JP2018195931A - Portable terminal device, repeating installation, management system, notification method, relay method and program - Google Patents

Abstract

To save power consumption of a portable terminal device for use in technique of monitoring the position of a monitoring object.SOLUTION: A portable terminal device executes first notification processes (3)'-(4)' for calculating positional information based on GPS signals, and transmitting the positional information and portable terminal identification information to cloud, and a second notification process (3) for transmitting the portable terminal identification to at least one of multiple SMs (smart meters). The SM transmits the received portable terminal identification information to cloud (4). The portable terminal device executes any one of the first notification process and second notification process, every prescribed timing. When communicable with any SM at the prescribed timing, the second notification process is executed, and when not communicable with any SM, the first notification process is executed.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a mobile terminal device, a relay device, a management system, a notification method, a relay method, and a program.

  Patent Document 1 discloses a watching system. The system monitors and watches the target using a portable terminal. When the target is outdoors, the mobile terminal uses the GPS (global positioning system) to detect the location of the target at any time and notifies the notification target by e-mail or the like. When the target is indoors, the mobile terminal communicates wirelessly (eg, Bluetooth (registered trademark) communication) with a door open / close sensor installed indoors, and the acquired information (eg, door open / close status) is sent via e-mail, etc. To notify the notification target.

  Patent Document 2 discloses an indoor positioning system. When the mobile terminal is outdoors, the system identifies the position of the mobile terminal with GPS. When the mobile terminal is indoors, the system identifies the position of the mobile terminal based on the communication state between the plurality of position acquisition units installed indoors and the mobile terminal.

  Patent Document 3 discloses a remote control device. Only when the identification information and password received from the outside are valid, the remote control device permits access to the home control device that centrally controls each device in the home.

  Patent Document 4 discloses a portable player. When the outdoor mode is set, when content is selected in the portable player, the portable player plays back the content recorded on the portable player. When the content is selected in the portable player when the indoor mode is set, the portable player instructs the client to reproduce the content recorded on the server or the content recorded on itself.

Utility model registration No. 3167778 JP, 2006-105062, A JP 2002-291057 A JP 2008-59707 A

  The present inventors examined a technique for monitoring the location of a monitoring target (eg, an elderly person, a child, etc.). For example, the location of the monitoring target can be monitored by having a mobile terminal device having a GPS function and a communication function in the monitoring target and causing the mobile terminal device to perform positioning and notification.

  However, positioning by GPS consumes relatively large power. For this reason, if continuous monitoring is performed by positioning by GPS, the mobile terminal device runs out of battery at a relatively early timing, and thereafter monitoring cannot be continued. None of Patent Documents 1 to 4 discloses the problem and its solution.

  An object of the present invention is to realize power saving of a mobile terminal device used in a technique for monitoring a position of a monitoring target.

According to the present invention,
First notification means for calculating position information based on a GPS signal and executing first notification processing for transmitting the position information and mobile terminal identification information to an external device;
Second notification means for executing second notification processing for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Have
At any given timing, execute one of the first notification process and the second notification process,
When the predetermined notification timing is in a state where communication with at least one of the plurality of relay devices is possible, the second notification process is executed, and when the communication device does not communicate with any of the relay devices, A portable terminal device that executes a first notification process is provided.

Moreover, according to the present invention,
A smart meter,
First communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
Is provided.

Moreover, according to the present invention,
First communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for associating the portable terminal identification information, the identification information of the own terminal, and time information and transmitting them to an external device;
Is provided.

  Moreover, according to this invention, the management system which has the said portable terminal device and the said relay apparatus is provided.

Moreover, according to the present invention,
Computer
First notification processing for calculating position information based on a GPS signal and transmitting the position information and mobile terminal identification information to an external device;
A second notification process for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Run
At any given timing, execute one of the first notification process and the second notification process,
When the predetermined notification timing is in a state where communication with at least one of the plurality of relay devices is possible, the second notification process is executed, and when the communication device does not communicate with any of the relay devices, A notification method for executing the first notification process is provided.

Moreover, according to the present invention,
Computer
First notification means for performing a first notification process for calculating position information based on a GPS signal and transmitting the position information and mobile terminal identification information to an external device;
Second notification means for executing a second notification process for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Function as
At any given timing, execute one of the first notification process and the second notification process,
In a state where communication with at least one of the plurality of relay devices is possible at the predetermined timing, the second notification process is executed, and when communication with any of the relay devices is not possible, A program for executing the first notification process is provided.

Moreover, according to the present invention,
Smart meter
A first communication step of receiving mobile terminal identification information from the mobile terminal device;
A second communication step of transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
A relay method for performing is provided.

Moreover, according to the present invention,
Smart meter,
A first communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
A program is provided that functions as:

Moreover, according to the present invention,
Computer
A first communication step of receiving mobile terminal identification information from the mobile terminal device;
A second communication step of associating the mobile terminal identification information, the identification information of the own terminal, and time information with each other and transmitting them to an external device;
A relay method for performing is provided.

Moreover, according to the present invention,
Computer
A first communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for associating the portable terminal identification information, the identification information of the own terminal, and time information and transmitting them to an external device;
A program is provided that functions as:

  ADVANTAGE OF THE INVENTION According to this invention, the power saving of the portable terminal device used for the technique which monitors the position of monitoring object is implement | achieved.

It is an example of a functional block diagram of a management system of this embodiment. It is a figure which shows an example of the hardware constitutions of each of the portable terminal device of this embodiment, a relay apparatus, and a processing system. It is an example of the functional block diagram of the portable terminal device of this embodiment. It is a flowchart which shows an example of the flow of a process of the portable terminal device of this embodiment. It is an example of the functional block diagram of the relay apparatus of this embodiment. It is a figure which shows typically an example of the information which the relay apparatus of this embodiment processes. It is a figure which shows typically an example of the information which the processing system of this embodiment processes. It is a figure which shows typically an example of the information which the processing system of this embodiment processes. It is a figure which shows the specific example of the management system of this embodiment.

