JP7438244B2 - Wireless communication device, information presentation method and program - Google Patents

Description

The present invention relates to a wireless communication device, an information presentation method, and a program.

When constructing a wireless IoT (Internet of Things) system, wireless communication devices are distributed and installed within a target area to construct a wireless network such as a multi-hop network. In this case, in order to realize stable communication and communication with redundancy, each of the plurality of wireless communication devices must be installed at an appropriate position. For example, when installing a certain wireless communication device in a target area in order to ensure communication redundancy, it is preferable to install it at a position where it can communicate with, for example, two wireless communication devices.

Japanese Patent Application Publication No. 2005-167623 Japanese Patent Application Publication No. 2015-170914

However, generally, due to the influence of multipaths, the presence of obstacles, etc., it is not possible to install a wireless communication device so that it can communicate with two wireless communication devices based only on a simple communication distance.

The present invention has been made in view of the above, and provides a wireless communication device, an information presentation method, and a program that present information to a user indicating whether or not the current location is an appropriate location for communication. The purpose is to

In order to solve the above problems and achieve the objects, a wireless communication device according to the present invention includes a wireless communication unit capable of wirelessly receiving signals from a plurality of communication devices, and a first one of the plurality of communication devices. a first detection unit that detects the radio field strength of a first signal received from the device; and a first detection unit that detects the radio field strength of a second signal received from a second device different from the first device among the plurality of communication devices. and a presentation unit that presents the radio field intensity of the first signal and the radio field intensity of the second signal to the user. The presentation unit includes first audio information indicating that both the radio field strength of the first signal and the radio field strength of the second signal are greater than a predetermined first threshold; second audio information that is greater than the first threshold and indicates that the radio field intensity of the second signal is not greater than the first threshold; the radio field intensity of the first signal is the first threshold; third audio information indicating that the radio field strength of the second signal is not greater than the first threshold, or both the radio field strength of the first signal and the radio field strength of the second signal are It has an audio output unit that outputs fourth audio information indicating that the audio information is not greater than the first threshold.

According to the present invention, it is possible to present information to the user indicating whether the current location is an appropriate location for communication.

FIG. 1 is a diagram showing a target area where a plurality of wireless communication devices are installed. FIG. 2 is a diagram showing the appearance of the wireless communication device according to the first embodiment. FIG. 3 is a diagram showing the functional configuration of the wireless communication device according to the first embodiment. FIG. 4 is a flowchart showing the flow of installation processing for the target communication device according to the first embodiment. FIG. 5 is a diagram showing the appearance of a wireless communication device according to the second embodiment. FIG. 6 is a diagram showing the functional configuration of a wireless communication device according to the second embodiment. FIG. 7 is a flowchart showing the flow of installation processing for a target communication device according to the second embodiment. FIG. 8 is a diagram showing the hardware configuration of the wireless communication device.

A wireless communication device 10 according to an embodiment will be described. The wireless communication device 10 according to the embodiment presents the user with information indicating whether the current location is an appropriate location for communication.

(First embodiment)
FIG. 1 is a diagram showing a target area where a plurality of wireless communication devices 10 are installed.

The plurality of wireless communication devices 10 are installed at different positions in a target area, such as indoors or underground. Each of the plurality of wireless communication devices 10 may be installed on any object such as a ceiling, floor, wall, pillar, or fixed object in the target area.

The plurality of wireless communication devices 10 constitute, for example, a wireless IoT system. Each of the plurality of wireless communication devices 10 may be, for example, a wireless router device such as Wi-Fi (registered trademark) or Bluetooth (registered trademark). For example, a plurality of wireless communication devices 10 are connected to each other through wireless communication to configure a mesh network, a multi-hop network, or the like.

The target communication device 20 is one of the plurality of wireless communication devices 10. The target communication device 20 is a target wireless communication device 10 installed in a target area by a user. For example, the user carries the target communication device 20 in his/her hand and installs it within the target area.

When carried and installed by the user, the target communication device 20 is set to measurement mode by the user's operation. When set to the measurement mode, the target communication device 20 presents information to the user indicating whether the current location is an appropriate location for wireless communication with another wireless communication device 10. Thereby, the user can find an appropriate position to install the target communication device 20 while carrying the target communication device 20.

