JP2020166337A - Supporting system - Google Patents

Abstract

To provide a supporting system which can easily perform registration of an installation place of a trap.SOLUTION: A supporting system comprises a transmitter, a terminal device, and a server. The transmitter is prepared in a trap which captures an animal, and transmits a beacon signal. The terminal device transmits trap information in which position information of a current location is applied to beacon information contained in the beacon signal, based on the beacon signal transmitted by the transmitter. The server manages the trap information received from the terminal device.SELECTED DRAWING: Figure 1A

Description

The present invention relates to a support system.

Traps may be set up to exterminate vermin such as wild boars and deer. In addition, one user may set many traps in different places. Therefore, conventionally, a method for managing the installation location of the trap has been proposed.

JP-A-2017-146778

However, in the prior art, it is necessary for the user to register the trap installation location for each trap installation location, and there is room for improvement in simplifying the registration of the trap installation location.

An object to be solved by the present invention is to provide a support system capable of easily registering the installation location of a trap.

The support system according to the embodiment includes a transmitter, a terminal device, and a server. The transmitter is provided in a trap for capturing animals and transmits a beacon signal. Based on the beacon signal transmitted by the transmitter, the terminal device transmits trap information in which the position information of the current location is added to the beacon information included in the beacon signal. The server manages the trap information received from the terminal device.

According to the present invention, it is possible to provide a support system capable of easily registering a trap installation location.

FIG. 1A is a diagram showing a configuration example of a support system according to an embodiment. FIG. 1B is a diagram showing an outline of the support system according to the embodiment. FIG. 2 is a block diagram of the transmitter according to the embodiment. FIG. 3 is a diagram showing an example of information stored in the transmitter according to the embodiment. FIG. 4A is a diagram (No. 1) showing a specific example of the beacon signal according to the embodiment. FIG. 4B is a diagram (No. 2) showing a specific example of the beacon signal according to the embodiment. FIG. 5 is a block diagram of the terminal device according to the embodiment. FIG. 6 is a diagram showing an example of notification information according to the embodiment. FIG. 7 is a block diagram of the server according to the embodiment. FIG. 8 is a diagram showing an example of information stored in the trap information DB according to the embodiment. FIG. 9 is a diagram showing an example of information stored in the owner DB according to the embodiment. FIG. 10 is a diagram showing an example of information stored in the map DB according to the embodiment. FIG. 11 is a timing chart (No. 1) showing a processing procedure of the support system according to the embodiment. FIG. 12 is a timing chart (No. 2) showing a processing procedure of the support system according to the embodiment. FIG. 13 is a diagram showing a support system according to a modified example.

The support system 1 according to the embodiment described below includes a transmitter 50, a terminal device 10, and a server 20. The transmitter 50 is provided in a trap 30 for capturing animals and transmits a beacon signal. Based on the beacon signal transmitted by the transmitter 50, the terminal device 10 transmits trap information in which the position information of the current location is added to the beacon information included in the beacon signal. The server 20 manages the trap information received from the terminal device 10.

Further, in the support system 1 described below, the transmitter 50 transmits the identification information of the transmitter 50 as beacon information, and the terminal device 10 transmits the trap information in which the identification information is added with the incidental information regarding the trap.

Further, in the support system 1 described below, the transmitter 50 transmits beacon information including identification information of the transmitter 50 and incidental information regarding a trap as a beacon signal.

In the support system 1 described below, the transmitter 50 transmits beacon signals of different frequencies based on predetermined switching conditions.

Further, in the support system 1 described below, the server 20 generates map information in which the position information of the trap is superimposed on the map image based on the trap information, and distributes the map information to the terminal device 10.

Hereinafter, the support system according to the embodiment will be described with reference to the drawings. In the embodiment, the same parts are designated by the same reference numerals, and duplicate description may be omitted.

