JP2021061477A - Wireless communication device, system, method, and program - Google Patents

Abstract

To provide a wireless communication device, system, method, and program that can inhibit use of the same channel as a prescribed channel when communicating with a terminal device to prevent congestion of the prescribed channel.SOLUTION: A wireless communication device 11 comprises: a transmission control unit 111 that transmits a first BSSID for data communication and a second BSSID for data frame transmission to another wireless communication device 12; a transmission unit 112 that performs data communication using a first subchannel corresponding to the first BSSID in a prescribed channel, and performs data frame transmission using a second subchannel corresponding the second BSSID in the prescribed channel; and a communication monitoring unit 113 that issues an instruction to start data frame transmission using the second subchannel when the first subchannel is not used for connection or no data communication is performed while connecting with a terminal device 13.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to wireless communication devices, systems, methods, and programs, and in particular, suppresses the use of the same channel as a predetermined channel when communicating with a terminal device, and prevents congestion of the predetermined channel. With respect to possible wireless communication devices, systems, methods, and programs.

In recent years, terminal devices that use wireless LAN (Local Area Network) such as smartphones have become widespread. With the spread of terminal devices, wireless communication devices that are connected to the terminal devices and accommodate the terminal devices are also becoming widespread. The wireless communication device has an auto channel select function that detects an unused channel, that is, a free channel, and communicates using the detected free channel. The auto channel select function selects a channel to be used based on information such as the number of wireless communication devices including its own device and the load amount of communication with the terminal device. When the wireless communication device starts operating, the optimum free channel at that time is selected. However, since other wireless communication devices also use the auto channel select function to select a free channel, the number of free channels gradually decreases, and the communication environment deteriorates due to mutual interference between channels. The wireless communication device may be referred to as an access point, and the terminal device may be referred to as a slave unit.

In paragraph 0034 of Patent Document 1, the channel usage status is monitored before each of a plurality of access points starts polling communication, and it is determined which access point should be followed for polling communication in the own network. It is disclosed to do. Further, paragraph 0034 of Patent Document 1 discloses that the access point avoids a signal collision between a plurality of access points by controlling the period for performing polling communication according to the communication status. In Patent Document 1, a first BSSID (Basic Service Set Identifier) used for data communication with a terminal device and a second BSSID used for data frame transmission are transmitted to another wireless communication device, and the first BSSID is transmitted. If you are not connected using the first subchannel in the predetermined channel corresponding to, or if you are connected but data communication is not performed, use the second subchannel in the predetermined channel corresponding to the second BSSID. It is not disclosed that the data frame transmission is started.

In paragraph 0065 of Patent Document 2, the channel selection unit of the server access point selects the communication channel having the lowest degree of congestion as the communication channel used by the access point to be determined this time, based on the determination result of the degree of congestion. It is disclosed to do. Further, in paragraph 0087 of Patent Document 2, even when there is a corresponding access point having a plurality of BSSIDs around the corresponding access point and transmitting beacon information of different BSSIDs on the same communication channel, the above-mentioned It is disclosed that the degree of congestion of each communication channel is determined according to the actual number of access points using each communication channel based on the used channel state. In Patent Document 2, a first BSSID used for performing data communication with a terminal device and a second BSSID used for performing data frame transmission are transmitted to another wireless communication device, and within a predetermined channel corresponding to the first BSSID. When not connected using the first subchannel of, or when connected but data communication is not performed, data frame transmission is performed using the second subchannel in the predetermined channel corresponding to the second BSSID. It is not disclosed to start.

International Publication No. 2015/136599 Japanese Unexamined Patent Publication No. 2016-19605

As described above, the wireless communication device selects a so-called free channel having a small number of sub-channels in use, or a channel having a small communication load. That is, the wireless communication device uses the auto channel select function to select a free channel which is a good channel. Therefore, even if a free channel can be selected at a certain point in time, there is a problem that the number of free channels gradually decreases as the number of wireless communication devices installed later increases, and the communication environment deteriorates due to mutual interference between channels. ..