FIG. 2 is a diagram showing the appearance of the wireless communication device 10 (target communication device 20) according to the first embodiment.

In the wireless communication device 10, an antenna 24 is provided in a housing 22. The antenna 24 wirelessly transmits and receives electromagnetic waves to and from other communication devices. Note that the antenna 24 may be provided inside the housing 22.

The wireless communication device 10 includes a first display section 26 and a second display section 28. The first display section 26 and the second display section 28 are provided side by side on one side of the housing 22, for example.

The first display unit 26 displays information representing the radio field strength of the first signal received from the first device. The first device is any one of the plurality of communication devices. The plurality of communication devices are a plurality of wireless communication devices 10 other than the target communication device 20 with which the target communication device 20 can receive signals wirelessly.

The second display unit 28 displays information representing the radio field strength of the second signal received from the second device. The second device is any one device other than the first device among the plurality of communication devices. In the first embodiment, each of the first display section 26 and the second display section 28 is a light emitting diode that can emit light of different colors.

FIG. 3 is a diagram showing the functional configuration of the wireless communication device 10 (target communication device 20) according to the first embodiment.

The wireless communication device 10 includes an operation input section 32, a wireless communication section 34, an allocation section 36, a first detection section 38, a second detection section 40, and a presentation section 42.

The operation input unit 32 receives operation inputs from the user. For example, when the user carries the wireless communication device 10 and installs it within the target area, the operation input unit 32 receives an operation to start the measurement mode.

When set to the measurement mode, the wireless communication unit 34 is in a state where it can receive signals wirelessly from a plurality of communication devices.

When set to the measurement mode, the allocation unit 36 allocates any one of the plurality of communication devices from which the wireless communication unit 34 can receive signals wirelessly to the first device. Further, when the measurement mode is set, the allocation unit 36 allocates one of the plurality of communication devices, which is different from the first device, to the second device.

For example, the allocation unit 36 allocates the communication device that has transmitted the signal with the highest radio field strength among the plurality of communication devices to the first device during a predetermined period after the start of the measurement mode. Further, the allocation unit 36 may allocate the communication device that transmitted the signal with the second highest radio field strength among the plurality of communication devices to the second device.

Further, for example, the allocation unit 36 may allocate, to the first device, the first communication device among the plurality of communication devices that has transmitted a signal with a radio field intensity equal to or higher than a predetermined value during a predetermined period after the start of the measurement mode. In this case, the allocation unit 36 allocates the second communication device that has transmitted a signal with a radio field intensity equal to or higher than a predetermined value from among the plurality of communication devices.

The allocation unit 36 acquires identification information (for example, a MAC (Media Access Control) address) included in the signal transmitted from the first device, and sets it in the first detection unit 38 . The allocation unit 36 also acquires identification information included in the signal transmitted from the second device and sets it in the second detection unit 40 .

The first detection unit 38 detects the radio field intensity of the first signal that the wireless communication unit 34 receives from the first device. For example, the first detection unit 38 detects a beacon signal that includes identification information of the first device (for example, the MAC address of the first device) from among the plurality of beacon signals received by the wireless communication unit 34. Identify the beacon signal as the first signal. The first detection unit 38 then detects the radio field intensity of the identified first signal. The radio field strength is, for example, a value such as LQI (Link Quality Indicator) or RSSI (Received Signal Strength Indication).

The second detection unit 40 detects the radio field intensity of the second signal received by the wireless communication unit 34 from the second device. For example, the second detection unit 40 detects a beacon signal that includes identification information of the second device from among the plurality of beacon signals received by the wireless communication unit 34, and identifies the detected beacon signal as the second signal. . Then, the second detection unit 40 detects the radio field intensity of the specified second signal.

When set to the measurement mode, the presentation unit 42 presents the radio field intensity of the first signal detected by the first detection unit 38 and the radio field intensity of the second signal detected by the second detection unit 40 to the user. do. In the first embodiment, the presentation section 42 includes a first display control section 44, a second display control section 46, a first display section 26, and a second display section 28.

