JP6958927B2 - Communication equipment, systems, methods and programs - Google Patents

Description

The present disclosure relates to communication devices, systems, methods and programs, and in particular, when the radio wave environment around the own device changes, it is possible to optimally communicate with the terminal based on the radio wave environment at a plurality of time points. Communication equipment, systems, methods and programs.

With the spread of wireless LAN (Wireless Local Area Network), the environment in which wireless LAN can be used is increasing. In particular, with the spread of IoT (Internet of Things), which uses various "things" such as sensors and home appliances by connecting them to the Internet, the number of TVs and speakers connected to the Internet via wireless LAN is increasing. .. Along with this, improvement of communication quality of wireless LAN is required. However, the wireless LAN is easily affected by the external environment, and the connection becomes unstable or the communication speed decreases due to the influence of ambient noise and the like. The wireless access point of the wireless LAN can grasp the radio wave condition around the own device, but cannot grasp the radio wave condition at a position away from the own device. Therefore, in order to check the radio wave condition of a terminal (station) placed at a remote position, it is necessary to check the icon or application indicating the radio wave strength on the terminal. For example, when it is desired to suppress the transmission output of the wireless access point from the viewpoint of security and power consumption, the user changes the setting of the wireless access point while checking the icon of the terminal and the result of the application. However, even if it is possible to connect to the terminal when the setting of the wireless access point is changed, the situation where it is difficult to connect may continue to occur due to the changing surrounding conditions.

Patent Document 1 is a escort terminal device used together with an access point that performs wireless communication with a wireless terminal device, outputs a signal for making a medium reservation, and wirelessly transmits the signal for making the medium reservation. A system with a leaky coaxial cable located as part of the access point's communication range is disclosed. Patent Document 1 does not disclose that when the radio wave environment around the own device changes, optimal communication with the terminal is performed based on the radio wave environment at a plurality of time points.

In Patent Document 2, the access point controls the transmission power based on the number of received messages corresponding to a specific event and the content, and the access point uses the signal strength information contained in the received message. It is disclosed that transmission power control is performed by determining the transmission power level that mitigates interference in a defined subset of reporting access terminals that it is not currently servicing. Patent Document 2 does not disclose that when the radio wave environment around the own device changes, optimal communication with the terminal is performed based on the radio wave environment at a plurality of time points.

Patent Document 3 describes a wireless communication system including an access point and a wireless terminal connected to the access point, wherein the access point and the wireless terminal provide reception quality in a plurality of frequency channels that can be used before the start of operation. It is disclosed to measure and determine the frequency channel to be used for communication after the start of operation based on the reception quality measurement result. Patent Document 3 does not disclose that when the radio wave environment around the own device changes, optimal communication with the terminal is performed based on the radio wave environment at a plurality of time points.

JP-A-2018-42013 Japanese Unexamined Patent Publication No. 2016-7019 Japanese Unexamined Patent Publication No. 2012-175275

As described above, even if it is possible to connect to the terminal when the setting of the wireless access point is changed, there is a problem that the surrounding situation may change with the passage of time and it may be difficult to connect.

An object of the present disclosure is to provide communication devices, systems, methods and programs that solve the above-mentioned problems.

The communication device according to the present disclosure is
A transmitter that sends radio waves to the terminal,
A receiving unit that receives the reception time and radio wave intensity of the radio wave at the terminal from the terminal, and
A storage unit that stores the reception time and the radio wave intensity in association with each other,
When the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time, a control unit that controls the transmission power of the radio signal transmitted from the transmission unit to less than the predetermined power.
To be equipped.

The system related to this disclosure is
A terminal and a communication device that communicates with the terminal,
With
The communication device is
A transmitter that transmits radio waves and
A receiving unit that receives the reception time and radio wave intensity of the radio wave at the terminal from the terminal, and
A storage unit that stores the reception time and the radio wave intensity in association with each other,
When the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time, the control unit has a control unit that controls the transmission power of the radio signal transmitted from the transmission unit to less than the predetermined power.
The terminal
A terminal receiver that receives the radio waves transmitted from the communication device, and
It has a terminal transmission unit that transmits the reception time of the radio wave and the radio wave intensity to the communication device.