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

The wireless communication device according to the present disclosure is
Transmission control that controls the transmission of the first BSSID (Basic Service Set Identifier) used for data communication with the terminal device and the second BSSID used for data frame transmission to other wireless communication devices. Department and
Transmission that performs the data communication using the first subchannel in the predetermined channel corresponding to the first BSSID, and transmits the data frame using the second subchannel in the predetermined channel corresponding to the second BSSID. Department and
When the own device and the terminal device are not connected using the first subchannel, or when the terminal device is connected but the data communication is not performed, the second subchannel is used. A communication monitoring unit that instructs the transmission control unit to instruct the transmission control unit to start transmitting the data frame.
To be equipped.

The system related to this disclosure is
It is equipped with a terminal device, a wireless communication device, and another wireless communication device.
The wireless communication device is
Control is performed to transmit the first BSSID (Basic Service Set Identifier) used for performing data communication with the terminal device and the second BSSID used for performing data frame transmission to the other wireless communication device. Transmission control unit and
Transmission that performs the data communication using the first subchannel in the predetermined channel corresponding to the first BSSID, and transmits the data frame using the second subchannel in the predetermined channel corresponding to the second BSSID. Department and
When the wireless communication device and the terminal device are not connected using the first subchannel, or when the terminal device is connected but the data communication is not performed, the second subchannel is used. It has a communication monitoring unit that instructs the transmission control unit to instruct the transmission control unit to start the data frame transmission by using the communication monitoring unit.
The other wireless communication device is
A receiving unit that receives the first BSSID and the second BSSID from the wireless communication device, and
The first subchannel corresponding to the first BSSID is identified, the second subchannel corresponding to the second BSSID is identified, and the first subchannel and the channel other than the predetermined channel including the second subchannel are referred to. It has a selection unit that is selected as the channel to be used by other wireless communication devices.

The method pertaining to this disclosure is
Transmission of the first BSSID (Basic Service Set Identifier) used for data communication with the terminal device and the second BSSID used for data frame transmission to other wireless communication devices, and
The data communication is performed using the first subchannel in the predetermined channel corresponding to the first BSSID, and the data frame transmission is performed using the second subchannel in the predetermined channel corresponding to the second BSSID. When,
When the wireless communication device and the terminal device are not connected using the first subchannel, or when the terminal device is connected but the data communication is not performed, the second subchannel is used. To instruct the command to start the data frame transmission, and
To be equipped.

The program related to this disclosure is
Transmission of the first BSSID (Basic Service Set Identifier) used for data communication with the terminal device and the second BSSID used for data frame transmission to other wireless communication devices, and
The data communication is performed using the first subchannel in the predetermined channel corresponding to the first BSSID, and the data frame transmission is performed using the second subchannel in the predetermined channel corresponding to the second BSSID. When,
When the wireless communication device and the terminal device are not connected using the first subchannel, or when the terminal device is connected but the data communication is not performed, the second subchannel is used. To instruct the command to start the data frame transmission, and
Let the computer run.

According to the present disclosure, there are provided wireless communication devices, systems, methods, and programs capable of suppressing the use of the same channel as a predetermined channel and preventing congestion of the predetermined channel when communicating with the terminal device. can do.

It is a block diagram which illustrates the wireless communication apparatus which concerns on Embodiment 1. FIG. It is a block diagram which illustrates the system which concerns on Embodiment 1. FIG. It is a figure which illustrates the structure of BSSID. It is a flowchart which illustrates the operation of the wireless communication apparatus which concerns on Embodiment 1. FIG. It is a flowchart which illustrates the operation of the wireless communication apparatus which concerns on Embodiment 1. FIG. It is a flowchart which illustrates the operation of the wireless communication apparatus which concerns on Embodiment 2. FIG.

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 1]
The outline of the configuration of the wireless communication device according to the first embodiment will be described.
FIG. 1 is a block diagram illustrating the wireless communication device according to the first embodiment.

As shown in FIG. 1, the wireless communication device 11 according to the first embodiment includes a transmission control unit 111, a transmission unit 112, and a communication monitoring unit 113. The wireless communication device 11 has a first BSSID (Basic Service Set Identifier) which is an identifier for identifying the own device (wireless communication device 11). The wireless communication device 11 has a multi-SSID (Service Set Identifier) function. The wireless communication device 11 can operate the first BSSID and the second BSSID at the same time by using the multi-SSID function.