The first display control section 44 controls the display on the first display section 26 based on the radio wave intensity of the first signal detected by the first detection section 38 . The first display control unit 44 controls the first display unit 26 to turn on a first type of lighting when the radio field intensity of the first signal is greater than a first predetermined threshold. do. Further, the first display control section 44 controls the first display section 26 to perform a predetermined second type of lighting when the radio field intensity of the first signal is below the first threshold value.

The first display section 26 lights up under the control of the first display control section 44 . Therefore, the first display section 26 lights up in the first type when the radio field intensity of the first signal is greater than the first threshold, and when the radio field intensity of the first signal is less than or equal to the first threshold. , performs the second type of lighting. Thereby, the first display unit 26 can present to the user that it is possible to receive a signal with a radio field strength greater than the first threshold value from the first device.

Note that the first display control unit 44 may control the first display unit 26 to perform a predetermined third type of lighting when the radio field intensity of the first signal is lower than the second threshold. good. In this case, the first display unit 26 performs the third type of lighting when the radio field intensity of the first signal is lower than the second threshold. Note that the second threshold is smaller than the first threshold. Thereby, the first display unit 26 can present to the user that a signal with sufficient radio field strength cannot be received from the first device.

The second display control section 46 controls the display on the second display section 28 based on the radio wave intensity of the second signal detected by the second detection section 40 . The second display control unit 46 controls the second display unit 28 to turn on the first type of lighting when the radio field intensity of the second signal is greater than a predetermined first threshold. Further, the second display control section 46 controls the second display section 28 to perform the second type of lighting when the radio field intensity of the second signal is below the first threshold value.

The second display section 28 lights up under the control of the second display control section 46 . Therefore, the second display section 28 lights up in the first type when the radio field intensity of the second signal is greater than the first threshold, and when the radio field intensity of the second signal is less than or equal to the first threshold. , performs the second type of lighting. Thereby, the second display unit 28 can present to the user that it is possible to receive a signal with a radio field intensity greater than the first threshold value from the second device.

Note that the second display control section 46 may control the second display section 28 to perform the third type of lighting when the radio field intensity of the second signal is smaller than the second threshold value. In this case, the second display unit 28 performs the third type of lighting when the radio field intensity of the second signal is lower than the second threshold value. Note that the second threshold is smaller than the first threshold. Thereby, the second display unit 28 can present to the user that a signal with sufficient radio field strength cannot be received from the second device.

Here, the first type of lighting is, for example, display of a predetermined color (for example, green). In this case, the second type of lighting is a display of a color other than the first type (for example, orange).

Further, the first type of lighting may be continuous light lighting. In this case, the second type of lighting is lighting that blinks at regular intervals.

Further, the first type of lighting may be a display of characters or symbols indicating that the radio field intensity of the signal is higher than the first threshold value. In this case, the second type of lighting is a display of characters or symbols indicating that the radio field intensity of the signal is below the first threshold value.

Further, the first type of lighting may be lighting of a first number of light emitting units. For example, the first type of lighting may be lighting of two light emitting diodes. In this case, the second type of lighting may be lighting of a second number of light emitting units smaller than the first number. For example, the second type of lighting may be lighting of one light emitting diode.

Further, the third type of lighting is, for example, a non-lighting state. Further, the third type of lighting may be a display of characters or symbols indicating that the radio field intensity of the signal is lower than the second threshold value.

FIG. 4 is a flowchart showing the flow of installation processing for the target communication device 20 according to the first embodiment. In the first embodiment, when installing the target communication device 20 in the target area, the process proceeds as shown in FIG. 4.

First, in S11, the user determines one candidate (first candidate) to be the first device and the second device among the plurality of wireless communication devices 10 installed in the target area. Then, the user puts the wireless communication device 10 determined as the first candidate into a communicable state. In this case, the user may modify the location of the wireless communication device 10 determined as the first candidate.

Subsequently, in S12, the user determines the other candidate (second candidate) of the first device and the second device among the plurality of wireless communication devices 10 installed in the target area. Then, the user puts the wireless communication device 10 determined as the second candidate into a communicable state. In this case, the user may modify the location of the wireless communication device 10 determined as the second candidate. Furthermore, in this case, the user disables communication with devices other than the first and second candidates among the plurality of wireless communication devices 10 installed in the target area.