The method pertaining to this disclosure is
Sending radio waves from the transmitter to the terminal and
Receiving the reception time and radio wave intensity of the radio wave at the terminal from the terminal,
To store the reception time in association with the radio field intensity,
When the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time, the transmission power of the radio signal transmitted from the transmission unit is controlled to be less than the predetermined power.
To be equipped.

The program related to this disclosure is
Sending radio waves from the transmitter to the terminal and
Receiving the reception time and radio wave intensity of the radio wave at the terminal from the terminal,
To store the reception time in association with the radio field intensity,
When the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time, the transmission power of the radio signal transmitted from the transmission unit is controlled to be less than the predetermined power.
Let the computer run.

According to the present disclosure, when the radio wave environment around the own device changes, a communication device, a system, a method and a program capable of optimally communicating with a terminal based on the radio wave environment at a plurality of time points are provided. Can be done.

It is a block diagram which illustrates the communication apparatus which concerns on embodiment. It is a block diagram which illustrates the system which concerns on embodiment. It is a block diagram which illustrates the system which concerns on embodiment. It is a sequence diagram which illustrates the operation of the system which concerns on embodiment. It is a sequence diagram which illustrates the operation of the system which concerns on embodiment. It is a figure which illustrates the radio frame which concerns on embodiment. It is a sequence diagram which illustrates the operation of the system which concerns on embodiment. It is a figure which illustrates the information stored in the database of the access point which concerns on embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each drawing, the same or corresponding elements are designated by the same reference numerals, and duplicate description will be omitted as necessary for the sake of clarity of description.

[Embodiment]
First, an outline of the configuration of the communication device will be described.
FIG. 1 is a block diagram illustrating a communication device according to an embodiment.

As shown in FIG. 1, the communication device 11 according to the first embodiment includes a transmission unit 111, a reception unit 112, a storage unit 113, and a control unit 114.

The transmission unit 111 transmits radio waves to the terminal 12. This radio wave is for measuring the radio wave intensity at a terminal (not shown).

The terminal has a terminal receiving unit (not shown) and a terminal transmitting unit (not shown). The terminal receiving unit receives the radio wave transmitted from the communication device 11 and measures the radio wave strength at the time of reception. The terminal transmission unit feeds back (transmits) the radio wave strength to the communication device 11 together with the reception time.

The receiving unit 112 of the communication device 11 receives the reception time and the radio wave intensity at the radio wave terminal from the terminal.

The storage unit 113 stores the reception time of the radio wave at the terminal and the radio wave intensity in association with each other. The storage unit 113 stores the radio field strength at the current time and the radio wave strength at a plurality of times together with their received reception times.

When the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time, the control unit 114 controls the transmission power of the radio signal transmitted from the transmission unit 111 to be less than the predetermined power. The control unit 114 controls the transmission power to be less than the predetermined power when the radio wave intensity is, for example, a predetermined threshold value or more from a predetermined time point to the present.

Further, the control unit 114 controls the transmission power to be equal to or higher than the predetermined power when the radio wave intensity is less than the predetermined threshold value for the predetermined time.

When the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time, the communication device 11 controls the transmission power of the radio signal transmitted from the transmission unit 111 to be less than the predetermined power. The transmission power can be controlled based on the radio wave strength at the current time. For example, the communication device 11 does not reduce the transmission power to less than the predetermined power when only the radio wave intensity at the current time is equal to or more than the predetermined threshold value, and reduces the transmission power to less than the predetermined power when the radio wave intensity is equal to or more than the predetermined threshold value at a plurality of time points. Control. Since the transmission power does not change abruptly due to such an operation of the communication device 11, the operation is more stable than the control of the transmission power based on the radio field strength at the current time.

Next, a specific example of the system configuration will be described.
Here, an example will be described in which the radio wave transmitted from the access point 11 is received by the quality measuring terminal, the radio wave strength is measured, and the radio wave is fed back to the access point 11.
FIG. 2 is a block diagram illustrating a system according to the embodiment.
The access point shown in FIG. 2 corresponds to the communication device shown in FIG. 1, the quality measuring terminal shown in FIG. 2 corresponds to the terminal shown in FIG. 1, and the database shown in FIG. 2 corresponds to the storage unit shown in FIG.