<First Embodiment>
First, an overview and an outline of the management system of this embodiment will be described with reference to FIG. The management system includes a mobile terminal device 10, a relay device 20, and a processing system 30. The mobile terminal device 10 is carried by a monitoring target (eg, an elderly person, a child, etc.) that is a target for monitoring the whereabouts. The relay device 20 according to the present embodiment is a smart meter (electric energy meter), and is installed, for example, in the site of each power consumer for each power consumer. That is, the relay devices 20 are installed in a wide area. The processing system 30 is a server (for example, a cloud server), and is managed by an operator that provides a monitoring service.

  The mobile terminal device 10 executes a first notification process and a second notification process. The power required for the second notification process is smaller than the power required for the first notification process.

  In the first notification process, the mobile terminal device 10 calculates the location information of the device itself based on the GPS signal, and transmits the calculated location information and the mobile device identification information of the device itself to the processing system 30. The mobile terminal device 10 is connected to the Internet via a communication base station (for example, a wireless local area network (LAN) base station, a mobile phone base station, a smart phone base station, etc.), for example, the processing system 30 using IP (internet protocol). Communicate with.

  In the second notification process, the mobile terminal device 10 transmits its own mobile terminal identification information to at least one relay device 20 capable of communication among the plurality of relay devices 20. The mobile terminal device 10 communicates with the relay device 20 according to a communication standard such as Wi-SUN, NB-IoT, LoRaWAN, SIGFOX, Wi-Fi HaLow, RPMA, and Flexnet belonging to LPWA (low power wide area).

  The mobile terminal device 10 executes either the first notification process or the second notification process at every predetermined timing. When the mobile terminal device 10 is in a state where it can communicate with at least one of the plurality of relay devices 20 at a predetermined timing, the mobile terminal device 10 executes a second notification process. And the portable terminal device 10 performs a 1st notification process, when it is not in the state which can communicate with any relay apparatus 20 in predetermined timing.

  The relay device 20 transmits the mobile terminal identification information acquired from the mobile terminal device 10 to the processing system 30 in association with the information for identifying the own device.

  The processing system 30 manages the position of the mobile terminal device 10 based on the information received from the mobile terminal device 10 in response to the first notification processing and the information received from the relay device 20 in response to the second notification processing. To do.

  By the way, when the second notification process is executed, that is, when the mobile terminal device 10 is communicable with any one of the relay devices 20, the mobile terminal device 10 is close to the relay device 20. Conceivable. The position of the mobile terminal device 10 can be estimated by specifying the relay device 20 in a state where it can communicate with each mobile terminal device 10 based on the information received from the relay device 20 according to the second notification process.

  The management system according to the present embodiment executes the second notification process with relatively low power consumption in an environment in which the second notification process can be executed, and relatively consumes in an environment in which the second notification process cannot be executed. The first notification process with high power is executed. That is, the second notification process is preferentially executed, and the first notification process is executed when the second notification process cannot be executed. For this reason, execution of the 1st notification process with comparatively large power consumption, ie, utilization of GPS, can be suppressed. As a result, power saving can be realized.

  Next, the configuration of the mobile terminal device 10, the relay device 20, and the processing system 30 will be described in detail. First, an example of the hardware configuration of each of the mobile terminal device 10, the relay device 20, and the processing system 30 will be described. Each functional unit included in each of the mobile terminal device 10, the relay device 20, and the processing system 30 of the present embodiment includes a CPU (Central Processing Unit) of any computer, a memory, a program loaded into the memory, and a hard disk that stores the program Storage unit (can store not only programs stored from the stage of shipping the device in advance, but also storage media such as CDs (Compact Discs) and programs downloaded from servers on the Internet), network connection interface It is realized by any combination of hardware and software. It will be understood by those skilled in the art that there are various modifications to the implementation method and apparatus.

  FIG. 2 is a block diagram illustrating a hardware configuration of each of the mobile terminal device 10, the relay device 20, and the processing system 30 according to this embodiment. As shown in FIG. 2, each of the mobile terminal device 10, the relay device 20, and the processing system 30 includes a processor 1A, a memory 2A, an input / output interface 3A, a peripheral circuit 4A, and a bus 5A. The peripheral circuit 4A includes various modules. The processing system 30 may be configured by a plurality of devices that are physically and / or logically separated. In this case, each of the plurality of devices may include a processor 1A, a memory 2A, an input / output interface 3A, a peripheral circuit 4A, and a bus 5A.

  The bus 5A is a data transmission path through which the processor 1A, the memory 2A, the peripheral circuit 4A, and the input / output interface 3A transmit / receive data to / from each other. The processor 1A is an arithmetic processing device such as a CPU or a GPU (Graphics Processing Unit). The memory 2A is a memory such as a RAM (Random Access Memory) or a ROM (Read Only Memory). The input / output interface 3A is an interface for acquiring information from an input device (eg, keyboard, mouse, microphone, physical key, touch panel display, code reader, etc.), external device, external server, external sensor, etc., and an output device ( Examples: display, speaker, printer, mailer, etc.), external device, an interface for outputting information to an external server, etc. The processor 1A can issue a command to each module and perform a calculation based on the calculation result.

  Next, the functional configuration of the mobile terminal device 10 will be described. FIG. 3 shows an example of a functional block diagram of the mobile terminal device 10. As shown in the figure, the mobile terminal device 10 includes a first notification unit 11 and a second notification unit 12.

  The first notification unit 11 calculates position information based on the GPS signal, and executes a first notification process for transmitting the position information and the mobile terminal identification information of the own device to the processing system 30. The first notification unit 11 may transmit the time information to the processing system 30 in association with the position information and the mobile terminal identification information. The time information may be a time at which the position information and the mobile terminal identification information are transmitted to the processing system 30, may be a time at which the position information is acquired, or may be another time according to these. .

  The first notification unit 11 is connected to the Internet via a communication base station (for example, a wireless LAN base station, a mobile phone base station, a smart phone base station, etc.), and communicates with the processing system 30 by, for example, IP.

  The second notification unit 12 executes a second notification process of transmitting the mobile terminal identification information of the own device to at least one relay device 20 capable of communication among the plurality of relay devices 20. Note that the second notification unit 12 may transmit the mobile terminal identification information to the relay device 20 in association with time information. The time information may be a time when the mobile terminal identification information is transmitted to the relay device 20, or may be another time corresponding to this.