FIG. 1A is a diagram showing a configuration example of a support system according to an embodiment. The support system 1 is a system installed for exterminating vermin and the like to manage the trap 30. As shown in FIG. 1A, the support system 1 includes a terminal device 10, a server 20, and a transmitter 50. The support system 1 also includes a relay terminal 60, which will be described later in FIG. 1B.

The terminal device 10 and the server 20 are communicably connected via the network 2. The terminal device 10 is a terminal device carried by the owner of the trap 30, and acquires position information using GPS satellites 40. In the example shown in FIG. 1A, the case where the trap 30 is a trap is illustrated, but the trap 30 may be a box trap or an enclosure trap.

The server 20 manages various information related to the terminal device 10 and the trap 30 transmitted from the relay terminal 60 described later in FIG. 1B. The transmitter 50 is, for example, a communication device provided in the trap 30 and transmitting a beacon signal.

The beacon signal transmitted by the transmitter 50 is received by the terminal device 10 or the relay terminal 60 existing in the detection range of the beacon signal. The terminal device 10 and the relay terminal 60 transmit data based on the received beacon signal to the server 20 via the network 2.

That is, in the support system 1 according to the embodiment, the data is temporarily uploaded to the server 20 via the terminal device 10 and the relay terminal 60, instead of transmitting the data directly from the transmitter 50 to the server 20. ..

Further, in the support system 1 according to the embodiment, it is possible to apply a general communication terminal (tablet terminal, smartphone, etc.) in which a predetermined application is installed to the terminal device 10 or the relay terminal 60.

That is, in the support system 1 according to the embodiment, an inexpensive communication device can be used for the transmitter 50, and an existing terminal can be used for the terminal device 10 and the relay terminal 60.

Therefore, in the support system 1 according to the embodiment, the owner only needs to purchase the transmitter 50 attached to the trap 30, and the introduction cost and the management cost can be suppressed.

Next, the outline of the support system 1 according to the embodiment will be described with reference to FIG. 1B. FIG. 1B is a diagram showing an outline of the support system 1 according to the embodiment. The upper figure of FIG. 1B shows a series of processes when the trap 30 is installed, and the lower figure of FIG. 1B shows a series of processes after the trap 30 is installed.

First, a series of processes at the time of setting the trap 30 will be described with reference to the upper diagram of FIG. 1B. As shown in the upper figure of FIG. 1B, when the owner turns on the power of the transmitter 50 when the trap 30 is installed, the transmitter 50 transmits a beacon signal (step S11). For example, the beacon signal includes a beacon ID for identifying the transmitter 50. At the time of installation, the beacon ID corresponds to an example of beacon information.

The owner's terminal device 10 acquires the position information of the current location by using the GPS satellite 40, triggered by the reception of the beacon signal transmitted from the transmitter 50 (step S12). That is, since the terminal device 10 acquires the position information of the current location when the owner turns on the power of the transmitter 50 provided in the trap 30, the process of step S12 acquires the position information of the trap 30. It can be rephrased as the process of performing.

Subsequently, the terminal device 10 transmits the trap information in which the beacon ID included in the beacon signal is associated with the position information, the owner ID, and the like (step S13). Then, the server 20 registers the trap information received from the terminal device 10 (step S14). As a result, the location information of the trap 30 and the like can be managed on the server 20 side.

As described above, in the support system 1 according to the embodiment, the owner only needs to turn on the power of the transmitter 50 after setting the trap 30, so that the trap information can be easily registered in the server 20. ..

In addition, for example, when the owner changes the position of the trap 30 or installs the transmitter 50 in another trap 30, for example, the existing trap information is deleted from the server 20 via the terminal device 10. It should be. This makes it possible to reuse the transmitter 50.

Subsequently, a series of processes of the support system 1 after the installation of the trap 30 will be described with reference to the lower figure of FIG. 1B. After the trap 30 is installed, the transmitter 50 transmits a beacon signal at a predetermined cycle (step S21).

The beacon signal here includes the capture information of the trap 30 in addition to the beacon ID described above. Further, the capture information is information indicating the state of the trap 30. For example, the transmitter 50 can detect that a vermin has been caught in the trap 30, and can transmit capture information based on the detection result as a beacon signal.

