JP7092377B2 - Wireless LAN system, wireless LAN communication device, wireless LAN terminal and wireless communication control method - Google Patents

Description

The present disclosure relates to a wireless LAN system, a wireless LAN communication device, a wireless LAN terminal, and a wireless communication control method.

There is known a wireless communication system in which a wireless slave unit searches for a wireless master unit while suppressing power consumption (for example, Patent Document 1). According to Patent Document 1, if the control signal of the wireless master unit cannot be captured within a predetermined time limit after the wireless slave unit activates the wireless unit of its own device, the wireless unit of the wireless slave unit is stopped for a certain period of time. It is disclosed that the radio unit is later restarted for intermittent reception.

Japanese Unexamined Patent Publication No. 2013-236393

When the technique disclosed in Patent Document 1 is used, it is assumed that the wireless master unit does not transmit a control signal at the timing when the wireless slave unit restarts the wireless unit of its own device. In this case, the wireless slave unit performs a process of searching for the control signal of the wireless master unit even though the wireless master unit does not transmit the control signal. Therefore, if the technique disclosed in Patent Document 1 is used, the wireless slave unit may perform unnecessary search processing on the attributeable wireless master unit, and the wireless master unit that can be efficiently attributed. May not be searchable.

An object of the present disclosure is to solve the above-mentioned problems, and a wireless LAN system, a wireless LAN communication device, and a wireless LAN terminal capable of searching for a wireless LAN communication device to which the wireless LAN terminal can be efficiently assigned. And to provide a wireless communication control method.

The wireless LAN system according to one aspect of the present disclosure is
It is equipped with a first wireless LAN communication device and a wireless LAN terminal.
The first wireless LAN communication device is
When an event in which the first wireless communication unit included in the own device is stopped is detected and an event in which the first wireless communication unit is stopped is detected, the restart time indicating the time when the first wireless communication unit is stopped is related. A request for cancellation of attribution is transmitted to the wireless LAN terminal, including restart time information, and the request for cancellation of attribution is transmitted.
The wireless LAN terminal is
It is a wireless LAN system that receives the attribution release request and executes a search process of the first wireless LAN communication device based on the restart time information included in the attribution cancellation request.

The wireless LAN communication device according to one aspect of the present disclosure is
A wireless communication unit that performs wireless communication with a wireless LAN terminal,
A control unit that controls the wireless communication unit is provided.
The control unit
Detecting the event that the wireless communication unit is stopped,
When the event is detected, the wireless communication unit includes the restart time information indicating the time when the wireless communication unit is stopped, and transmits a cancellation request for the wireless LAN terminal to the wireless LAN terminal. It is a LAN communication device.

The wireless LAN terminal according to one aspect of the present disclosure is
A wireless communication unit that performs wireless communication with a wireless LAN communication device,
A control unit that controls the wireless communication unit is provided.
The control unit
Receives an attribution cancellation request requesting attribution cancellation from a wireless LAN communication device, and receives an attribution cancellation request.
It is a wireless LAN terminal that executes a search process of the wireless LAN communication device based on the restart time information regarding the restart time indicating the time when the wireless communication unit of the wireless LAN communication device included in the attribution release request is stopped. ..

The wireless communication control method according to one aspect of the present disclosure is
Detecting an event in which the wireless communication unit of the own device is stopped,
When the event is detected, the wireless LAN terminal is transmitted to the wireless LAN terminal to request the wireless LAN terminal to release the attribution, including the restart time information indicating the restart time indicating the time when the wireless communication unit is stopped. It is a wireless communication control method including.

The wireless communication control method according to another aspect of the present disclosure is described.
Receiving an attribution cancellation request from a wireless LAN communication device and
The search process of the wireless LAN communication device is executed based on the restart time information regarding the restart time indicating the time when the wireless communication unit of the wireless LAN communication device is stopped, which is included in the attribution release request. It is a wireless communication control method.