Subsequently, in S13, the user performs an operation on the target communication device 20 to start the measurement mode. When a predetermined period of time has elapsed after the start of the measurement mode, the target communication device 20 allocates one of the first candidate and the second candidate determined in S11 and S12 to the first device, and allocates the other to the second device.

Note that the target communication device 20 assigns the wireless communication device 10 that transmitted the signal with the highest radio field strength to the first device during a predetermined period after the start of the measurement mode, and assigns the wireless communication device 10 that transmitted the signal with the second highest radio field strength to the first device. Communication device 10 may be assigned to a second device. In this case, the user performs an operation to start the measurement mode on the target communication device 20 near the first candidate or the second candidate, whichever is desired to be set as the first device. Thereby, the target communication device 20 can make the user recognize which of the first candidate and second candidate determined in S11 and S12 is the first device.

Subsequently, in S14, the user temporarily places the target communication device 20 within the target area.

Subsequently, in S15, the user checks the first display section 26 and the second display section 28. As a result of checking the first display section 26 and the second display section 28 in S15, if the radio field strength of the signal from one or both of the first device and the second device is below the first threshold, the user is returned to S14. Then, in S14, the user temporarily places the target communication device 20 in a different position and repeats the process again.

Furthermore, as a result of checking the first display section 26 and the second display section 28 in S15, even after executing the processes of S14 and S15 a predetermined number of times, the radio field strength of the signal from one or both of the first device and the second device is is less than or equal to the first threshold, the user returns the process to S11. Then, in S11, the user corrects the positions of the first candidate and the second candidate, and repeats the process again.

As a result of checking the first display section 26 and the second display section 28 in S15, if the radio field strength of the signals from both the first device and the second device is greater than the first threshold, the user executes the process in S16. Proceed.

In S16, the user officially installs the target communication device 20 at the temporarily placed position. After completing the process of S16, the user ends the measurement mode of the target communication device 20, and ends this flow.

As described above, the wireless communication device 10 according to the first embodiment can display to the user a position where wireless communication is possible with both the first device and the second device at a radio field intensity higher than the first threshold. . Therefore, the wireless communication device 10 according to the first embodiment can notify the user that redundant communication will be performed with the first device and the second device. Thereby, according to the wireless communication device 10 according to the first embodiment, information indicating whether the current location is an appropriate location for communication can be presented to the user.

(Second embodiment)
Next, a wireless communication device 10 according to a second embodiment will be described. The wireless communication device 10 according to the second embodiment has substantially the same functions and configurations as the first embodiment, so components having substantially the same functions and configurations are given the same reference numerals and detailed descriptions will be omitted. Omitted.

FIG. 5 is a diagram showing the appearance of the wireless communication device 10 (target communication device 20) according to the second embodiment.

The wireless communication device 10 according to the second embodiment includes an audio output section 52. The audio output unit 52 is, for example, a speaker. The audio output section 52 may be provided on one side of the housing 22 or may be provided inside the housing 22. The audio output unit 52 outputs audio information representing the radio field strength of the first signal received from the first device and the radio field strength of the second signal received from the second device.

FIG. 6 is a diagram showing the functional configuration of the wireless communication device 10 (target communication device 20) according to the second embodiment.

The wireless communication device 10 according to the second embodiment differs from the first embodiment in the configuration of the presentation unit 42. The presentation unit 42 according to the second embodiment includes an audio control unit 54 and an audio output unit 52.

The audio control unit 54 controls the audio output from the audio output unit 52 based on the radio field intensity of the first signal detected by the first detection unit 38 and the radio field intensity of the second signal detected by the second detection unit 40. do. More specifically, the audio control unit 54 causes the audio output unit 52 to output the first audio information, the second audio information, the third audio information, or the fourth audio information.