  The second notification unit 12 communicates with the relay device 20 according to a communication standard such as Wi-SUN, NB-IoT, LoRaWAN, SIGFOX, Wi-Fi HaLow, RPMA, and Flexnet belonging to LPWA.

  Note that the power required for the second notification process is smaller than the power required for the first notification process.

  The mobile terminal device 10 executes either the first notification process or the second notification process at every predetermined timing.

  In a state where communication with at least one of the plurality of relay devices 20 is possible at a predetermined timing, the second notification unit 12 executes a second notification process. And when it is not in the state which can communicate with any relay apparatus 20 in a predetermined | prescribed timing, the 1st notification part 11 performs a 1st notification process. The means for determining whether or not the mobile terminal device 10 has the relay device 20 that can communicate at each timing is not particularly limited. An example will be described below.

  In this embodiment, examples of the predetermined timing include every 5 minutes, every 10 minutes, every 15 minutes, every 30 minutes, and every hour, but are not limited thereto.

  Here, an example of the flow of processing of the mobile terminal device 10 of the present embodiment will be described using the flowchart of FIG.

  The portable terminal device 10 continues monitoring whether or not the predetermined timing has come (S10) while the processing is not finished (No in S50).

  When the predetermined timing is reached (Yes in S10), the mobile terminal device 10 determines whether it is in a state where it can communicate with at least one of the plurality of relay devices 20 (S20).

  If the mobile terminal device 10 is in a state where it can communicate with at least one relay device 20 (Yes in S20), the mobile terminal device 10 executes a second notification process (S30). On the other hand, when it is not in the state which can communicate with any relay apparatus 20 (No of S20), the portable terminal device 10 performs a 1st notification process (S40). Thereafter, the same processing is repeated.

  Next, the functional configuration of the relay device 20 will be described. FIG. 5 shows an example of a functional block diagram of the relay device 20. As illustrated, the relay device 20 includes a first communication unit 21 and a second communication unit 22. In addition, the relay apparatus 20 of this embodiment is a smart meter (electricity meter). Although not shown, the relay device 20 can further include various functional units included in the smart meter.

  The first communication unit 21 receives mobile terminal identification information from the mobile terminal device 10. The first communication unit 21 communicates with the mobile terminal device 10 according to a communication standard such as Wi-SUN, NB-IoT, LoRaWAN, SIGFOX, Wi-Fi HaLow, RPMA, and Flexnet belonging to LPWA.

  The second communication unit 22 transmits the mobile terminal identification information received by the first communication unit 21 to the processing system 30 in association with the identification information of the own terminal. The second communication unit 22 may transmit the mobile terminal identification information, the identification information of the own terminal, and the time information to the processing system 30 in association with each other.

  When time information is associated with the mobile terminal identification information received from the mobile terminal device 10 by the first communication unit 21, the second communication unit 22 associates the time information with the mobile terminal identification information. It may be transmitted to the processing system 30.

  When the time information is not associated with the mobile terminal identification information received by the first communication unit 21 from the mobile terminal device 10, the second communication unit 22 associates the time information with the mobile terminal identification information, It may be transmitted to the processing system 30. That is, the relay device 20 (smart meter) may associate the time information with the mobile terminal identification information received from the mobile terminal device 10. The time information associated with this case may be the time when the mobile terminal identification information is received from the mobile terminal device 10, or may be another time corresponding to this.

  The second communication unit 22 is a communication method for smart meters, for example, a wireless multi-hop method for hopping communication between smart meters, a portable method using 3G or LTE, a PLC method using a power line, etc. connect.

  Next, the timing at which the second communication unit 22 transmits the mobile terminal identification information received by the first communication unit 21 to the processing system 30 will be described.

  First, the second communication unit 22 transmits information other than information related to the monitoring service (such as mobile terminal identification information received by the first communication unit 21) to the processing system 30. Specifically, the second communication unit 22 transmits power information to the processing system 30 every predetermined time (eg, every 30 minutes, every 15 minutes, every hour, etc.). The power information is, for example, an integrated value [Wh] of power consumed by each power consumer within the most recent predetermined time, but is not limited thereto.

  And the 2nd communication part 22 of this embodiment transmits the portable terminal identification information received so far to the processing system 30 at the same timing as transmission of electric power information. That is, as illustrated in FIG. 6, the relay device 20 stores the mobile terminal identification information received by the first communication unit 21 in association with the time and the transmission flag. The time is a value of time information associated with the mobile terminal identification information. In the transmission flag, a value indicating whether each mobile terminal identification information has been transmitted to the processing system 30 is entered.

  Then, based on the stored information, the second communication unit 22 collectively transmits the mobile terminal identification information received so far from the previous transmission to the processing system 30 at the same timing as the transmission of the power information. Note that the transmitted mobile terminal identification information may be deleted from the storage device. In this case, no transmission flag is required.

  Next, the functional configuration of the processing system 30 will be described. The processing system 30 receives information received from the mobile terminal device 10 in response to the first notification processing (hereinafter, may be referred to as “first information”) and from the relay device 20 in response to the second notification processing. Based on the received information (hereinafter, also referred to as “second information”), the position of the mobile terminal device 10 is managed.

  As illustrated in FIG. 7, the processing system 30 can collectively accumulate the first information and the second information for each mobile terminal identification information. In FIG. 7, time and position are stored in association with each other.

  The time is a value indicated by time information included in the first information and the second information. The position is a position where the mobile terminal device 10 is estimated to exist at each time. The position at each time is estimated based on the first information or the second information. As described above, the first information includes position information calculated based on the GPS signal. For this reason, the said position can be made into the position where the portable terminal device 10 existed at the time.

  On the other hand, the second information includes the identification information of the relay device 20, but does not include a value that directly indicates the specific position. For this reason, the calculation which calculates the position where the portable terminal device 10 existed from 2nd information is required. For example, as illustrated in FIG. 8, the processing system 30 may store the identification information of each of the plurality of relay devices 20 and the installation position in association with each other. Then, the processing system 30 may calculate the position of the mobile terminal device 10 from the identification information of the relay device 20 using the information.