The relay terminal 60 shown in the lower figure of FIG. 1B is a terminal device possessed by a third party who moves around the trap 30. Here, the third party refers to anything that can be a patrol of the trap 30. That is, the third party is basically a person other than the owner of the trap 30, and corresponds to a specific vehicle, a person, or the like that passes through the detection range of the beacon signal by the transmitter 50. The terminal device 10 can also be regarded as a type of relay terminal 60.

The relay terminal 60 receives the beacon signal when it passes within the detection range of the beacon signal transmitted from the transmitter 50.

When the relay terminal 60 receives the beacon signal transmitted by the transmitter 50, the relay terminal 60 transmits capture information based on the received beacon signal (step S22). As a result, the server 20 can acquire the capture information of each trap 30, and can manage the capture information (step S23).

The relay terminal 60 may transmit the capture information immediately when the beacon signal is received, or may transmit the capture information after a lapse of a predetermined time. That is, the relay terminal 60 may upload the capture information to the server 20 at an arbitrary timing, such as transmitting the capture information when the communication environment of the network 2 is good.

For example, the server 20 can notify the terminal device 10 of the owner of the trap 30 of the latest capture information based on the received capture information. That is, in the support system 1 according to the embodiment, the owner does not have to look around the trap 30 by himself / herself, and can acquire the information of the trap 30 by receiving the notification from the server 20.

Further, in the support system 1 according to the embodiment, the relay terminal 60 within the detection range relays the beacon signal transmitted from the transmitter 50, so that it is not necessary to separately install a repeater.

Therefore, the support system 1 according to the embodiment can replace the patrol of the trap 30 while suppressing the running cost. The terminal device 10 can be regarded as a relay terminal 60, and the terminal device 10 can also serve as a function of the relay terminal 60.

By the way, at the time of installing the trap 30, since the beacon signal may be received by the terminal device 10 located at a short distance from the transmitter 50, the detection range of the beacon signal may be narrow. Further, if the beacon signal is received by the terminal device 10 other than the owner when the trap 30 is installed, the information about the owner may be registered in the server 20 as erroneous information.

On the other hand, since the location of the relay terminal 60 is not clear after the trap 30 is installed, it is possible to efficiently upload the capture information to the server 20 by expanding the detection range of the beacon signal.

That is, when the trap 30 is installed, the beacon signal detection range may be relatively narrow, but after the trap 30, the beacon signal detection range is preferably wide.

Therefore, the transmitter 50 can emit beacon signals having different frequencies at the time of installation of the trap 30 and after the installation of the trap 30. It is known that the longer the wavelength of radio waves, the longer the propagation distance.

Therefore, when the trap 30 is installed, the transmitter 50 transmits a beacon signal having a shorter wavelength than after the trap 30 is installed, narrows the detection range of the beacon signal, and after the trap 30 is installed, the transmitter 50 transmits the beacon signal. It is also possible to set a wider detection range by transmitting a beacon signal having a longer wavelength than when the trap 30 is installed.

That is, the transmitter 50 can appropriately control the detection range of the beacon signal by changing the wavelength of the beacon signal.

Examples of the switching condition for the transmitter 50 to switch the frequency include time, switch, and the like. For example, for a predetermined time (for example, 30 minutes) after the transmitter 50 is activated, the frequency of the beacon signal is set to a short wavelength for the purpose of communicating with the terminal device 10, and thereafter, communication with the relay terminal 60 is performed. The frequency of the beacon signal is switched to a short wavelength for the purpose of.

Similarly, the frequency of the beacon signal can be switched according to the user's operation on the changeover switch (not shown) provided in the transmitter 50. In this case, when the power of the transmitter 50 is turned on, the beacon signal is set to a short wavelength, and then, when the changeover switch is operated, the beacon signal is switched to a long wavelength.