The first audio information is a sound indicating that both the radio field intensity of the first signal and the radio field intensity of the second signal are greater than the first threshold value. The audio control unit 54 causes the audio output unit 52 to output the first audio information when both the radio field intensity of the first signal and the radio field intensity of the second signal are greater than the first threshold value. Therefore, the audio output unit 52 outputs the first audio information when both the radio field intensity of the first signal and the radio field intensity of the second signal are greater than the first threshold value.

The second audio information is a sound indicating that the radio field intensity of the first signal is greater than the first threshold value, and that the radio field intensity of the second signal is not greater than the first threshold value. The audio control unit 54 outputs the second audio information from the audio output unit 52 when the radio field intensity of the first signal is greater than the first threshold and the radio field intensity of the second signal is not greater than the first threshold. Output. Therefore, the audio output unit 52 outputs the second audio information when the radio field intensity of the first signal is greater than the first threshold and the radio field intensity of the second signal is not greater than the first threshold.

The third audio information is a sound indicating that the radio field intensity of the first signal is not greater than the first threshold value, and that the radio field intensity of the second signal is greater than the first threshold value. The audio control unit 54 outputs the third audio information from the audio output unit 52 when the radio field intensity of the first signal is not greater than the first threshold and the radio field intensity of the second signal is greater than the first threshold. Output. Therefore, the audio output unit 52 outputs the third audio information when the radio field intensity of the first signal is not greater than the first threshold and the radio field intensity of the second signal is greater than the first threshold.

The fourth audio information is a sound indicating that both the radio field intensity of the first signal and the radio field intensity of the second signal are not greater than the first threshold value. The audio control unit 54 causes the audio output unit 52 to output fourth audio information when both the radio field intensity of the first signal and the radio field intensity of the second signal are not greater than the first threshold value. Therefore, the audio output unit 52 outputs the fourth audio information when both the radio field intensity of the first signal and the radio field intensity of the second signal are not greater than the first threshold value.

Note that the audio control unit 54 may cause the audio output unit 52 to output the fifth audio information when both the radio field intensity of the first signal and the radio field intensity of the second signal are smaller than the second threshold. Therefore, the audio output unit 52 outputs the fifth audio information when both the radio field intensity of the first signal and the radio field intensity of the second signal are smaller than the second threshold value.

Here, the first audio information is, for example, a first level continuous sound. The second audio information is, for example, a first level intermittent sound. The third audio information is, for example, a first level intermittent sound at a different interval from the second audio information. Note that the second audio information and the third audio information may be the same. Further, the fourth audio information is an intermittent sound or a continuous sound that is lower than the first level.

Further, the first audio information may be a voice reading a text indicating that both the radio field intensity of the first signal and the radio field intensity of the second signal are higher than the first threshold value. Further, the second audio information is a voice that reads a text indicating that the radio field strength of the first signal is greater than the first threshold value, and that the radio field strength of the second signal is not greater than the first threshold value. .

Further, the third audio information is a voice reading a text indicating that the radio field strength of the first signal is not greater than the first threshold value and that the radio field strength of the second signal is greater than the first threshold value. . Note that the second audio information and the third audio information may be audio reading a text indicating that one of the first signal and the second signal is larger than the first threshold value and the other is not larger. . The fourth audio information may be audio reading a text indicating that both the radio field intensity of the first signal and the radio field intensity of the second signal are not greater than the first threshold value.

Further, the fifth audio information may be silent. Further, the fifth audio information may be a voice reading a text indicating that both the radio field intensity of the first signal and the radio field intensity of the second signal are lower than the second threshold value.

FIG. 7 is a flowchart showing the flow of installation processing for the target communication device 20 according to the second embodiment. In the second embodiment, when installing the target communication device 20 in the target area, the process proceeds as shown in FIG. 7.

The installation process according to the second embodiment differs from the process of the first embodiment shown in FIG. 4 in that the process in S15 is changed to S21.

In S21, the user confirms the audio output from the audio output unit 52. As a result of checking the audio output from the audio output unit 52 in S21, if the radio field strength of the signal from one or both of the first device and the second device is below the first threshold, the user executes the process in S14. Return to Then, in S14, the user temporarily places the target communication device 20 in a different position and repeats the process again.