  When there is one relay device 20 that communicates with the mobile terminal device 10 at time t, that is, when there is one relay device 20 that transmits the second information associated with time t to the processing system 30, the processing system 30 It is estimated that the mobile terminal device 10 exists near the relay device 20 at time t. For example, it is estimated that the mobile terminal device 10 exists within a circle having a radius R (design matter) centered on the relay device 20.

  On the other hand, when there are a plurality of relay devices 20 that communicate with the mobile terminal device 10 at time t, that is, when there are a plurality of relay devices 20 that transmit the second information associated with the time t to the processing system 30, the processing system 30 estimates that the mobile terminal device 10 was present near the plurality of relay devices 20 at time t. For example, it may be estimated that the mobile terminal device 10 exists at the center of an arbitrary area including a plurality of relay devices 20 at time t.

  In addition, when there are a plurality of relay devices 20 that communicate with the mobile terminal device 10 at time t, the processing system 30 of the relay device 20 that has the strongest signal strength of communication with the mobile terminal device 10 at time t. It may be estimated that the mobile terminal device 10 exists nearby. For example, it may be estimated that the mobile terminal device 10 exists in a circle having a radius R (design matter) centered on the relay device 20.

  In this case, when the relay device 20 receives the mobile terminal identification information from the mobile terminal device 10 by the second notification process, the signal strength of the communication between the mobile terminal device 10 and the first communication unit 21 at that time May be measured. The second communication unit 22 may further transmit the associated signal strength to the processing system 30 when transmitting the mobile terminal identification information to the processing system 30. By executing these processes, the position of the relay device 20 can be estimated based on the signal strength.

  By the way, the processing system 30 can present the position of the managed mobile terminal device 10 to a predetermined user. The presentation of information may be repeatedly performed every predetermined time (design matter) or may be performed in response to a request from the user. For example, information may be presented by e-mail, a push notification function of an application, or the like, or information may be presented to a user who has logged in on a website.

  The information presented to the user includes the latest estimated position of the mobile terminal device 10, the estimated position of the mobile terminal device 10 at the time specified by the user, the estimated movement trajectory of the mobile terminal device 10 in a predetermined time zone, and the like. Although illustrated, it is not limited to these.

  Next, a specific example of the management system of this embodiment will be described with reference to FIG. The specific example is merely an example of the management system of the present embodiment, and the management system of the present embodiment is not limited to the specific example.

  As shown in the figure, the mobile terminal device 10 is carried by a monitoring target. In the steps (1) and (1) ′, the second notification unit 12 of the mobile terminal device 10 transmits a communication availability confirmation signal at every predetermined timing. For example, the second notification unit 12 transmits a communication availability confirmation signal according to a communication standard such as Wi-SUN, NB-IoT, LoRaWAN, SIGFOX, Wi-Fi HaLow, RPMA, or Flexnet belonging to LPWA.

  When any one of the relay devices 20 receives the communication availability confirmation signal, as shown in (2), the relay device (smart meter: SM) 20 that has received the communication availability confirmation signal transmits a response signal. That is, the first communication unit 21 receives the communication availability confirmation signal transmitted from the mobile terminal device 10 and transmits a response signal in response to the reception.

  Thereafter, as shown in (3), the mobile terminal device 10 that has received the response signal transmits mobile terminal identification information. The relay device 20 that has received the mobile terminal identification information transmits the received mobile terminal identification information to the processing system (cloud) 30 in association with the identification information of the own terminal, as shown in (4).

  On the other hand, when none of the relay devices 20 receives the communication permission confirmation signal, none of the relay devices 20 transmits a response signal as shown in (2) ′. The mobile terminal device 10 that has failed to receive the response signal receives the GPS signal and calculates position information, as indicated by (3) ′. And the portable terminal device 10 transmits the calculated position information to the processing system 30 via the communication base station, as indicated by (4) ′.

  That is, when a response to the communication availability confirmation signal is received from any of the relay devices 20, the second notification unit 12 executes a second notification process. And when the response with respect to a communication availability confirmation signal is not received from any relay apparatus 20, the 1st notification part 11 performs a 1st notification process.

  The processing system 30 manages the position of the mobile terminal device 10 based on the information received from the mobile terminal device 10 as shown in (4) ′ and the information received from the relay device 20 as shown in (4). . Then, as shown in (5), the position of the monitoring target is notified to the monitor at an arbitrary timing.

  Here, a modified example will be described. The smart meter (relay device 20) may acquire the mobile terminal identification information of the mobile terminal device 10 via the child meter.

  That is, when the child meter receives a communication permission confirmation signal transmitted by the mobile terminal device 10 according to a communication standard such as Wi-SUN, NB-IoT, LoRaWAN, SIGOX, Wi-Fi HaLow, RPMA, and Flexnet belonging to LPWA, A response signal may be transmitted according to the same standard. Further, when receiving the mobile terminal identification information transmitted from the mobile terminal device 10 according to the same standard, the child meter may transmit the information to the smart meter according to an arbitrary communication standard. At this time, the child meter may attach the identification information of the own device to the portable terminal identification information. Any existing technology can be adopted as a communication standard between the slave meter and the smart meter. Then, the relay device 20 may attach the identification information of the child meter to the mobile terminal identification information received from the child meter and transmit it to the processing system 30.

  The processing system 30 may estimate the position of the mobile terminal device 10 by using the child meter installation position registered in advance and the child meter identification information attached to the mobile terminal identification information. The position estimation method is the same as the process using the identification information of the relay device 20 attached to the mobile terminal identification information.

  Next, the effect of the management system of this embodiment is demonstrated.

  The mobile terminal device 10 according to the present embodiment executes the second notification process with relatively low power consumption in an environment where the second notification process can be executed, and relative in an environment where the second notification process cannot be executed. The first notification process with large power consumption is executed. That is, the second notification process is preferentially executed, and when the second notification process cannot be executed, the first notification process is executed. For this reason, execution of the 1st notification process with comparatively large power consumption, ie, utilization of GPS, can be suppressed. As a result, power saving of the mobile terminal device 10 can be realized.