As shown in FIG. 2, the system 10 includes a quality measurement terminal 12 and an access point 11 that communicates with the quality measurement terminal 12.

The quality measurement terminal 12 establishes communication with the access point 11 and is in a state of being able to communicate with the access point 11.

The quality measurement terminal 12 acquires and stores BSSID (Basic Service Set Identifier) information of a plurality of access points 11. The BSSID is unique to each access point 11, is for identifying the access point 11, and is sometimes referred to as an identification code.

The quality measurement terminal 12 receives the radio frame in order to start monitoring the surrounding radio frame.

The quality measurement terminal 12 compares the BSSID included in the received wireless frame with the BSSID of the access point 11 that has already been acquired and stored.

When the BSSID included in the wireless frame matches the BSSID of the access point 11 already acquired and stored in advance by the quality measuring terminal 12, the quality measuring terminal 12 determines the reception time of the wireless frame and the MAC address of the quality measuring terminal 12. , BSSID, radio field strength, and position information of the quality measurement terminal 12 are notified (transmitted) to the access point 11. Here, the BSSID included in the wireless frame is the BSSID of the access point 11 transmitted from the access point 11.

The radio wave strength is, for example, RSSI (Received Signal Strength Indicator). The quality measurement terminal 12 may notify the access point 11 of the signal-to-noise ratio, that is, the SNR (Signal to Noise Ratio), instead of the radio wave intensity. The quality measuring terminal 12 may notify the access point 11 of the reception quality such as the bit error rate instead of the radio wave strength.

The access point 11 stores information such as the reception strength of the wireless frame in the database 113.

The access point 11 monitors and controls the state of a wireless communication environment such as a wireless LAN by using the result of the radio wave intensity of the wireless frame measured by the quality measuring terminal 12.

Specifically, the access point 11 weakens the transmission output when the radio wave intensity measured by the quality measuring terminal 12 is equal to or higher than a predetermined threshold value for a predetermined time. As a result, the access point 11 can prevent radio waves from reaching an unnecessary distance.

As a result, the interference radio waves are reduced, so that even if the radio wave environment around the access point 11 changes, it is possible to optimally communicate with the terminal.

The access point 11 may receive the signal-to-noise ratio of the wireless frame quality measurement terminal 12 from the quality measurement terminal 12 and control the transmission power based on the signal-to-noise ratio instead of the radio wave strength. ..

Further, the access point 11 may receive the reception quality of the wireless frame at the quality measurement terminal 12 from the quality measurement terminal 12 and control the transmission power based on the reception quality instead of the radio wave strength.

Next, the details of the system configuration will be described.
FIG. 3 is a block diagram illustrating the system according to the embodiment.

As shown in FIG. 3, the system 10 includes a quality measurement terminal 12 and an access point 11.

The quality measurement terminal 12 includes a terminal communication unit 121, a terminal wireless communication unit 122, a terminal communication control unit 123, and a terminal wireless communication control unit 124.

The terminal communication unit 121 communicates with the access point 11 using Bluetooth (registered trademark) or the like.

The terminal wireless communication unit 122 includes a terminal receiving unit that receives a wireless frame (radio wave) transmitted from the access point 11, and a terminal transmitting unit that transmits the reception time and radio wave intensity of the wireless frame.

The terminal communication control unit 123 has a frame creation unit 123a and a frame analysis unit 123b. The frame creation unit 123a creates a notification frame for notifying the access point 11 of the BSSID acquisition request of the access point 11 and the measured radio field strength. The frame analysis unit 123b analyzes the wireless frame received from the access point 11 and acquires the BSSID notified from the access point 11. The acquired BSSID of the access point 11 is stored in the information storage unit 126 via the information registration unit 125b.

The terminal wireless communication control unit 124 has a frame analysis unit 124a and a radio field intensity measurement unit 124b. The frame analysis unit 124a analyzes the received wireless frame and acquires information such as BSSID. The radio wave strength measuring unit 124b calculates RSSI (Received Signal Strength Indicator) and SNR (Signal to Noise Ratio) of the radio frame received from the access point 11.