Next, a configuration example of the transmitter 50 according to the embodiment will be described with reference to FIG. FIG. 2 is a block diagram of the transmitter 50 according to the embodiment. Note that FIG. 2 also shows the trap 30. Although not shown here, the transmitter 50 will be described below assuming that the transmitter 50 further includes a receiving antenna for receiving information transmitted from the terminal device 10 and the relay terminal 60.

As shown in FIG. 2, the switch SW, the power supply unit P, and the transmitter 50 include a transmitter 51, a control unit 52, and a storage unit 53. The switch SW is a switch that switches on / off according to the state of the trap 30.

For example, when a vermin is caught in the trap 30, the switch SW is turned on, and the other switches are turned off. The on / off information of the switch SW is notified to the control unit 52. In addition, the transmitter 50 may monitor the state of the trap 30 by various sensors such as an image sensor and an infrared sensor instead of the switch SW.

The power supply unit P is a power source for the transmitter 50. For example, a battery is stored in the power supply unit P to supply electric power to each unit of the transmitter 50. Further, for example, the power supply unit P has a function of measuring the remaining battery level of the battery, measures the remaining battery level at a predetermined cycle, and notifies the control unit 52.

The transmitting unit 51 includes an antenna and various circuits for transmitting a beacon signal. The transmission unit 51 transmits a beacon signal based on a command from the control unit 52.

The control unit 52 is a controller that controls the entire transmitter 50. The control unit 52 performs a process of storing various information in the storage unit 53, reads out the information stored in the storage unit 53, and instructs the transmission unit 51 to transmit a beacon signal. A specific example of the content of the instruction given by the control unit 52 to the transmission unit 51 will be described later with reference to FIGS. 4A and 4B.

The storage unit 53 is a storage device for a DRAM, SRAM, flash memory, or the like. A program or the like for operating the control unit 52 is stored in the storage unit 53. Further, the storage unit 53 stores information about the state of the trap 30 and the like.

FIG. 3 is a diagram showing an example of information stored in the transmitter 50 according to the embodiment. As shown in FIG. 3, the storage unit 53 stores a beacon ID, a capture flag, count information, battery level information, and the like.

The beacon ID is identification information for identifying the transmitter 50, and in the present embodiment, the beacon ID is also used as identification information for identifying the trap 30. The capture flag is information indicating the state of the trap 30, and for example, when the switch SW is turned on, the capture flag is updated from "0" to "1" by the control unit 52. In addition, the capture flag set to "1" is changed to "0" again by the owner's operation when the owner comes to look around the trap 30. In addition to the capture flag, the time when the capture flag becomes "1" may be stored in the storage unit 53.

The count information is information indicating the elapsed time from a predetermined timing. In the present embodiment, the predetermined timing is the timing at which the previous patrol was performed. That is, the count information is information indicating the number of days since the owner made the previous patrol. For example, the owner can reset the count information and set the count information to "0" when the patrol is performed. The count information may be reset when the relay terminal 60 receives a beacon signal related to the capture information transmitted from the transmission unit 51.

In this case, the transmitter 50 can reset the count information by receiving the reception completion notification for the beacon signal from the relay terminal 60. That is, the count information may be information indicating a period during which the transmitter 50 is isolated from the support system 1. The count information may be managed on the server 20 side.

Further, the count information does not have to be a count-up type, and may be a countdown type. In this case, for example, the countdown is performed with the upper limit of the cycle requiring the tour of the trap 30 and the maintenance of the trap 30. Here, the maintenance of the trap 30 includes the replacement of the food set in the trap 30 and the like.

The battery remaining amount information is information regarding the remaining amount of the battery installed in the power supply unit P. In the example of FIG. 3, the case where the battery remaining amount information is expressed in percentage is shown, but the battery remaining amount information may be expressed in other notations such as wattage.

Next, a specific example of the beacon signal transmitted from the transmitter 50 will be described with reference to FIGS. 4A and 4B. 4A and 4B are diagrams showing specific examples of beacon signals according to the embodiment.