According to the present disclosure, it is possible to provide a wireless LAN system, a wireless LAN communication device, a wireless LAN terminal, and a wireless communication control method capable of efficiently searching for a wireless LAN communication device to which the wireless LAN terminal can be assigned.

It is a figure which shows the configuration example of the wireless LAN system which concerns on Embodiment 1. FIG. It is a figure which shows the configuration example of the wireless LAN system which concerns on Embodiment 2. FIG. It is a figure which shows the configuration example of the wireless LAN communication apparatus which concerns on Embodiment 2. FIG. It is a figure which shows the configuration example of the wireless LAN terminal which concerns on Embodiment 2. FIG. It is a flowchart which shows the operation example of the wireless LAN communication apparatus which concerns on Embodiment 2. It is a flowchart which shows the operation example of the wireless LAN terminal which concerns on Embodiment 2. It is a figure which shows the configuration example of the wireless LAN system which concerns on Embodiment 3. FIG. It is a figure which shows the configuration example of the wireless LAN terminal which concerns on Embodiment 3. FIG. It is a flowchart which shows the operation example of the wireless LAN terminal which concerns on Embodiment 3. FIG. It is a block diagram which illustrates the hardware composition of the computer (information processing apparatus) which can realize the wireless LAN communication apparatus and the like which concerns on each embodiment of this disclosure.

Hereinafter, embodiments of the present disclosure will be described with reference to the drawings. The following descriptions and drawings have been omitted or simplified as appropriate for the sake of clarification of the explanation. Further, in each of the following drawings, the same elements are designated by the same reference numerals, and duplicate explanations are omitted as necessary.

(Embodiment 1)
The wireless LAN (Local Area Network) system 100 according to the first embodiment will be described with reference to FIG. FIG. 1 is a diagram showing a configuration example of a wireless LAN system according to the first embodiment. The wireless LAN system 100 includes a wireless LAN communication device 10 and a wireless LAN terminal 20.

The wireless LAN communication device 10 may be, for example, an access point device, a wireless base station device, a wireless communication device including a wireless router, a wireless relay device, or the like. The wireless LAN communication device 10 supports any wireless LAN standard. The wireless LAN communication device 10 may support, for example, IEEE (Institute of Electrical and Electronics Engineers) 802.11a, IEEE802.11g, IEEE802.11n, IEEE802.11ac, and IEEE802.11ax. The wireless LAN communication device 10 performs attribution processing (connection processing) with the wireless LAN terminal 20, the wireless LAN terminal 20 is assigned, and wireless communication is performed with the wireless LAN terminal 20. The wireless LAN communication device 10 may be referred to as a wireless master unit.

The wireless LAN terminal 20 may be, for example, a mobile phone terminal, a smartphone terminal, a tablet terminal, a personal computer device, a wireless router, or the like. The wireless LAN terminal 20 corresponds to the same wireless LAN standard as the wireless LAN communication device 10. The wireless LAN terminal 20 may be referred to as a wireless slave unit, a wireless slave station, or a client. The wireless LAN communication device 10 may be referred to as a wireless master unit. The wireless LAN terminal 20 connects and communicates with the wireless LAN communication device 10 using the wireless LAN communication device 10 as a wireless master unit and a wireless slave unit as a wireless slave unit.

The wireless LAN communication device 10 includes a wireless communication unit 11 and a control unit 12.
The wireless communication unit 11 is a communication unit that performs wireless communication with the wireless LAN terminal 20.
The control unit 12 is a control unit that controls the wireless communication unit 11. The control unit 12 detects an event in which the wireless communication unit 11 is stopped. When the control unit 12 detects an event in which the wireless communication unit 11 is stopped, the control unit 12 includes the restart time information indicating the time when the wireless communication unit 11 is stopped, and requests the wireless LAN terminal 20 to release the attribution. The cancellation request is transmitted via the wireless communication unit 11.