The transmission control unit 111 controls the data frame transmission of the second BSSID, and dynamically switches and controls the start and stop of the data frame transmission by the command from the communication monitoring unit 113. The transmission control unit 111 controls to transmit the second BSSID used for performing data frame transmission to another wireless communication device 12. Further, the transmission control unit 111 controls to transmit the first BSSID (Basic Service Set Identifier) used for data communication with the terminal device 13 to another wireless communication device 12.

The wireless communication device 11 does not use (do not operate) the second BSSID to accommodate the terminal device 13. Only the first BSSID accommodates the terminal device 13 in the wireless communication device 11.

The transmission unit 112 performs data communication with the terminal device 13 using the first subchannel in the predetermined channel corresponding to the first BSSID. The transmission unit 112 transmits a data frame using the second subchannel in the predetermined channel corresponding to the second BSSID. A predetermined channel includes a plurality of subchannels. The first subchannel and the second subchannel are subchannels within a predetermined channel. For example, in the 2 GHz band, when there are channels from the first channel to the thirteenth channel, one of them is a predetermined channel. Further, each of the first channel to the thirteenth channel includes a plurality of sub-channels. A given channel also includes a plurality of subchannels.

The communication monitoring unit 113 monitors the connection state (slave unit connection state) with the terminal device 13 using the first BSSID and the communication environment (communication status) of the first subchannel corresponding to the first BSSID.

The communication monitoring unit 113 is the second when the wireless communication device 11 and the terminal device 13 are not connected using the first subchannel, or when the terminal device 13 is connected but data communication is not performed. An instruction to start data frame transmission using the sub-channel is instructed to the transmission control unit 111.

Specifically, when the data communication (slave unit communication) using the first BSSID is completed, the communication monitoring unit 113 instructs the transmission control unit 111 to start the data frame transmission using the second BSSID. Compared to the other wireless communication device 12, the second subchannel using the second BSSID has a high communication load, and it can appear that the communication is congested. As a result, to the other wireless communication device 12, the predetermined channel including the second sub-channel has a high communication load, and it can be made to appear that the communication is congested.

Further, when the communication monitoring unit 113 starts data communication to the terminal device 13 using the first subchannel, the communication monitoring unit 113 instructs the transmission control unit 111 to stop the data frame transmission using the second subchannel. ..

Specifically, when the terminal device 13 is connected to the first BSSID and data communication is started, the communication monitoring unit 113 instructs the transmission control unit 111 to stop the data frame transmission using the second BSSID. As a result, when the data communication using the first BSSID is performed, the data frame transmission using the second BSSID is stopped, so that the data communication can be performed without any influence.

By intentionally using (operating) a plurality of second BSSIDs, the wireless communication device 11 makes it appear to each of the other wireless communication devices 12 that a plurality of other wireless communication devices 12 exist. Moreover, the data frame transmission is always performed using the second BSSID. As mentioned above, the number of second BSSIDs is at least two or more.

The wireless communication device 11 according to the embodiment intentionally uses a plurality of second BSSIDs to make it appear that a plurality of other wireless communication devices 12 exist, and uses the second BSSID to perform data. Always send frames. As a result, to the other wireless communication device 12, the predetermined channel including the second sub-channel using the second BSSID has a high communication load, and it can be made to appear that the communication is congested. As a result, the other wireless communication device 12 excludes the predetermined channel from the channel selection candidates.

As a result, according to the embodiment, a wireless communication device, a system, or a method capable of suppressing the use of the same channel as the predetermined channel and preventing congestion of the predetermined channel when communicating with the terminal device. , And programs can be provided. Then, since it is possible to suppress the increase in the number of wireless communication devices that use the same channel as the predetermined channel, it is possible to suppress deterioration of communication due to interference and secure a good wireless communication environment.

