monitoring target entity includes at least one of a movement indicator, a health indicator, and an environmental indicator,
The sensor includes at least one of an acceleration sensor, a strain sensor, a temperature sensor, a humidity sensor, and a pulse wave sensor.
The monitoring target entity information transmitting apparatus according to claim 6. The monitoring target entity information transmitting device according to claim 1, 2, 3, or 4;
Means for collecting monitoring target entity information wirelessly transmitted from the monitoring target entity information transmitting device;
Means for transmitting the monitored entity information of the IP protocol to a predetermined destination via a communication network to request processing of the collected monitored entity information; and an IoT relay device including:
A monitoring target entity information processing system. Means for receiving the monitoring target entity information transmitted from the IoT relay device and accumulating in the database;
When receiving a two-dimensional code corresponding to the unique identification information specifying the transmission source transmitted from the monitor user terminal, the unique identification information specifying the corresponding transmission source is searched from the database, and the monitoring is performed. Means for allowing the monitor user terminal to input other information about the target entity;
When receiving other information transmitted from the supervisor using terminal, means for storing in association with unique identification information for identifying the transmission source in the database;
Means for analyzing the monitoring target entity information subjected to the accumulation processing based on an allowable range as other information about the monitoring target entity registered by the monitor user terminal;
Storing the result of the analysis processing of the monitoring target entity information in the database, and in response to a request from the supervisor using terminal, transmitting the analysis processing result to the supervisor using terminal,
A monitoring target entity information processing apparatus corresponding to the predetermined destination;
The monitoring target entity information processing system according to claim 8. The monitoring target entity information processing apparatus actively transmits the analysis processing result to the supervisor user terminal regardless of a request from the supervisor user terminal when an abnormality occurs.
The monitoring target entity information processing system according to claim 9. The monitoring target entity information includes unique identification information that identifies the transmission source and position information of the monitoring target entity.
The monitoring target entity information processing system according to claim 8, 9 or 10. The monitoring target entity information includes unique identification information that identifies the transmission source, position information of the monitoring target entity, and index information of the monitoring target entity.
The monitoring target entity information processing system according to claim 8, 9 or 10. The other information about the monitoring target entity further includes an entity name of the monitoring target entity, identification information of the monitor user terminal, and identification information of the shared terminal.
The monitoring target entity information processing system according to claim 9 or 10. Collecting monitoring target entity information wirelessly transmitted from the monitoring target entity information transmitting device according to claim 1, 2, 3, or 4;
In order to request processing of the collected monitoring target entity information, the IoT relay device executes a step of transmitting the monitoring target entity information of the IP protocol to a predetermined destination via a communication network.
Monitoring target entity information processing method. Receiving the monitoring target entity information transmitted from the IoT relay device, and accumulating it in a database;
When receiving a two-dimensional code corresponding to the unique identification information specifying the transmission source transmitted from the monitor user terminal, the unique identification information specifying the corresponding transmission source is searched from the database, and the monitoring is performed. Allowing the monitor user terminal to input other information about the target entity;
When receiving other information transmitted from the supervisor using terminal, storing in association with unique identification information for identifying the transmission source in the database;
Analyzing the collected monitoring target entity information based on an allowable range as other information about the monitoring target entity registered by the supervisor using terminal;
Storing the result of the analysis process of the monitoring target entity information in the database, and transmitting the analysis process result to the monitor user terminal in response to a request from the monitor user terminal. Executed by the monitored entity information processing apparatus corresponding to the destination,
The monitoring target entity information processing method according to claim 14. The monitoring target entity information processing apparatus actively transmits the analysis processing result to the supervisor user terminal regardless of a request from the supervisor user terminal when an abnormality occurs.
The monitoring target entity information processing method according to claim 15. The monitoring target entity information includes unique identification information that identifies the transmission source and position information of the monitoring target entity.
The monitoring target entity information processing method according to claim 14, 15 or 16. The monitoring target entity information includes unique identification information that identifies the transmission source, position information of the monitoring target entity, and index information of the monitoring target entity.
The monitoring target entity information processing method according to claim 14, 15 or 16. The other information about the monitoring target entity further includes an entity name of the monitoring target entity, identification information of the monitor user terminal, and identification information of the shared terminal.
The monitoring target entity information processing method according to claim 15 or 16.