Furthermore, as a result of checking the audio output from the audio output unit 52 in S21, even after performing the processes in S14 and S21 a predetermined number of times, the radio field intensity of the signal from one or both of the first device and the second device is still the same. If it is less than or equal to one threshold value, the user returns the process to S11. Then, in S11, the user corrects the positions of the first candidate and the second candidate, and repeats the process again.

As a result of checking the audio output from the audio output unit 52 in S21, if the radio field strength of the signals from both the first device and the second device is greater than the first threshold, the user advances the process to S16.

In S16, the user officially installs the target communication device 20 at the temporarily placed position. After completing the process of S16, the user ends the measurement mode of the target communication device 20, and ends this flow.

As described above, the wireless communication device 10 according to the second embodiment is capable of audio outputting to the user a location where wireless communication is possible with both the first device and the second device at a radio field intensity higher than the first threshold. can. Therefore, the wireless communication device 10 according to the second embodiment can notify the user that redundant communication will be performed with the first device and the second device. Thereby, according to the wireless communication device 10 according to the second embodiment, information indicating whether the current location is an appropriate location for communication can be presented to the user.

(Hardware configuration of wireless communication device 10)
FIG. 8 is a diagram illustrating an example of the hardware configuration of the wireless communication device 10. The wireless communication device 10 can be realized, for example, by a configuration as shown in FIG.

The wireless communication device 10 has a configuration similar to that of a normal computer (information processing device) having a wireless communication function. That is, the wireless communication device 10 includes a CPU 201 (Central Processing Unit), a ROM 202 (Read Only Memory), a RAM 203 (Random Access Memory), a storage device 204, an operation input section 32, a wireless communication section 34, and a monitor. 206 and a speaker section 208. The CPU 201, ROM 202, RAM 203, storage device 204, operation input section 32, wireless communication section 34, monitor section 206, and speaker section 208 are connected by a bus.

The CPU 201 loads a program stored in the storage device 204 into the RAM 203 and executes it, controls each part to perform input/output, and processes data. The ROM 202 stores a start program that reads an OS startup program from the storage device 204 to the RAM 203 . The RAM 203 stores data as a work area for the CPU 201.

The storage device 204 is, for example, a hard disk drive or flash memory. Storage device 204 stores an operating system, application programs, and data. These programs may be distributed as installable or executable files recorded on a computer-readable recording medium. Additionally, the program may be distributed by downloading from a server.

The operation input unit 32 is a button, a keyboard, or the like, and receives operation input from the user and provides it to the CPU 201 . The wireless communication unit 34 wirelessly transmits and receives signals to and from other communication devices under the control of the CPU 201 . The monitor unit 206 displays information under the control of the CPU 201. The monitor section 206 may function as the first display section 26 and the second display section 28. The speaker unit 208 outputs information as a sound under the control of the CPU 201 . The speaker section 208 may function as the audio output section 52.

The program executed by the wireless communication device 10 of this embodiment is a file in an installable format or an executable format, and is stored on a computer-readable storage such as a CD-ROM, a flexible disk (FD), a CD-R, or a DVD. Provided recorded on a medium. Further, the program executed by the wireless communication device 10 of this embodiment may be stored on a computer connected to a network such as the Internet, and may be provided by being downloaded via the network. Further, the program executed by the wireless communication device 10 of the present embodiment may be configured to be provided or distributed via a network such as the Internet. Further, the program of this embodiment may be configured to be provided by being incorporated in the ROM 202 or the like in advance.

The program executed by the wireless communication device 10 includes an allocation module, a first detection module, a second detection module, and a presentation module.

In the wireless communication device 10, each module is loaded onto the main storage device (RAM 203) by a processor (CPU 201) reading a program from a storage medium (storage device 204, etc.) and executing it. 36, functions as a first detection section 38, a second detection section 40, and a presentation section 42. Note that in the wireless communication device 10, all or part of the allocation section 36, the first detection section 38, the second detection section 40, and the presentation section 42 may be realized by hardware.

Although the embodiments of the present invention have been described above, these embodiments are presented as examples and are not intended to limit the scope of the invention. Embodiments can be modified in various ways.