  By the way, the techniques of Patent Documents 1 and 2 switch processing contents according to the environment to be monitored. However, the techniques of Patent Documents 1 and 2 and this embodiment are clearly different in conditions for switching processing contents. For this reason, the effect achieved is also clearly different.

  The techniques of Patent Documents 1 and 2 are configured to use GPS when the monitoring target is outdoors and to perform other processing that does not use GPS when the monitoring target is indoors. That is, the processing contents are varied depending on whether the monitoring target is outdoors or indoors.

  On the other hand, this embodiment is configured such that GPS is used when communication with any relay device 20 is not possible, and other processing that does not use GPS is performed when communication with any relay device 20 is possible. . In other words, the processing contents differ depending on whether or not communication with any one of the relay devices 20 is possible.

  For this reason, in the techniques of Patent Documents 1 and 2, GPS is always used when the monitoring target is outdoors. However, in the present embodiment, GPS is not always used even when the monitoring target is outdoors. Absent. For this reason, the technique of patent document 1 and 2 and this embodiment differ clearly in the speed of the power consumption of the portable terminal, for example, when the monitoring object is outdoors. Specifically, the speed of power consumption can be reduced in the present embodiment.

  In the management system of this embodiment, a smart meter can be used as the relay device 20. Smart meters are widely spread and installed in a wide area. By using such a smart meter as the relay device 20, it is possible to secure a wide area in which the mobile terminal device 10 can execute the second notification process. As a result, power saving of the mobile terminal device 10 can be more effectively realized. Further, since existing equipment can be used as the relay device 20, it is not necessary to provide new equipment. For this reason, a cost burden can be reduced.

  In the present embodiment, the relay device 20 can transmit the mobile terminal identification information received from the mobile terminal device 10 to the processing system 30 at the timing of transmitting the power information. By doing so, congestion of the communication network of the smart meter can be avoided.

  By the way, as described above, in order to avoid congestion of the communication network of the smart meter, when the mobile terminal identification information acquired within a predetermined time is collectively transmitted from the relay device 20 to the processing system 30, where the timing is at each timing. Such an estimation accuracy deteriorates. In order to avoid the inconvenience, in the present embodiment, time information can be attached to the mobile terminal identification information transmitted and received in the second notification process. By using the time information, the processing system 30 can accurately estimate where the mobile terminal device 10 was at each timing. That is, at the same timing as the transmission of power information, the mobile terminal identification information and the time information received so far from the previous transmission are collectively transmitted to the processing system 30, so the processing system 30 is attached to the mobile terminal identification information. Based on the time information, it is possible to estimate where the mobile terminal device was at each timing and the movement trajectory.

<Second Embodiment>
The management system according to the present embodiment has a predetermined timing (hereinafter referred to as “notification timing”) for executing the first notification process or the second notification process by the mobile terminal device 10 depending on the state of the mobile terminal device 10. Make it. Other configurations of the management system are the same as those in the first embodiment. Hereinafter, differences from the first embodiment will be described, and description of common points will be omitted.

"Pattern 1"
When the mobile terminal device 10 is in a state where it can communicate with a predetermined relay device 20 among the plurality of relay devices 20, it is notified as compared with a case where it is not in a state where it can communicate with the predetermined relay device 20 Increase the timing interval.

  The predetermined relay device 20 is, for example, a relay device 20 installed in a place that the monitor recognizes as safe, such as a home to be monitored, a home of a relative to be monitored, a hospital at a destination, a home care facility, or the like. is there. In the present embodiment, when the mobile terminal device 10 is near such a relay device 20, that is, when the monitoring target is in a safe place, the time interval of the notification timing is increased, and the first notification processing and the second notification processing are performed. Power saving is achieved by reducing the number of times the notification process is executed.

  Here, a method for determining whether or not the mobile terminal device 10 is in a state where it can communicate with the predetermined relay device 20 will be described.

"Method 1"
In the method 1, identification information of one or more relay devices 20 is registered in the mobile terminal device 10. The relay device 20 transmits the identification information of the own device to the mobile terminal device 10 in a communicable state.

  The mobile terminal device 10 collates the received identification information of the relay device 20 with the identification information of the relay device 20 registered in advance. If the received identification information is registered in the own device, it is determined that communication with the predetermined relay device 20 is possible. On the other hand, when the received identification information is not registered in the own apparatus, it is determined that the communication apparatus cannot communicate with the predetermined relay apparatus 20.

"Method 2"
In the method 2, the mobile terminal identification information of one or more mobile terminal apparatuses 10 is registered in the relay apparatus 20.

  When the relay device 20 receives the mobile terminal identification information due to the second notification process executed by the mobile terminal device 10, the relay device 20 checks the mobile terminal identification information registered in advance. When the received mobile terminal identification information is registered in the own device, it is determined that communication with the predetermined mobile terminal device 10 is possible. And the 1st communication part 21 transmits the signal (judgment result) which shows that to the portable terminal device 10. FIG.

  On the other hand, when the received mobile terminal identification information is not registered in the own device, it is determined that the mobile terminal device 10 is not communicable with a predetermined mobile terminal device 10. And the 1st communication part 21 transmits the signal (judgment result) which shows that to the portable terminal device 10. FIG.

  Based on the received determination result, the mobile terminal device 10 determines whether or not communication with the predetermined relay device 20 is possible.

"Pattern 2"
When the movement amount of the mobile terminal device 10 is smaller than the reference, the mobile terminal device 10 increases the time interval of the notification timing compared to the case where the movement amount is larger than the reference.

  As a case where the amount of movement of the monitoring target is small, for example, it is assumed that the person is resting on a park bench or is talking with an acquaintance. When the movement amount of the monitoring target is small, the necessity for monitoring is reduced. Therefore, in such a case, power saving can be realized by increasing the time interval of the notification timing and reducing the number of execution times of the first notification processing and the second notification processing.

  Here, an example of a method for the mobile terminal device 10 to determine whether the movement amount is larger or smaller than the reference will be described.