The first BSSID may be referred to as a main BSSID, and the second BSSID may be referred to as a sub BSSID. Channels may also be referred to as bands, frequencies, radio bands, radio frequencies, frequency bands, or radio frequency bands. Further, the wireless communication device may be referred to as an access point, and the terminal device may be referred to as a slave unit or a slave unit terminal. In addition, data communication may be referred to as slave unit communication.

In this example, data communication with the terminal device 13 using the first BSSID and data frame transmission using the second BSSID have been described as an example.

FIG. 2 is a block diagram illustrating the system according to the first embodiment.

As shown in FIG. 2, the system 10 according to the first embodiment includes a terminal device 13, a wireless communication device 11, and another wireless communication device 12. Since the wireless communication device 11 has already been described with reference to FIG. 1, the description thereof will be omitted here.

The other wireless communication device 12 includes a receiving unit 121 and a selection unit 122. The receiving unit 121 receives the first BSSID and the second BSSID from the wireless communication device 11.

The selection unit 122 identifies the first subchannel corresponding to the first BSSID and the second subchannel corresponding to the second BSSID, respectively. The selection unit 122 selects a channel other than the predetermined channel including the first subchannel and the second subchannel as the channel to be used by the other wireless communication device 12. That is, the selection unit 122 selects a channel other than the same channel as the predetermined channel as the channel to be used.

The operation of the wireless communication device according to the first embodiment will be described.
FIG. 3 is a diagram illustrating the configuration of BSSID.

The wireless communication device 11 according to the first embodiment intentionally operates a plurality (many) second BSSIDs. For example, as shown in FIG. 3, the wireless communication device 11 uses a plurality of second BSSIDs from the second BSSID-1 to the second BSSID-10.

In the example shown in FIG. 3, the plurality of second BSSIDs are from the second BSSID-1 to the second BSSID-10. The number of second BSSIDs is 10.

Specifically, the BSSID of the first BSSID is "AA: AA: AA: AA: AA: 01". The BSSID of the second BSSID-1 is "AA: AA: AA: AA: AA: 02". The BSSID of the second BSSID-10 is "AA: AA: AA: AA: AA: 0B".

The wireless communication device 11 intentionally uses a plurality of second BSSIDs (second BSSID-1 to second BSSID-10) to make it appear that a plurality of other wireless communication devices 12 exist. Further, since the wireless communication device 11 constantly transmits data frames using the second BSSID, the predetermined channel including the second subchannel using the second BSSID has a high communication load and the communication is congested. Make it look like. As a result, the other wireless communication device 12 causes the predetermined channel to be excluded from the channel selection candidates.

In this example, the number of second BSSIDs is 10, but the number is not limited to this. The number of the second BSSID may be a number other than 10. Further, as the number of the second BSSID increases, the predetermined channel including the second subchannel using the second BSSID has a high communication load and makes it appear that the communication is congested. Therefore, other wireless communication devices. 12 has a greater effect of excluding a predetermined channel from the channel selection candidates.

By increasing the number of the second BSSID, when the other wireless communication device 12 performs the auto channel select function, the number of wireless communication devices using a predetermined channel including the second subchannel corresponding to the second BSSID is large. appear. That is, a large number of wireless communication devices can be seen in the channel in which the wireless communication device exists. As a result, the other wireless communication device 12 excludes the predetermined channel from the channel selection candidates and selects another channel (channel other than the predetermined channel).

Further, since the second BSSID always operates in a state where the data frame is transmitted, the predetermined channel including the second subchannel using the second BSSID has a high communication load, and it seems that the communication is congested. Again, the other wireless communication device 12 excludes the predetermined channel from the channel selection candidates and selects another channel.

The type of data frame and the amount of communication may be set to any value such as UDP (User Datagram Protocol) unicast frame 50 Mbps (Mega BPS). The greater the amount of communication, the greater the effect.

FIG. 4 is a flowchart illustrating the operation of the wireless communication device according to the first embodiment.
FIG. 4 is a flowchart illustrating a data frame transmission start operation using the second BSSID according to the first embodiment.