The wireless LAN terminal 20 includes a wireless communication unit 21 and a control unit 22.
The wireless communication unit 21 is a communication unit that performs wireless communication with the wireless LAN communication device 10.
The control unit 22 receives the attribution release request via the wireless communication unit 21. The control unit 22 executes the search process of the wireless LAN communication device 10 based on the restart time information included in the attribution release request.

As described above, when the wireless LAN communication device 10 detects an event in which the wireless communication unit 11 is stopped, the wireless LAN communication device 10 transmits an attribution release request including restart time information to the wireless LAN terminal 20. The wireless LAN terminal 20 executes a search process of the wireless LAN communication device 10 based on the restart time information included in the attribution cancellation request. Since the wireless LAN terminal 20 can perform the search process of the wireless LAN communication device 10 based on the restart time when the wireless communication unit 11 of the wireless LAN communication device 10 is stopped, the wireless LAN communication device 10 can be efficiently searched. .. That is, the wireless LAN terminal 20 can be controlled so that the search process of the wireless LAN communication device 10 is not performed while the wireless communication unit 11 of the wireless LAN communication device 10 is stopped. Therefore, according to the wireless LAN system 100 according to the first embodiment, the wireless LAN communication device 10 to which the wireless LAN terminal 20 can be efficiently assigned can be searched.

(Embodiment 2)
Subsequently, the second embodiment will be described. The second embodiment is an embodiment that embodies the first embodiment.

<Wireless LAN system configuration example>
The wireless LAN system 200 according to the second embodiment will be described with reference to FIG. FIG. 2 is a diagram showing a configuration example of the wireless LAN system according to the second embodiment. The wireless LAN system 200 includes a wireless LAN communication device 30, a wireless LAN terminal 40, and a PC (personal computer) 45.

The wireless LAN communication device 30 corresponds to the wireless LAN communication device 10 according to the first embodiment. The wireless LAN communication device 30 may be, for example, an access point device, a wireless base station device, a wireless communication device including a wireless router, a wireless relay device, or the like. The wireless LAN communication device 30 corresponds to, for example, the IEEE802.11a standard. The wireless LAN communication device 30 may be compatible with IEEE802.11g, IEEE802.11n, IEEE802.11ac, and IEEE802.11ax. In other words, the wireless LAN communication device 30 may correspond to any wireless LAN standard.

The wireless LAN communication device 30 performs attribution processing (connection processing) with the wireless LAN terminal 40, and the wireless LAN terminal 40 belongs to its own device. The wireless LAN communication device 30 may be referred to as a wireless master unit having the wireless LAN terminal 40 as a wireless slave unit. The wireless LAN communication device 30 is restarted by a user operation. Further, when the setting of the own device is changed, the wireless LAN communication device 30 stops the wireless communication unit 31 described later for a certain period of time. Further, the wireless LAN communication device 30 stops the wireless communication unit 31 for a certain period of time by the DFS (Dynamic Frequency Selection) function of the IEEE802.11a standard.

The wireless LAN terminal 40 corresponds to the wireless LAN terminal 20 according to the first embodiment. The wireless LAN terminal 40 may be, for example, a mobile phone terminal, a smartphone terminal, a tablet terminal, a personal computer device, a wireless router, or the like. The wireless LAN terminal 40 corresponds to the same wireless LAN standard as the wireless LAN communication device 30. The wireless LAN terminal 40 holds attribution information for belonging to the wireless LAN communication device 30. The attribution information is, for example, an SSID, an encryption key, or the like, and holds the same information as general attribution information. The wireless LAN terminal 40 performs attribution processing with the wireless LAN communication device 30 and belongs to the wireless LAN communication device 30.

The PC 45 is connected to the wireless LAN communication device 30 by wire, and is configured to be able to communicate with the wireless LAN communication device 30. The PC 45 is used to make various settings for the wireless LAN communication device 30. When the administrator and the operator of the wireless LAN communication device 30 make various settings of the wireless LAN communication device 30 using the PC 45, the contents set by the wireless LAN communication device 30 are reflected in the own device. The PC 45 may be wirelessly connected to the wireless LAN communication device 30.