First, the beacon signal at the time of setting the trap 30 will be described with reference to FIG. 4A. As shown in FIG. 4A, when the trap 30 is installed, the transmitter 50 transmits the beacon ID as a beacon signal.

When the terminal device 10 receives the beacon signal, the terminal device 10 adds position information and installation information to the beacon signal and transmits the beacon signal to the server 20. Here, as described above, the position information corresponds to the position information of the current location, that is, the position information of the trap 30.

Further, the installation information is an example of incidental information regarding the trap 30, and includes information regarding the owner ID, the size of the trap 30, the type of vermin to be captured by the trap 30, the installation date and time, and the like. The installation information may be provided in the transmitter 50 and the installation information may be transmitted as a beacon signal.

Subsequently, the beacon signal after the installation of the trap 30 will be described with reference to FIG. 4B. As shown in FIG. 4B, after the trap 30 is installed, the transmitter 50 transmits the capture information as a beacon signal in addition to the beacon ID. At this time, the transmitter 50 can also transmit count information and battery level information (FIG. 3) as beacon signals.

When the relay terminal 60 existing in the detection range of the beacon signal receives the beacon signal, the relay terminal 60 transmits the beacon ID and the capture information to the server 20.

Next, a configuration example of the terminal device 10 according to the embodiment will be described with reference to FIG. FIG. 5 is a block diagram of the terminal device 10 according to the embodiment. As shown in FIG. 5, the terminal device 10 includes a communication unit 11, a display unit 12, an operation unit 13, a storage unit 14, and a control unit 15.

The communication unit 11 is a network device for performing wireless communication processing and wired communication processing. For example, the communication unit 11 has a function of transmitting and receiving various information to and from the terminal device 10 via the network 2 and a function of receiving a beacon signal transmitted by the transmitter 50. Further, the communication unit 11 has a function of receiving a GPS signal from the GPS satellite 40.

The display unit 12 is a display device that displays a screen. For example, the display unit 12 is a touch panel display and also serves as an operation unit 13.

The storage unit 14 is realized by, for example, a semiconductor memory element such as a RAM or a flash memory, or a storage device such as a hard disk or an optical disk.

The control unit 15 has an internal memory for storing a program that defines various processing procedures and the like and required data, and executes various processing by these. The control unit 15 includes a reception unit 151, a notification unit 152, a generation unit 153, and a transmission unit 154.

The receiving unit 151 receives various information from the server 20 and the transmitter 50 via the communication unit 11. The receiving unit 151 receives the notification information to be notified from the server 20 to the owner, and passes the received information to the notification unit 152. Further, when the receiving unit 151 receives the beacon signal from the transmitter 50 when the trap 30 is installed, the receiving unit 151 receives the position information from the GPS satellite 40.

The notification unit 152 notifies the owner of the information transmitted from the server 20 via the display unit 6. For example, as the information notified by the notification unit 152, information regarding the capture information of the trap 30 can be mentioned.

FIG. 6 is a diagram showing a specific example of notification information according to the embodiment. As shown in FIG. 6, for example, the notification unit 152 notifies the owner of the presence / absence of the notification information by push notification to the terminal device 10.

In the example of FIG. 6, a message such as "There is updated trap information" is notified on the standby screen, and the owner can select the message to display the details of the trap information (for example, capture information). It will be displayed on the display unit 12.

As a result, the owner can confirm the capture information of the trap 30. The notification unit 152 may use a notification method utilizing an e-mail or a message application, or may use a pull-type notification method.

Returning to the description of FIG. 5, the generation unit 153 will be described. The generation unit 153 generates trap information based on the beacon signal received by the reception unit 151. Specifically, the generation unit 153 adds position information and installation information to the beacon ID included in the beacon signal to generate trap information. The trap information generated by the generation unit 153 is transmitted to the server 20 by the transmission unit 154 via the communication unit 11.