10 Wireless communication device 20 Target communication device 22 Housing 24 Antenna 26 First display section 28 Second display section 32 Operation input section 34 Wireless communication section 36 Allocation section 38 First detection section 40 Second detection section 42 Presentation section 44 First Display control section 46 Second display control section 52 Audio output section

Claims (6)

a wireless communication unit capable of wirelessly receiving signals from multiple communication devices;
a first detection unit that detects the radio field intensity of a first signal received from a first device of the plurality of communication devices;
a second detection unit that detects a radio wave intensity of a second signal received from a second device different from the first device among the plurality of communication devices;
a presentation unit that presents the radio field strength of the first signal and the radio field strength of the second signal to a user;
Equipped with
The presentation unit includes:
first audio information indicating that both the radio field intensity of the first signal and the radio field intensity of the second signal are greater than a predetermined first threshold;
second audio information indicating that the radio field intensity of the first signal is greater than the first threshold, and that the radio field intensity of the second signal is not greater than the first threshold;
third audio information indicating that the radio field intensity of the first signal is not greater than the first threshold, and that the radio field intensity of the second signal is greater than the first threshold, or
fourth audio information indicating that both the radio field strength of the first signal and the radio field strength of the second signal are not greater than the first threshold value;
It has an audio output section that outputs
Wireless communication device. The presentation unit includes:
a first display section that is provided on a housing and that lights up in a predetermined type when the radio field intensity of the first signal is greater than a predetermined first threshold;
a second display section provided in the housing, which lights up a predetermined type of light when the radio field intensity of the second signal is greater than the first threshold;
The wireless communication device according to claim 1, comprising: When the measurement mode is set, any one of the plurality of communication devices is assigned to the first device, and one of the plurality of communication devices different from the first device is assigned to the first device. The wireless communication device according to claim 1 or 2 , further comprising: an allocation unit that allocates to the second device. The allocation unit allocates a communication device that has transmitted a signal with the highest radio field strength among the plurality of communication devices to the first device during a predetermined period after the start of the measurement mode; The wireless communication device according to claim 3, wherein the communication device that transmitted the signal with the second highest radio field intensity is assigned to the second device. An information presentation method executed by a wireless communication device including a wireless communication unit capable of wirelessly receiving signals from a plurality of communication devices, the method comprising:
detecting the radio field intensity of a first signal received from a first device of the plurality of communication devices;
detecting the radio wave intensity of a second signal received from a second device different from the first device among the plurality of communication devices;
presenting the radio field strength of the first signal and the radio field strength of the second signal to the user ;
In the presentation to the user,
first audio information indicating that both the radio field intensity of the first signal and the radio field intensity of the second signal are greater than a predetermined first threshold;
second audio information indicating that the radio field intensity of the first signal is greater than the first threshold, and that the radio field intensity of the second signal is not greater than the first threshold;
third audio information indicating that the radio field intensity of the first signal is not greater than the first threshold, and that the radio field intensity of the second signal is greater than the first threshold, or
fourth audio information indicating that both the radio field strength of the first signal and the radio field strength of the second signal are not greater than the first threshold value;
output
Information presentation method. A program executed by an information processing device including a wireless communication unit capable of wirelessly receiving signals from a plurality of communication devices,
The information processing device,
a first detection unit that detects the radio field intensity of a first signal received from a first device of the plurality of communication devices;
a second detection unit that detects a radio wave intensity of a second signal received from a second device different from the first device among the plurality of communication devices;
a presentation unit that presents the radio field strength of the first signal and the radio field strength of the second signal to a user;
and make it work ,
The presentation unit includes:
first audio information indicating that both the radio field intensity of the first signal and the radio field intensity of the second signal are greater than a predetermined first threshold;
second audio information indicating that the radio field intensity of the first signal is greater than the first threshold, and that the radio field intensity of the second signal is not greater than the first threshold;
third audio information indicating that the radio field intensity of the first signal is not greater than the first threshold, and that the radio field intensity of the second signal is greater than the first threshold, or
fourth audio information indicating that both the radio field strength of the first signal and the radio field strength of the second signal are not greater than the first threshold value;
It has an audio output section that outputs
program.

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