The terminal information control unit 125 has an information comparison unit 125a and an information registration unit 125b. The information comparison unit 125a compares the BSSID acquired by the frame analysis unit 124a with the BSSID recorded in the information storage unit 126, and whether or not the wireless frame received by the terminal wireless communication unit 122 is transmitted from the access point 11. To judge.

The position information acquisition unit 127 acquires the position information of the quality measurement terminal 12 by using GPS (Global Positioning System) or the like.

The access point 11 has a communication unit 115 and a wireless communication unit 11a. The communication unit 115 communicates with the quality measurement terminal 12. The wireless communication unit 11a has a transmission unit 111 and a reception unit 112. The transmitting unit 111 transmits a wireless frame, and the receiving unit 112 receives a notification frame.

The access point 11 further includes a control unit 114 and an information storage unit 113. The control unit includes a communication control unit 1141 and an information control unit 1142. The communication control unit 1141 has a frame creation unit 1141a and a frame analysis unit 1141b. The information control unit 1142 has an information management unit 1142a and an information registration unit 1142b.

The frame creation unit 1141a creates a wireless frame for notifying the BSSID of itself (access point 11) in response to the BSSID acquisition request from the quality measurement terminal 12.

The frame analysis unit 1141b acquires the measurement result of the radio wave intensity from the notification frame for notifying the radio wave intensity transmitted from the quality measurement terminal 12. The measurement result of the radio wave strength is added and stored in the information storage unit 113 via the information registration unit 1142b. The information storage unit shown in FIG. 3 corresponds to the storage unit shown in FIG.

The information management unit 1142a determines whether the wireless communication quality is good or bad by using the information (data) stored in the information storage unit 113.

Next, the operation of the system according to the embodiment will be described.
FIG. 4 is a sequence diagram illustrating the operation of the system according to the embodiment.
FIG. 5 is a sequence diagram illustrating the operation of the system according to the embodiment.
FIG. 6 is a diagram illustrating a wireless frame according to the embodiment.
FIG. 7 is a sequence diagram illustrating the operation of the system according to the embodiment.
FIG. 8 is a diagram illustrating information stored in the database of the access point according to the embodiment.

As shown in FIG. 4, the quality measurement terminal 12 is set so as to be able to connect to the access point 11, and the quality measurement terminal 12 establishes communication with the access point 11 (step S101).

The quality measurement terminal 12 creates a request radio frame for requesting the access point 11 for a list of BSSIDs of the access point 11, and transmits the request radio frame to the access point 11 (step S102).

The access point 11 stores its own BSSID (access point 11) in the data unit of the response wireless frame. The access point 11 creates a response radio frame corresponding to the BSSID acquisition request, and transmits the response radio frame to the quality measurement terminal 12 (step S103). The response radio frame may be simply referred to as a radio frame.

The quality measurement terminal 12 acquires the BSSID of the access point 11 from the data unit of the response wireless frame and registers it in the database 126 of itself (quality measurement terminal 12) (step S104). The database may also be referred to as BSSID data.

After registering the BSSID of the access point 11 in the database 126, the quality measurement terminal 12 starts monitoring the wireless frame transmitted from the access point 11 via the wireless interface (step S105).

Specifically, as shown in FIG. 5, the quality measurement terminal 12 receives the wireless frame transmitted from the access point 11 and calculates (measures) the radio wave intensity of the wireless frame (step S201). At this time, the frequency with which the quality measuring terminal 12 measures the radio field intensity may be changed depending on the measurement time and the number of wireless frames to be measured.

The quality measurement terminal 12 acquires the BSSID of the access point 11 from the wireless frame. The quality measurement terminal 12 compares whether the acquired BSSID is in the BSSID stored in the database 126 (step S202).

When the BSSID of the wireless frame is in the BSSID stored in the database 126 (if it matches), the quality measurement terminal 12 determines that the wireless frame is a wireless frame transmitted from the access point 11 to be monitored. .. The quality measurement terminal 12 creates a notification frame for notifying the radio field strength and transmits it to the access point 11 (step S203).