Subsequently, a configuration example of the server 20 according to the embodiment will be described with reference to FIG. 7. FIG. 7 is a block diagram of the server 20 according to the embodiment. As shown in FIG. 7, the server 20 includes a communication unit 21, a control unit 22, and a storage unit 23.

The communication unit 21 is a network device for performing wireless communication processing and wired communication processing. For example, the communication unit 11 transmits and receives various information to and from the terminal device 10 via the network 2.

The storage unit 23 is realized by, for example, a semiconductor memory element such as a RAM or a flash memory, or a storage device such as a hard disk or an optical disk. Further, as shown in FIG. 7, the storage unit 23 has a trap information DB 231 and an owner DB 232 and a map DB 233.

The trap information DB 231 is a database that stores information about each trap 30. FIG. 8 is a diagram showing an example of information stored in the trap information DB 231 according to the embodiment. As shown in FIG. 8, the trap information DB 231 stores information such as a beacon ID, an owner ID, location information, a trap size, a registration date, a capture flag, and an update date and time.

The beacon ID is identification information for identifying the transmitter 50, and is also used as identification information for identifying the trap 30. The owner ID is identification information for identifying the owner of the trap 30.

The position information is position information indicating the installation position of the corresponding trap 30, and for example, the installation position of the trap 30 is indicated by latitude and longitude. The trap size is information indicating the size of the corresponding trap. In the example of FIG. 8, the case where the trap size is represented by S, M, and L is shown. In addition to the trap size, the type of the trap 30 (Kukuri trap, box trap, enclosure trap, etc.), the type of the vermin to be captured by the trap 30, and the like may be stored.

The registration date indicates the date and time when the trap 30 was installed and registered on the server 20 side. These information from the beacon ID to the registration date are the information registered in the server 20 when the trap 30 is installed.

The capture flag is a flag indicating the state of the corresponding trap 30, and is "1" when the trap 30 is covered with a vermin, and is "0" in other cases. In addition to the capture flag, the time when the capture flag becomes "1" may be stored. The update date and time indicates the last update date and time of the information regarding the corresponding trap 30.

Returning to the description of FIG. 7, the owner DB232 will be described. The owner DB232 is a database that stores various information about the owner of the trap 30. FIG. 9 is a diagram showing an example of information stored in the owner DB 232 according to the embodiment.

As shown in FIG. 9, the owner ID, the license number, the group ID, and the like are associated and stored in the owner DB232. The owner ID is identification information for identifying the owner of the trap 30, and the license number is the hunting license number of the owner.

The group ID is identification information for identifying the group to which the owner belongs. In this way, in the support system 1 according to the embodiment, it is possible to form a group with a plurality of owners.

Returning to the description of FIG. 7, the map DB 233 will be described. The map DB 233 is a database that manages information regarding the installation position of the trap 30. FIG. 10 is a diagram showing an example of information stored in the map DB 233 according to the embodiment. In FIG. 10, the installation position of the trap 30 is superimposed on the map image from the viewpoint of making it visually easy to understand.

As shown in FIG. 10, in the map DB 233, it is stored on the map image as an icon I corresponding to the size of the trap 30 at the installation position of the trap 30. In the example of FIG. 10, the square icon I indicates that the trap size is S size, and the triangular icon I indicates that the trap size is M size. The circle icon indicates that the trap size is L size.

Returning to the description of FIG. 7, the control unit 22 will be described. The control unit 22 has an internal memory for storing a program that defines various processing procedures and the like and required data, and executes various processing by these. The control unit 22 includes a reception unit 221, an update unit 222, a generation unit 223, and a transmission unit 224.

The receiving unit 221 receives the trap information from the terminal device 10 when the trap 30 is installed, and receives the capture information from the relay terminal 60 after the trap 30 is installed. The trap information and the capture information received by the receiving unit 221 are notified to the updating unit 222, respectively.

In addition, the receiving unit 221 can also receive a transmission request for the capture information of the corresponding trap 30 from each terminal device 10. That is, the owner can operate the terminal device 10 and request the latest capture information. As a result, the owner can confirm the capture information of the trap 30 at any time.