As shown in FIG. 4, the wireless communication device 11 performs beacon transmission by the first BSSID after determining the channel (step S101). Further, the wireless communication device 11 transmits a beacon by the second BSSID (step S102). That is, the wireless communication device 11 starts the multi-SSID operation by the beacon transmission by the first BSSID and the beacon transmission by the second BSSID.

In this example, since the number of the second BSSID is 10 (see FIG. 3), a total of 11 wireless communication devices exist in the predetermined channel together with the first BSSID. When the auto channel select function of the other wireless communication device 12 selects a channel based on the number of wireless communication devices, there is a high possibility that the same channel as the predetermined channel is excluded. As described above, it is clear that the effect is increased when the number of the second BSSID is further increased.

The communication monitoring unit 113 monitors the communication state of the first BSSID and confirms the presence or absence of the belonging terminal device 13, that is, the belonging terminal device (step S103). The attribution terminal device may also be referred to as an attribution slave unit.

When the terminal device 13 to which the communication monitoring unit 113 belongs exists (step S103: Yes), the communication monitoring unit 113 confirms whether or not the terminal device 13 is performing data communication (step S104). Data communication with the terminal device 13 may be referred to as slave unit communication.

When the terminal device 13 is performing data communication (step S104: Yes), the communication monitoring unit 113 determines that the communication of the first BSSID is adversely affected if the communication is performed by the second BSSID. Therefore, the communication monitoring unit 113 only continues the beacon transmission of the second BSSID, and stops the data frame transmission of the second BSSID (step S106).

When the communication monitoring unit 113 has the terminal device 13 to which it belongs (step S103: Yes) but does not perform data communication (step S104: Nо), or when the terminal device 13 to which it belongs does not exist. (Step S103: Nо), the transmission control unit 111 is instructed to start data frame transmission from the second BSSID, whereby data frame transmission is started (step S105).

In addition, the existence of the terminal device 13 to which it belongs means that it is connected to the terminal device 13 in other words. Further, the fact that the terminal device 13 to which it belongs does not exist means that it is not connected to the terminal device 13 in other words.

When the auto channel select function of the other wireless communication device 12 selects a channel based on the communication load of each channel, the start of data frame transmission in step S105 causes the predetermined channel including the second subchannel to be selected. The same channel is more likely to be excluded. As described above, as the communication amount (communication load amount) is increased, the load detected by the other wireless communication device 12 increases, so that the other wireless communication device 12 excludes the predetermined channel from the channel selection candidates. It is clear that the effect of doing this is greater.

FIG. 5 is a flowchart illustrating the operation of the wireless communication device according to the first embodiment.
FIG. 5 is a flowchart illustrating a stop operation of data frame transmission using the second BSSID according to the first embodiment.

As shown in FIG. 5, in the state where the data frame transmission is started from the second BSSID (step S105), the communication monitoring unit 113 monitors the communication state of the first BSSID, and the belonging terminal device 13 performs data communication. It is confirmed whether or not the data is provided (step S201).

When the terminal device 13 is not performing data communication (step S201: Nо), the communication monitoring unit 113 continues the data frame transmission of the second BSSID as it is (step S202). As a result, it appears to the other wireless communication device 12 that the predetermined channel including the second subchannel is congested and the communication load is high.

When the belonging terminal device 13 starts data communication (step S201: Yes), the communication monitoring unit 113 orders the transmission control unit 111 to stop the data frame transmission of the second BSSID (step S203).

When the data communication of the first BSSID is being performed, by stopping the data frame transmission of the second BSSID, it is possible to reduce the adverse effect (the effect of communication obstruction) on the data communication performed by the wireless communication device 11.

Further, by monitoring the communication status of the terminal device 13 to which the communication monitoring unit 113 belongs, it is possible to dynamically control the data frame transmission of the second BSSID.

The wireless communication device 11 according to the first embodiment intentionally increases the second BSSID, includes a second subchannel by intentionally increasing the second BSSID, the presence of a large number of other wireless communication devices 12, and performing data frame transmission. The other wireless communication device 12 notifies that the predetermined channel is congested and the communication load is high.