Here, the notification frame will be described.
As shown in FIG. 6, the data unit of the notification frame includes the reception time (measurement time) at which the wireless frame was received, the MAC address of the quality measurement terminal 12, the BSSID related to the wireless frame, the radio wave strength of the wireless frame, and the quality measurement terminal. Information such as position information of 12 is stored. The information stored in the notification frame can be changed and added.

By using the information stored in the notification frame from the quality measurement terminal 12, the access point 11 can determine when, at what position, and which quality measurement terminal 12 is the result of measurement.

After step S203, as shown in FIG. 7, the access point 11 acquires information such as radio field strength from the data unit of the notification frame, adds the information to the database 113, and stores the information (step S204).

Here, the database will be described.
As shown in FIG. 8, the access point 11 records the information received from the quality measurement terminal 12 in the storage unit 113 in chronological order.

By using the information stored in the storage unit 113, the access point 11 can analyze the difference in radio field strength at predetermined time intervals, the difference in radio wave strength for each BSSID, and the like.

In this way, the access point 11 can continuously monitor the radio wave intensity at the quality measuring terminal 12 of the radio wave transmitted by itself.

The access point 11 according to the embodiment can monitor the radio condition at a position away from the access point 11 by feeding back from the quality measurement terminal 12.

As a result, the access point 11 can dynamically change the operation of the access point 11 by using the radio wave intensity measured by the quality measuring terminal 12.

As a result, when the radio wave environment around the own device changes, it is possible to provide a communication device, a system, a method and a program capable of optimally communicating with the terminal based on the radio wave environment at a plurality of time points.

Further, in the embodiment, the user does not need to change the setting of the access point 11 while checking the icon and the application for the radio field strength received by the quality measurement terminal 12, so that the load on the user is reduced. be able to.

Further, the access point 11 may receive information such as measurement results (reception time, radio wave intensity, etc.) of each wireless frame of the plurality of quality measurement terminals 12 from the plurality of quality measurement terminals 12. At this time, the access point 11 stores and manages, for example, the reception time and the radio wave intensity in association with each other among the measurement results for each of the plurality of quality measurement terminals 12 of the wireless frame, and operates the access point 11 based on them. You may control it.

Further, in the embodiment, all the access points 11 have been described as measurement targets, but the present invention is not limited to this. Of the BSSIDs stored in the storage unit 113, only some BSSID access points 11 may be measured.

Further, measurement conditions such as measurement frequency and content of notification information may be specified from the access point 11 to the quality measurement terminal 12.

Further, as the radio field intensity, RSSI and SNR have been described as examples, but the present invention is not limited to this. Another one may be used as the quality information.

Further, in the embodiment, the Su Qin power is controlled based on the radio wave intensity, but the present invention is not limited to this. For example, the access point 11 monitors the communication status of the station connected to itself (access point 11) and the connection request from the station, and when the state of no communication from the station continues for a certain period of time, the access point 11 itself The transmission / reception operation may be stopped. After that, the access point 11 may be controlled to operate its own transmission / reception operation when there is a connection request from the station.

Further, the access point 11 may output the result measured by the quality measuring terminal 12 as log information of the access point 11.

In the above embodiment, the present invention has been described as a hardware configuration, but the present invention is not limited thereto. The present invention can also realize the processing of each component by causing a CPU (Central Processing Unit) to execute a computer program.

In the above embodiment, the program can be stored and supplied to a computer using various types of non-transitory computer readable medium. Non-transient computer-readable media include various types of tangible storage media. Examples of non-temporary computer-readable media include magnetic recording media (specifically flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (specifically magneto-optical disks), and CD-ROMs (Read Only Memory). ), CD-R, CD-R / W, semiconductor memory (specifically, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM)), flash ROM, RAM (Random Access Memory). The program may also be supplied to the computer by various types of transient computer readable medium. Examples of temporary computer-readable media include electrical, optical, and electromagnetic waves. The temporary computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.

The present invention is not limited to the above embodiment, and can be appropriately modified without departing from the spirit.