  The latest notification timing that has been executed is P1, and the notification timing immediately before is P0. When the notification process (first notification process or second notification process) executed at P0 and the notification process executed at P1 are different, that is, either one is the first notification process and the other is the second notification process. In this case, the mobile terminal device 10 determines that the movement amount is larger than the reference. The time interval from P1 to the next notification timing P2 is set to a relatively small value.

  On the other hand, when the notification process executed at P0 and the notification process executed at P1 are both the first notification process, the mobile terminal device 10 performs the first notification process at P0 and the first notification process at P1. Based on the calculated position information, the distance between the position at P0 and the position at P1 is calculated. Then, the mobile terminal device 10 determines that the movement amount is larger than the reference when the calculated distance is larger than the reference value held in advance. The time interval from P1 to the next notification timing P2 is set to a relatively small value. In addition, when the calculated distance is smaller than the reference value that is stored in advance, the mobile terminal device 10 determines that the movement amount is smaller than the reference. The time interval from P1 to the next notification timing P2 is set to a relatively large value.

  When both the notification process executed at P0 and the notification process executed at P1 are the second notification processes, the mobile terminal device 10 performs the second notification process at P0 and the second notification process at P1. It is determined whether or not the relay devices 20 that have communicated match. When there are a plurality of relay apparatuses 20 that communicate with each other, it may be determined that the relay apparatuses 20 that have communicated completely match each other. The portable terminal device 10 determines that the movement amount is larger than the reference when the relay devices 20 that have communicated do not match. The time interval from P1 to the next notification timing P2 is set to a relatively small value. Moreover, the portable terminal device 10 determines that the amount of movement is smaller than the reference when the relay devices 20 that have communicated match. The time interval from P1 to the next notification timing P2 is set to a relatively large value.

"Pattern 3"
The mobile terminal device 10 combines the pattern 1 and the pattern 2.

  Next, a specific example of the management system of this embodiment will be described with reference to FIG. The specific example is merely an example of the management system of the present embodiment, and the management system of the present embodiment is not limited to the specific example.

  Here, an example in which the above-described pattern 3 is employed and pattern 1 is employed in method 1 will be described. Then, “the time interval of the notification timing when the communication with the predetermined relay device 20 is communicable is T1”, and “the communication with the predetermined relay device 20 is not communicable and the movement amount is The time interval of the notification timing when it is smaller than the reference is set as T2, and the time interval of the notification timing when the movement amount is larger than the reference when the communication amount with the predetermined relay apparatus 20 is not established is set as T3. Note that T1> T2> T3.

  As shown in the figure, the mobile terminal device 10 is carried by a monitoring target. In the steps (1) and (1) ′, the second notification unit 12 of the mobile terminal device 10 transmits a communication availability confirmation signal at every predetermined timing. In this example, T1, T2, or T3 is set as the time interval for transmitting the communication availability confirmation signal. The second notification unit 12 repeatedly transmits a communication feasibility confirmation signal at a set time interval. The second notification unit 12 transmits a communication permission confirmation signal according to a communication standard such as Wi-SUN, NB-IoT, LoRaWAN, SIGFOX, Wi-Fi HaLow, RPMA, or Flexnet belonging to LPWA.

  When any one of the relay devices 20 receives the communication availability confirmation signal, as shown in (2), the relay device (smart meter: SM) 20 that has received the communication availability confirmation signal transmits a response signal. That is, the first communication unit 21 receives the communication availability confirmation signal transmitted from the mobile terminal device 10 and transmits a response signal in response to the reception.

  Thereafter, as shown in (3), the mobile terminal device 10 that has received the response signal transmits mobile terminal identification information. The relay device 20 that has received the mobile terminal identification information transmits the received mobile terminal identification information to the processing system (cloud) 30 in association with the identification information of the own terminal, as shown in (4).

  Further, the relay device 20 transmits the identification information of the own device toward the mobile terminal device 10 at an arbitrary timing after receiving the communication availability confirmation signal. For example, you may transmit with a response signal.

  The mobile terminal device 10 that has received the identification information of the relay device 20 collates the received identification information of the relay device 20 with the identification information of the relay device 20 registered in advance. When the received identification information is registered in its own device, the mobile terminal device 10 determines that it is in a state where it can communicate with the predetermined relay device 20. And the time interval which transmits a communication propriety confirmation signal is set to T1.

  On the other hand, when the received identification information is not registered in its own device, the mobile terminal device 10 determines that communication with the predetermined relay device 20 is not possible. In this case, the mobile terminal device 10 determines whether or not the movement amount of the device itself is larger than the reference. Details of the determination are as described above. When the movement amount is smaller than the reference, the mobile terminal device 10 sets the time interval for transmitting the communication availability confirmation signal to T2. On the other hand, when the movement amount is larger than the reference, the mobile terminal device 10 sets the time interval for transmitting the communication availability confirmation signal to T3.

  Further, when none of the relay devices 20 receives the communication permission confirmation signal, none of the relay devices 20 transmits a response signal as shown in (2) ′. The mobile terminal device 10 that has failed to receive the response signal receives the GPS signal and calculates position information, as indicated by (3) ′. And the portable terminal device 10 transmits the calculated position information to the processing system 30 via the communication base station, as indicated by (4) ′.

  When no response signal is received from any relay device 20, the mobile terminal device 10 determines whether or not the movement amount of the own device is larger than the reference. Details of the determination are as described above. When the movement amount is smaller than the reference, the mobile terminal device 10 sets the time interval for transmitting the communication availability confirmation signal to T2. On the other hand, when the movement amount is larger than the reference, the mobile terminal device 10 sets the time interval for transmitting the communication availability confirmation signal to T3.

  The processing system 30 manages the position of the mobile terminal device 10 based on the information received from the mobile terminal device 10 as shown in (4) ′ and the information received from the relay device 20 as shown in (4). . Then, as shown in (5), the position of the monitoring target is notified to the monitor at an arbitrary timing.

  According to the management system of this embodiment explained above, the same operation effect as a 1st embodiment is realizable.