The update unit 222 updates the trap information DB 231 based on the trap information and the capture information received by the reception unit 221. Specifically, the update unit 222 collates the trap information DB 231 based on the beacon ID included in the trap information and the capture information. At this time, when the beacon ID is new, the update unit 222 newly registers the information about the trap 30 corresponding to the beacon ID in the trap information DB 231.

Further, when the information regarding the beacon ID is already registered in the trap information DB 231, the update unit 222 updates the trap information DB 231 by using the information based on the beacon ID. Then, when each item of the trap information DB 231 is updated, the update unit 222 updates the update date and time shown in FIG.

The generation unit 223 generates notification information to be notified to the terminal device 10. Specifically, the generation unit 223 refers to the trap information DB 231 and generates notification information for the owner of the trap 30 that satisfies a predetermined condition.

Here, the predetermined condition is, for example, that the capture flag is "1". The update date and time is older than the specified period. That is, when the capture flag is "1", it means that there is a high possibility that a vermin is caught in the trap 30, and that the trap 30 should be confirmed by the owner immediately.

If the update date and time is older than the predetermined period, it means that the information regarding the corresponding trap 30 has not been updated for the predetermined period, that is, the trap 30 has not been patrolled for the predetermined period. Therefore, in such a case, the owner is actually urged to look around the trap 30.

The generation unit 223 generates, for example, a message indicating that the capture flag is "1" and a message indicating that the update date and time is older than the predetermined period as notification information. At this time, the notification information may include the position information of the trap 30 and the map image that the owner should look around.

Further, the generation unit 223 may generate a message indicating the update as notification information each time the trap information DB 231 is updated. Further, the generation unit 223 urges the owner of the relay terminal 60 located around the trap 30 to move to the detection range of the transmitter 50 for the trap 30 whose update date and time is older than the predetermined period. You may decide to generate a message.

In addition, the generation unit 223 can also generate a map image as shown in FIG. 10, for example, showing the position information of the trap 30 for each owner. In this case, the generation unit 223 may generate a map image for each group ID to which the owner belongs.

Further, when the receiving unit 221 receives the transmission request for the capture information, the generation unit 223 selects the capture information corresponding to the transmission request from the trap information DB 231 and generates the notification information based on the capture information.

The transmission unit 224 transmits the notification information generated by the generation unit 223 to the corresponding terminal device 10. In addition, the transmission unit 224 can also transmit the notification information to the local government that manages the area where the trap 30 is installed.

Next, a specific processing procedure by the support system 1 according to the embodiment will be described with reference to FIGS. 11 and 12. 11 and 12 are timing charts showing the processing procedure of the support system 1 according to the embodiment. Note that FIG. 11 shows a timing chart when the trap 30 is installed, and FIG. 12 shows a timing chart after the trap 30 is installed.

As shown in FIG. 11, the owner of the trap 30 installs the trap 30 (step S101) and turns on the power of the transmitter 50 (step S102). The transmitter 50 receives a power-on and transmits a beacon signal (step S103).

Subsequently, the owner's terminal device 10 acquires the position information of the current location (step S104) and transmits the trap information (step S105) when the beacon signal is received. Then, the server 20 registers the trap information in the trap information DB 231 based on the trap information transmitted from the terminal device 10 (step S106).

Next, the operation of the support system 1 after the installation of the trap 30 will be described with reference to FIG. As shown in FIG. 12, the transmitter 50 transmits a beacon signal at a predetermined cycle (for example, every 5 minutes) (step S201), and the relay terminal 60 within the detection range of the beacon signal receives and beacons. The capture information is transferred to the server 20 based on the signal (step S202).

Subsequently, the server 20 updates the capture information of the trap information DB 231 based on the capture information transmitted from the relay terminal 60 (step S203). Then, the server 20 notifies the terminal device 10 of the capture information updated in step S203 (step S204).