10 ... System 11 ... Communication device, access point 11a ... Wireless communication unit 111 ... Transmission unit 112 ... Reception unit 113 ... Storage unit, database, information storage unit 114 ... Control unit 1141 ... Communication control unit 1141a ... Frame creation unit 1141b ... Frame Analysis unit 1142 ... Information control unit 1142a ... Information management unit 1142b ... Information registration unit 115 ... Communication unit 12 ... Terminal, quality measurement terminal 121 ... Terminal communication unit 122 ... Terminal wireless communication unit 123 ... Terminal communication control unit 123a ... Frame creation unit 123b ... Frame analysis unit 124 ... Terminal wireless communication control unit 124a ... Frame analysis unit 124b ... Radio strength measurement unit 125 ... Terminal information control unit 125a ... Information comparison unit 125b ... Information registration unit 126 ... Information storage unit, database 127 ... Location information Acquisition department

Claims (9)

A transmitter that sends radio waves to the terminal,
A receiving unit that receives the reception time and radio wave intensity of the radio wave at the terminal from the terminal, and
A storage unit that stores the reception time and the radio wave intensity in association with each other,
When the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time, a control unit that controls the transmission power of the radio signal transmitted from the transmission unit to less than the predetermined power.
Equipped with a,
The terminal transmits the reception time and the radio wave strength when the identification code of the own device transmitted from the own device matches the identification code stored in advance in the terminal.
Communication device. When the radio wave intensity is less than the predetermined threshold value for the predetermined time, the control unit controls the transmission power to be equal to or higher than the predetermined power.
The communication device according to claim 1. The receiving unit receives the signal-to-noise ratio of the radio wave at the terminal from the terminal, and receives the signal-to-noise ratio from the terminal.
The control unit controls the transmission power based on the signal-to-noise ratio instead of the radio field intensity.
The communication device according to claim 1 or 2. The receiving unit receives the reception quality of the radio wave at the terminal from the terminal, and receives the radio wave from the terminal.
The control unit controls the transmission power based on the reception quality instead of the radio wave strength.
The communication device according to claim 1 or 2. The receiving unit receives the reception time and the radio wave intensity at the plurality of terminals of the radio wave, and receives the radio wave strength.
The storage unit stores the reception time of the radio wave for each of the plurality of terminals and the radio wave intensity in association with each other.
The communication device according to any one of claims 1 to 4. A terminal and a communication device that communicates with the terminal,
With
The communication device is
A transmitter that transmits radio waves and
A receiving unit that receives the reception time and radio wave intensity of the radio wave at the terminal from the terminal, and
A storage unit that stores the reception time and the radio wave intensity in association with each other,
When the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time, the control unit has a control unit that controls the transmission power of the radio signal transmitted from the transmission unit to less than the predetermined power.
The terminal
A terminal receiver that receives the radio waves transmitted from the communication device, and
Have a, a terminal transmission unit that transmits to the receiving time of the radio wave and the radio wave intensity in the communication device,
When the identification code of the communication device transmitted from the communication device matches the identification code stored in advance in the terminal, the terminal transmission unit transmits the reception time and the radio wave intensity to the communication device.
system. When the radio wave intensity is less than the predetermined threshold value for the predetermined time, the control unit controls the transmission power to be equal to or higher than the predetermined power.
The system according to claim 6. Sending radio waves from the transmitter of the communication device to the terminal,
The receiving unit of the communication device receives the reception time and the radio wave intensity of the radio wave at the terminal from the terminal, and
The storage unit of the communication device stores the reception time and the radio wave intensity in association with each other.
When the control unit of the communication device controls the transmission power of the radio signal transmitted from the transmission unit to be less than the predetermined power when the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time.
When the terminal matches the identification code of the communication device transmitted from the communication device with the identification code stored in advance in the terminal, the reception time and the radio wave intensity are transmitted to the communication device.
How to prepare. Sending radio waves from the transmitter of the communication device to the terminal,
The receiving unit of the communication device receives the reception time and the radio wave intensity of the radio wave at the terminal from the terminal, and
The storage unit of the communication device stores the reception time and the radio wave intensity in association with each other.
When the control unit of the communication device controls the transmission power of the radio signal transmitted from the transmission unit to be less than the predetermined power when the radio wave intensity is equal to or higher than a predetermined threshold value for a predetermined time.
When the terminal matches the identification code of the communication device transmitted from the communication device with the identification code stored in advance in the terminal, the reception time and the radio wave intensity are transmitted to the communication device.
A program that causes a computer to run.

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