As a result, when another wireless communication device 12 selects a channel using the auto channel select function, it is possible to prevent the other wireless communication device 12 from selecting the same channel as a predetermined channel having a large number of wireless communication devices and a high communication load. However, it is possible to guide to a channel different from the predetermined channel and continue to secure a good communication environment without increasing other communication.

As a result, it is possible to provide a wireless communication device, a system, a method, and a program capable of suppressing the use of the same channel as the predetermined channel and preventing congestion of the predetermined channel when communicating with the terminal device. it can.

Here, the features of the first embodiment will be described.
The first feature of the first embodiment is that the operation of the auto channel select function provided in the wireless communication device is used, a large number of BSSIDs are intentionally used by the multi-SSID function, and data frames are transmitted. By excluding the predetermined channel used by the already installed wireless communication device from the channel selection candidates by the auto channel select function of the newly installed wireless communication device, the wireless communication device using the same channel as the predetermined channel can be selected. It is to suppress the increase and secure a good communication environment.

The second feature of the first embodiment is that the general multi-SSID function is used to separately accommodate terminal devices having different security strengths, but in the wireless communication device according to the first embodiment, , This multi-SSID function is used to suppress the use of the same channel as a predetermined channel.

[Embodiment 2]
FIG. 6 is a flowchart illustrating the operation of the wireless communication device according to the second embodiment.

The wireless communication device 21 according to the second embodiment has a communication load threshold value related to the communication load amount of the other wireless communication device 12 as compared with the wireless communication device 11 according to the first embodiment, and this is used as an operation determination condition. The difference is that the data frame transmission by the second BSSID is dynamically controlled by the addition.

As shown in FIG. 6, the communication monitoring unit 213 monitors the communication status of the terminal device 13 of the first BSSID, and when the terminal device 13 is not performing data communication, the data frame from the second BSSID is sent to the transmission control unit 211. Instruct the start of transmission (step S105).

The communication monitoring unit 213 acquires the communication load amount from the other wireless communication device 12 when the data frame is transmitted from the second BSSID (step S105) (step S301).

The communication monitoring unit 213 compares the communication load amount acquired from the other wireless communication device 12 with the preset communication load threshold value (step S302).

When the communication load exceeds the communication load threshold value (step S302: Yes), the communication monitoring unit 213 has already sufficiently increased the communication load of the same channel as the predetermined channel by data communication by the other wireless communication device 12. Therefore, it is determined that the data frame transmission in the second BSSID is unnecessary.

As a result, when the communication load amount exceeds the communication load threshold value (step S302: Yes), the communication monitoring unit 213 issues an instruction to the transmission control unit 211 to stop the data frame transmission of the second BSSID (step S304).

Further, when the communication load amount is equal to or less than the communication load threshold value (step S302: Nо), the communication monitoring unit 213 determines whether or not the belonging terminal device 13 is performing data communication (step S303), and the data frame of the second BSSID. Dynamically control transmission.

Specifically, when the communication load amount is equal to or less than the communication load threshold value (step S302: Nо) and data communication is being performed (step S303: Yes), the communication monitoring unit 213 has a data frame of the second BSSID. An instruction to stop transmission is instructed to the transmission control unit 211 (step S304).

In the wireless communication device 21 according to the second embodiment, when data communication has already been performed by another wireless communication device 12 on the same channel as the predetermined channel and the communication load amount exceeds the communication load threshold value, the second BSSID is used. It is judged that it is not necessary to increase the communication load by transmitting the data frame. Then, since the wireless communication device 21 stops the data frame transmission of the second BSSID, it is not necessary to perform unnecessary data frame transmission.

In the above-described 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 embodiments, the program can be stored and supplied to a computer using various types of non-transitory computer readable media. Non-transitory computer-readable media include various types of tangible storage media. Examples of non-temporary computer-readable media include magnetic storage media (specifically flexible disks, magnetic tapes, hard disk drives), magneto-optical storage 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 media. 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.

Although the invention of the present application has been described above with reference to the embodiments, the invention of the present application is not limited to the above. Various changes that can be understood by those skilled in the art can be made within the scope of the invention in the configuration and details of the invention of the present application.