By the way, in the above-described embodiment, the case where the relay terminal 60 transfers the capture information to the server 20 via the network 2 has been described, but the present invention is not limited to this. That is, the received relay terminal 60 can be relayed as a beacon signal as it is.

FIG. 13 is a diagram showing a support system 1 according to a modified example. As shown in FIG. 13, in the support system 1A according to the modified example, the support system 1A further includes a security light 100. The security light 100 corresponds to an example of a lighting device and is a street light provided with a security camera and the like.

The security light 100 can transmit the image of the security camera to a predetermined server via the network 2 (not shown here). That is, the support system 1A according to the modified example focused on the point that the security light 100 is connected to the network 2.

That is, in the support system 1A, the security light 100 has a function of uploading capture information to the server 20 via the network 2. Therefore, each relay terminal 60 may transmit the beacon signal as it is when receiving the beacon signal transmitted by the transmitter 50.

That is, since the relay terminal 60 does not need to have a function of connecting to the network 2, an inexpensive communication device can be used for the relay terminal 60 itself. Further, in this case, the relay terminal 60 may be a fixed type fixed at a predetermined point.

In such a case, for example, the relay terminal 60 may change the frequency (wavelength) of the beacon signal received from the transmitter 50 to transmit. In this case, the relay terminal 60 transmits the beacon signal with a wavelength longer than that of the beacon signal of the transmitter 50, for example.

As an example of the frequency of the beacon signal, the frequency of the beacon signal of the transmitter 50 is 2.4 GHz, and the frequency of the beacon signal of the relay terminal 60 is 920 MHz. By reducing the frequency of the beacon signal of the relay terminal 60 in this way, it is possible to widen the detection range of the beacon signal. In other words, a large area can be covered with a small number of relay terminals 60.

In the example shown in FIG. 13, the case where data is uploaded to the server 20 via the security light 100 is shown, but the case is not limited to the security light 100, and other lighting devices connected to the network may be used. , Other communication devices other than the lighting device may be used.

By the way, in the above-described embodiment, the case where the transmitter 50 is installed in the trap 30 has been described, but the present invention is not limited to this. It may be an installation that is installed outdoors and requires patrol. An example of an installation is a mailbox in a depopulated area. In this case, the transmitter 50 can transmit information as a beacon signal as to whether or not the mail has been posted to the mailbox.

By the way, in the above-described embodiment, the case where the transmitter 50 is installed in the trap 30 has been described, but the present invention is not limited to this. It may be an installation that is installed outdoors and requires patrol. An example of an installation is a mailbox in a depopulated area. In this case, the transmitter 50 can transmit information as a beacon signal as to whether or not the mail has been posted to the mailbox.

Although embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. This embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the gist of the invention. This embodiment is included in the scope of the invention described in the claims and the equivalent scope thereof, as is included in the scope and gist of the invention. In addition, this embodiment can be appropriately combined as long as the processing contents do not contradict each other.

1, 1A Support system 10 Terminal equipment 20 Server 30 Trap 40 GPS satellite 50 Transmitter 60 Relay terminal 100 Security light

Claims (5)

A transmitter installed in a trap to capture animals and emits a beacon signal;
With a terminal device that transmits trap information in which the position information of the current location is added to the beacon information included in the beacon signal based on the beacon signal transmitted by the transmitter;
With a server that manages the trap information received from the terminal device;
Support system equipped with. The transmitter is
The transmitter identification information is transmitted as the beacon information,
The terminal device is
The support system according to claim 1, wherein the trap information is transmitted by adding the incidental information about the trap to the identification information. The transmitter is
The support system according to claim 1 or 2, wherein the beacon information including the identification information of the transmitter and incidental information about the trap is transmitted as the beacon signal. The transmitter is
The support system according to claim 1, 2 or 3, which emits the beacon signals having different frequencies based on a predetermined switching condition. The server
One of claims 1 to 4, wherein map information is generated by superimposing the position information of the trap on the map image based on the trap information, and the map information is distributed to the terminal device. Described support system.

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