<Configuration example of wireless LAN communication device>
Next, a configuration example of the wireless LAN communication device 30 will be described with reference to FIG. FIG. 3 is a diagram showing a configuration example of the wireless LAN communication device according to the second embodiment. The wireless LAN communication device 30 includes a wireless communication unit 31, a wired communication unit 32, a control unit 33, and a storage unit 34.

The wireless communication unit 31 corresponds to the wireless communication unit 11 in the first embodiment. The wireless communication unit 31 transmits and receives high frequency signals via the ANT (Antenna). Although the ANT is shown in FIG. 3 so as to be provided outside the wireless LAN communication device 30, the ANT may be provided inside the wireless LAN communication device 30.

The wireless communication unit 31 transmits / receives various signals (various messages) conforming to the wireless LAN standard supported by the own device. The wireless communication unit 31 transmits, for example, a beacon signal and a deauthentication frame that requests the wireless LAN terminal 40 to release the attribution to the wireless LAN terminal 40.

The wired communication unit 32 transmits / receives signals via a wired line. The wired line may be, for example, a wired LAN. The wired communication unit 32 receives the signal transmitted from the PC 45 and transmits the signal to the PC 45. The wired communication unit 32 receives the setting information from the PC 45 and transmits it to the control unit 33.

The control unit 33 corresponds to the control unit 12 in the first embodiment. The control unit 33 controls each function of the wireless LAN communication device 30 including the wireless communication unit 31. The control unit 33 detects an event in which the wireless communication unit 31 is stopped. Specifically, the control unit 33 either restarts the own device, stops the wireless communication unit 31 due to a change in the setting of the own device, or stops the wireless communication unit 31 due to the DFS function. If the above condition is satisfied, the wireless communication unit 31 is detected as an event to be stopped. When the wireless communication unit 31 is stopped, the attribution of the wireless LAN terminal 40 belonging to the wireless LAN communication device 30 is released. Therefore, in the following description, the event that the wireless communication unit 31 is stopped is assigned. It may be described as a release event.

When the control unit 33 detects an event (attribution release event) in which the wireless communication unit 31 is stopped, the control unit 33 acquires the next beacon restart time information from the next beacon restart time information storage area 341 of the storage unit 34. The next beacon restart time information is restart time information regarding the restart time indicating the time when the wireless communication unit 31 is stopped. Specifically, the next beacon restart time information is time information from the time when the wireless communication unit 31 is stopped to the transmission time of the beacon signal transmitted immediately after the wireless communication unit 31 is restarted.

When the control unit 33 acquires the next beacon restart time information, the control unit 33 adds the next beacon restart time information to the deauthentication frame. The control unit 33 transmits the deauthentication frame to which the next beacon restart time information is added to the wireless LAN terminal 40 via the wireless communication unit 31.

The control unit 33 controls the stop and start of the wireless communication unit 31. When the control unit 33 detects an event (attribution release event) in which the wireless communication unit 31 is stopped, the control unit 33 stops the wireless communication unit 31 after transmitting the deauthentication frame. The control unit 33 starts the wireless communication unit 31 after the restart time set in the next beacon restart time information has elapsed after the wireless communication unit 31 is stopped.

The control unit 33 receives the setting information from the wired communication unit 32. The control unit 33 sets and reflects the content of the setting information in the own device based on the setting information from the PC 45.

The storage unit 34 has a next beacon restart time information storage area 341, and stores (stores) the next beacon restart time information in the next beacon restart time information storage area 341. The storage unit 34 stores (stores) various data and programs used by the control unit 33.

<Configuration example of wireless LAN terminal>
Next, a configuration example of the wireless LAN terminal 40 according to the second embodiment will be described with reference to FIG. FIG. 4 is a diagram showing a configuration example of the wireless LAN terminal according to the second embodiment. The wireless LAN terminal 40 includes a wireless communication unit 41, a control unit 42, and a storage unit 43.