  Also, for example, when the monitoring target is in a predetermined place such as a place that the monitor recognizes as safe, the time interval of the notification timing is increased, and the number of executions of the first notification process and the second notification process is increased. Can be reduced. As a result, power saving of the mobile terminal device 10 can be realized.

  For example, when the amount of movement of the monitoring target is small, that is, when the necessity for monitoring is small, the time interval of the notification timing is increased, and the number of executions of the first notification processing and the second notification processing is reduced. it can. As a result, power saving of the mobile terminal device 10 can be realized.

<Third Embodiment>
In the first and second embodiments, the relay device 20 transmits the mobile terminal identification information received from the mobile terminal device 10 to the processing system 30 at the timing of transmitting the power information. The relay device 20 of this embodiment transmits the mobile terminal identification information received from the mobile terminal device 10 to the processing system 30 at other timings. Other configurations of the management system are the same as those in the first and second embodiments. Hereinafter, differences from the first and second embodiments will be described, and descriptions of common points will be omitted.

  The second communication unit 22 of the relay device 20 transmits the mobile terminal identification information received from the mobile terminal device 10 to the processing system 30 at a timing different from the timing of transmitting the power information. For example, when the first communication unit 21 receives mobile terminal information from the mobile terminal device 10, the second communication unit 22 may transmit the mobile terminal information to the processing system 30 accordingly (real-time processing). In addition, the 2nd communication part 22 may transmit the portable terminal identification information received from the portable terminal device 10 to the processing system 30 by the time interval different from the time interval which transmits electric power information (batch process).

  In the case of this embodiment, the processing system 30 may add time information (eg, reception time) to the mobile terminal identification information received from the relay device 20.

  According to the management system of the present embodiment, it is possible to achieve the same operational effects as those of the first and second embodiments.

<Fourth Embodiment>
The management system of this embodiment is different from the management systems of the first to third embodiments in that the relay device 20 is not a smart meter. Other configurations of the management system are the same as those in the first to third embodiments. The relay device 20 is preferably a device installed in a wide area. The relay device 20 may be a device installed exclusively for the monitoring service, or may be a device installed for other purposes.

  According to the management system of the present embodiment, it is possible to achieve the same operational effects as those of the first to third embodiments.

Hereinafter, examples of the reference form will be added.
1. First notification means for calculating position information based on a GPS signal and executing first notification processing for transmitting the position information and mobile terminal identification information to an external device;
Second notification means for executing second notification processing for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Have
At any given timing, execute one of the first notification process and the second notification process,
When the predetermined notification timing is in a state where communication with at least one of the plurality of relay devices is possible, the second notification process is executed, and when the communication device does not communicate with any of the relay devices, A mobile terminal device that executes a first notification process.
2. In the portable terminal device according to 1,
The second notification means transmits a communication availability confirmation signal at each predetermined timing,
When a response to the communication availability confirmation signal is received from any of the relay devices, the second notification unit executes the second notification process,
The portable terminal device in which the first notification unit executes the first notification process when a response to the communication availability confirmation signal is not received from any of the relay devices.
3. In the mobile terminal device according to 1 or 2,
The second notification means is a portable terminal device that transmits the portable terminal identification information with time information.
4). In the mobile terminal device according to any one of 1 to 3,
The time interval of the predetermined timing when it is communicable with the predetermined relay device among the plurality of relay devices as compared to when it is not communicable with the predetermined relay device Mobile terminal device that increases the size.
5). 4, the mobile terminal device according to
The second notification means transmits a communication availability confirmation signal at each predetermined timing,
When a response to the communication availability confirmation signal is received from the predetermined relay device, the communication availability confirmation signal is compared to a case where a response to the communication availability confirmation signal is not received from the predetermined relay device. A mobile terminal device that increases the time interval for transmitting.
6). In the mobile terminal device according to any one of 1 to 5,
The relay device is a mobile terminal device that is a smart meter.
7). In the mobile terminal device according to any one of 1 to 6,
The relay device transmits the received mobile terminal identification information to the external device.
8). In the mobile terminal device according to any one of 1 to 7,
The mobile terminal device that requires less power for the second notification process than the power required for the first notification process.
9. A smart meter,
First communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
A relay device.
10. In the relay device according to 9,
The second communication unit is a relay device that associates the portable terminal identification information, the identification information of the terminal itself, and time information and transmits them to an external device.
11. In the relay device according to 9 or 10,
The second communication means transmits power information to the external device every predetermined time, and at the same timing as the transmission of the power information, the mobile terminal identification information received so far from the previous transmission is transmitted to the external device. A relay device that transmits to a device.
12 First communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for associating the portable terminal identification information, the identification information of the own terminal, and time information and transmitting them to an external device;
A relay device.
13. In the relay device according to any one of 9 to 12,
The first communication means is a relay device that receives a communication availability confirmation signal transmitted from the mobile terminal device and transmits a response signal in response to the reception.
14 In the relay device according to 13,
The first communication means is a relay device that transmits identification information of the device itself in response to the reception.
15. In the relay device according to any one of 9 to 13,
When the received mobile terminal identification information is the pre-registered mobile terminal identification information, the first communication unit transmits a signal indicating the fact.
16. In the relay device according to any one of 9 to 13,
The second communication unit is a relay device that transmits signal strength of communication between the portable terminal device and the first communication unit to the external device.
17. In the relay device according to any one of 9 to 16,
The mobile terminal device is a relay device that is the mobile terminal device according to any one of 1 to 7.
18. The mobile terminal device according to any one of 1 to 8,
A relay device according to any one of 9 to 17,
Management system.
19. In the management system described in 18,
The management system which further has a processing system which manages the position of the said portable terminal device based on the information received from the said portable terminal device, and the information received from the said relay apparatus.
20. Computer
First notification processing for calculating position information based on a GPS signal and transmitting the position information and mobile terminal identification information to an external device;
A second notification process for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Run
At any given timing, execute one of the first notification process and the second notification process,
When the predetermined notification timing is in a state where communication with at least one of the plurality of relay devices is possible, the second notification process is executed, and when the communication device does not communicate with any of the relay devices, A notification method for executing the first notification process.
21. Computer
First notification means for performing a first notification process for calculating position information based on a GPS signal and transmitting the position information and mobile terminal identification information to an external device;
Second notification means for executing a second notification process for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Function as
At any given timing, execute one of the first notification process and the second notification process,
In a state where communication with at least one of the plurality of relay devices is possible at the predetermined timing, the second notification process is executed, and when communication with any of the relay devices is not possible, A program for executing the first notification process.
22. Smart meter
A first communication step of receiving mobile terminal identification information from the mobile terminal device;
A second communication step of transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
Relay method to execute.
23. Smart meter,
A first communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
Program to function as.
24. Computer
A first communication step of receiving mobile terminal identification information from the mobile terminal device;
A second communication step of associating the mobile terminal identification information, the identification information of the own terminal, and time information with each other and transmitting them to an external device;
Relay method to execute.
25. Computer
A first communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for associating the portable terminal identification information, the identification information of the own terminal, and time information and transmitting them to an external device;
Program to function as.