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

10 ... System 11, 21 ... Wireless communication device 111, 211 ... Transmission control unit 112 ... Transmission unit 113, 213 ... Communication monitoring unit 12 ... Other wireless communication device 121 ... Reception unit 122 ... Selection unit 13 ... Terminal device

Claims (8)

Transmission control that controls the transmission of the first BSSID (Basic Service Set Identifier) used for data communication with the terminal device and the second BSSID used for data frame transmission to other wireless communication devices. Department and
Transmission that performs the data communication using the first subchannel in the predetermined channel corresponding to the first BSSID, and transmits the data frame using the second subchannel in the predetermined channel corresponding to the second BSSID. Department and
When the own device and the terminal device are not connected using the first subchannel, or when the terminal device is connected but the data communication is not performed, the second subchannel is used. A communication monitoring unit that instructs the transmission control unit to instruct the transmission control unit to start transmitting the data frame.
A wireless communication device equipped with. When the data communication is started in the terminal device by using the first sub-channel, the communication monitoring unit gives a command to the transmission control unit to stop the data frame transmission using the second sub-channel. Instruct,
The wireless communication device according to claim 1. The communication monitoring unit receives the data frame transmission when the data frame is transmitted.
When the communication load amount acquired from the other wireless communication device exceeds the communication load threshold value, an instruction to stop the data frame transmission is instructed to the transmission control unit.
When the communication load amount is equal to or less than the communication load threshold value and the data communication is being performed, an instruction to stop the data frame transmission is instructed to the transmission control unit.
The wireless communication device according to claim 1 or 2. The number of the second BSSID is at least two or more.
The wireless communication device according to any one of claims 1 to 3. It is equipped with a terminal device, a wireless communication device, and another wireless communication device.
The wireless communication device is
Control is performed to transmit the first BSSID (Basic Service Set Identifier) used for performing data communication with the terminal device and the second BSSID used for performing data frame transmission to the other wireless communication device. Transmission control unit and
Transmission that performs the data communication using the first subchannel in the predetermined channel corresponding to the first BSSID, and transmits the data frame using the second subchannel in the predetermined channel corresponding to the second BSSID. Department and
When the wireless communication device and the terminal device are not connected using the first subchannel, or when the terminal device is connected but the data communication is not performed, the second subchannel is used. It has a communication monitoring unit that instructs the transmission control unit to instruct the transmission control unit to start the data frame transmission by using the communication monitoring unit.
The other wireless communication device is
A receiving unit that receives the first BSSID and the second BSSID from the wireless communication device, and
The first subchannel corresponding to the first BSSID is identified, the second subchannel corresponding to the second BSSID is identified, and the channel other than the predetermined channel including the first subchannel and the second subchannel is referred to as the channel other than the predetermined channel. It has a selection unit that is selected as the channel to be used by other wireless communication devices.
system. When the data communication is started in the terminal device by using the first sub-channel, the communication monitoring unit gives a command to the transmission control unit to stop the data frame transmission using the second sub-channel. Instruct,
The system according to claim 5. Transmission of the first BSSID (Basic Service Set Identifier) used for data communication with the terminal device and the second BSSID used for data frame transmission to other wireless communication devices, and
The data communication is performed using the first subchannel in the predetermined channel corresponding to the first BSSID, and the data frame transmission is performed using the second subchannel in the predetermined channel corresponding to the second BSSID. When,
When the wireless communication device and the terminal device are not connected using the first subchannel, or when the terminal device is connected but the data communication is not performed, the second subchannel is used. To instruct the command to start the data frame transmission, and
How to prepare. Transmission of the first BSSID (Basic Service Set Identifier) used for data communication with the terminal device and the second BSSID used for data frame transmission to other wireless communication devices, and
The data communication is performed using the first subchannel in the predetermined channel corresponding to the first BSSID, and the data frame transmission is performed using the second subchannel in the predetermined channel corresponding to the second BSSID. When,
When the wireless communication device and the terminal device are not connected using the first subchannel, or when the terminal device is connected but the data communication is not performed, the second subchannel is used. To instruct the command to start the data frame transmission, and
A program that causes a computer to run.

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