The wireless communication unit 41 corresponds to the wireless communication unit 21 in the first embodiment. The wireless communication unit 41 transmits / receives high frequency signals via the ANT. Although the ANT is shown in FIG. 4 so as to be provided outside the wireless LAN terminal 40, the ANT may be provided inside the wireless LAN terminal 40.

The wireless communication unit 41 transmits / receives various signals (various messages) conforming to the wireless LAN standard supported by the own device. The wireless communication unit 41 receives, for example, a beacon signal and a deauthentication frame transmitted from the wireless LAN communication device 30.

The control unit 42 corresponds to the control unit 22 in the first embodiment. The control unit 42 controls each function of the wireless LAN terminal 40 including the wireless communication unit 41. The control unit 42 receives the deauthentication frame via the wireless communication unit 41. The control unit 42 stores the next beacon restart time information added to the deauthentication frame in the attribution destination SSID (Service Set Identifier) beacon restart information storage area 432 of the storage unit 43.

The control unit 42 performs stop control and activation control of the wireless communication unit 41 based on the next beacon restart time information stored in the attribution destination SSID beacon restart information storage area 432. In other words, the control unit 42 performs stop control and start control of the wireless communication unit 41 based on the restart time set in the next beacon restart time information added to the deauthentication frame. The control unit 42 turns off the wireless communication unit 41 and stops until the restart time set in the next beacon restart time information elapses from the reception of the deauthentication frame. When the wireless communication unit 41 is in the stopped state after the restart time has elapsed from the reception of the deauthentication frame, the control unit 42 turns on the wireless communication unit 41 and starts it.

The control unit 42 executes the search process of the wireless LAN communication device 30 based on the next beacon restart time information stored in the attribution destination SSID beacon restart information storage area 432. In other words, the control unit 42 executes the search process of the wireless LAN communication device 30 based on the restart time set in the next beacon restart time information added to the deauthentication frame. Specifically, the control unit 42 executes the search process of the wireless LAN communication device 30 after the restart time set in the next beacon restart time information has elapsed from the reception of the deauthentication frame.

Specifically, when the restart time elapses from the reception of the deauthentication frame and the wireless communication unit 41 is turned on and started, the control unit 42 is stored in the attribution SSID information storage area 431 of the storage unit 43. Acquire the attribution SSID information. The attribution destination SSID information is information in which the SSID, which is the network identifier of the wireless LAN communication device 30 to which the wireless LAN communication device 30 was assigned before the wireless communication unit 41 is stopped, is stored. The control unit 42 searches for the attribution destination SSID set in the attribution destination SSID information from the beacon signal received by the wireless communication unit 41, and executes the search process of the wireless LAN communication device 30. When the control unit 42 detects the SSID of the wireless LAN communication device 30 from the beacon signal received by the wireless communication unit 41, the control unit 42 starts the attribution processing to the wireless LAN communication device 30.

The storage unit 43 has an attribution destination SSID information storage area 431 and an attribution destination SSID beacon restart information storage area 432. The storage unit 43 stores (stores) the attribution destination SSID information in the attribution destination SSID information storage area 431, and stores (stores) the attribution destination SSID beacon restart information in the attribution destination SSID beacon restart information storage area 432. The storage unit 43 stores (stores) various data and programs used by the control unit 42.

<Operation example of wireless LAN communication device>
Next, an operation example of the wireless LAN communication device 30 according to the second embodiment will be described with reference to FIG. FIG. 5 is a flowchart showing an operation example of the wireless LAN communication device according to the second embodiment.

The control unit 33 monitors its own device and periodically or aperiodically determines whether or not an attribution release event has occurred (step S1). When the control unit 33 does not detect that the attribution release event has occurred (NO in step S1), the monitoring of the own device is continued.