1A processor 2A memory 3A I / O I / F
4A peripheral circuit 5A bus 10 mobile terminal device 11 first notification unit 12 second notification unit 20 relay device 21 first communication unit 22 second communication unit 30 processing system

Claims (25)

First notification means for calculating position information based on a GPS (global positioning system) signal and executing a first notification process for transmitting the position information and mobile terminal identification information to an external device;
Second notification means for executing second notification processing for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Have
At any given timing, execute one of the first notification process and the second notification process,
When the predetermined notification timing is in a state where communication with at least one of the plurality of relay devices is possible, the second notification process is executed, and when the communication device does not communicate with any of the relay devices, A mobile terminal device that executes a first notification process. The mobile terminal device according to claim 1,
The second notification means transmits a communication availability confirmation signal at each predetermined timing,
When a response to the communication availability confirmation signal is received from any of the relay devices, the second notification unit executes the second notification process,
The portable terminal device in which the first notification unit executes the first notification process when a response to the communication availability confirmation signal is not received from any of the relay devices. The portable terminal device according to claim 1 or 2,
The second notification means is a portable terminal device that transmits the portable terminal identification information with time information. The portable terminal device according to any one of claims 1 to 3,
The time interval of the predetermined timing when it is communicable with the predetermined relay device among the plurality of relay devices as compared to when it is not communicable with the predetermined relay device Mobile terminal device that increases the size. The mobile terminal device according to claim 4,
The second notification means transmits a communication availability confirmation signal at each predetermined timing,
When a response to the communication availability confirmation signal is received from the predetermined relay device, the communication availability confirmation signal is compared with a case where a response to the communication availability confirmation signal is not received from the predetermined relay device. A mobile terminal device that increases the time interval for transmitting. In the portable terminal device according to any one of claims 1 to 5,
The relay device is a mobile terminal device that is a smart meter. The mobile terminal device according to any one of claims 1 to 6,
The relay device transmits the received mobile terminal identification information to the external device. The portable terminal device according to any one of claims 1 to 7,
The mobile terminal device that requires less power for the second notification process than the power required for the first notification process. A smart meter,
First communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
A relay device. The relay device according to claim 9,
The second communication unit is a relay device that associates the portable terminal identification information, the identification information of the terminal itself, and time information and transmits them to an external device. The relay device according to claim 9 or 10,
The second communication means transmits power information to the external device every predetermined time, and at the same timing as the transmission of the power information, the mobile terminal identification information received so far from the previous transmission is transmitted to the external device. A relay device that transmits to a device. First communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for associating the portable terminal identification information, the identification information of the own terminal, and time information and transmitting them to an external device;
A relay device. The relay device according to any one of claims 9 to 12,
The first communication means is a relay device that receives a communication availability confirmation signal transmitted from the mobile terminal device and transmits a response signal in response to the reception. The relay device according to claim 13,
The first communication means is a relay device that transmits identification information of the device itself in response to the reception. The relay device according to any one of claims 9 to 13,
When the received mobile terminal identification information is the pre-registered mobile terminal identification information, the first communication unit transmits a signal indicating the fact. The relay device according to any one of claims 9 to 13,
The second communication unit is a relay device that transmits signal strength of communication between the portable terminal device and the first communication unit to the external device. The relay device according to any one of claims 9 to 16,
The said portable terminal device is a relay apparatus which is a portable terminal device of any one of Claim 1 to 7. The mobile terminal device according to any one of claims 1 to 8,
A relay device according to any one of claims 9 to 17,
Management system. The management system according to claim 18,
The management system which further has a processing system which manages the position of the said portable terminal device based on the information received from the said portable terminal device, and the information received from the said relay apparatus. Computer
First notification processing for calculating position information based on a GPS signal and transmitting the position information and mobile terminal identification information to an external device;
A second notification process for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Run
At any given timing, execute one of the first notification process and the second notification process,
When the predetermined notification timing is in a state where communication with at least one of the plurality of relay devices is possible, the second notification process is executed, and when the communication device does not communicate with any of the relay devices, A notification method for executing the first notification process. Computer
First notification means for performing a first notification process for calculating position information based on a GPS signal and transmitting the position information and mobile terminal identification information to an external device;
Second notification means for executing a second notification process for transmitting the mobile terminal identification information to at least one of the plurality of relay devices;
Function as
At any given timing, execute one of the first notification process and the second notification process,
In a state where communication with at least one of the plurality of relay devices is possible at the predetermined timing, the second notification process is executed, and when communication with any of the relay devices is not possible, A program for executing the first notification process. Smart meter
A first communication step of receiving mobile terminal identification information from the mobile terminal device;
A second communication step of transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
Relay method to execute. Smart meter,
A first communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for transmitting the portable terminal identification information to an external device in association with the identification information of the own terminal;
Program to function as. Computer
A first communication step of receiving mobile terminal identification information from the mobile terminal device;
A second communication step of associating the mobile terminal identification information, the identification information of the own terminal, and time information with each other and transmitting them to an external device;
Relay method to execute. Computer
A first communication means for receiving mobile terminal identification information from the mobile terminal device;
A second communication means for associating the portable terminal identification information, the identification information of the own terminal, and time information and transmitting them to an external device;
Program to function as.

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