When the control unit 33 detects that the attribution release event has occurred (YES in step S1), the control unit 33 acquires the next beacon restart time information from the next beacon restart time information storage area 341 of the storage unit 34 (YES in step S1). Step S2). When the control unit 33 satisfies either the case where the own device is restarted, the case where the wireless communication unit 31 is stopped due to the setting change of the own device, or the case where the wireless communication unit 31 is stopped by the DFS function. Detects that an unattribution event has occurred.

The control unit 33 adds the next beacon restart time information to the de-authentication frame, which is a request to cancel the attribution to the wireless LAN terminal 40, and transfers the de-authentication frame to the wireless LAN terminal 40 via the wireless communication unit 31. Transmit (step S3).

<Operation example of wireless LAN terminal>
Next, an operation example of the wireless LAN terminal 40 according to the second embodiment will be described with reference to FIG. FIG. 6 is a flowchart showing an operation example of the wireless LAN terminal according to the second embodiment.

The control unit 42 monitors its own device and periodically or aperiodically determines whether or not the wireless communication unit 41 has received the deauthentication frame, which is a request for cancellation of attribution (step S11). When the control unit 42 determines whether the wireless communication unit 41 has received the deauthentication frame which is the attribution cancellation request, and the wireless communication unit 41 has not received the attribution cancellation request (step S11). NO), continue to monitor your device.

When the control unit 42 determines that the wireless communication unit 41 has received the deauthentication frame (YES in step S11), the control unit 42 stores the next beacon restart time information in the SSID beacon restart information storage area 432 to which the storage unit 43 belongs. (Step S12). When the wireless communication unit 41 receives the de-authentication frame, the control unit 42 stores the next beacon restart time information added to the de-authentication frame in the SSID beacon restart information storage area 432 to which the storage unit 43 belongs. do.

The control unit 42 turns off the wireless communication unit 41 and stops the wireless communication unit 41 (step S13).

The control unit 42 determines whether or not the restart time has elapsed from the reception of the deauthentication frame (step S14). When the control unit 42 receives the deauthentication frame, the control unit 42 acquires the next beacon restart time information from the attribution destination SSID beacon restart information storage area 432. The control unit 42 issues, for example, a timer for confirming whether or not the restart time has elapsed. Then, the control unit 42 has elapsed the restart time from the reception of the de-authentication frame based on whether or not the issued timer exceeds the restart time set in the next beacon restart time information and the timer has expired. Judge whether or not.

If the restart time has not elapsed since the reception of the de-authentication frame (NO in step S14), the control unit 42 continuously determines whether or not the restart time has elapsed since the reception of the de-authentication frame. (Step S15).

When the restart time has elapsed from the reception of the deauthentication frame (YES in step S14), the control unit 42 is activated by turning on the wireless communication unit 41 (step S15). When the wireless communication unit 41 is turned on, the control unit 42 acquires the attribution destination SSID information from the attribution destination SSID information storage area 431.

The control unit 42 searches for the attribution destination SSID set in the attribution destination SSID information from the beacon signal received by the wireless communication unit 41, and starts the attribution process to the wireless LAN communication device 30 (step S16). The control unit 42 executes a search process for the wireless LAN communication device 30 to detect the SSID of the wireless LAN communication device 30 from the beacon signal received by the wireless communication unit 41, and when the SSID of the wireless LAN communication device 30 is detected, the control unit 42 wirelessly detects the SSID of the wireless LAN communication device 30. The attribution process to the LAN communication device 30 is started.

As described above, when the wireless LAN communication device 30 stops the wireless communication unit 31, the wireless LAN communication device 30 sets the restart time, which is the time information for wireless stop, in the next beacon restart time information, and notifies the wireless LAN terminal 40. By notifying the wireless LAN terminal 40 of the next beacon restart time information, the wireless LAN communication device 30 can efficiently perform the search process of the wireless LAN communication device 30.

Specifically, the wireless LAN terminal 40 eliminates the waste of performing a search process for the wireless LAN communication device 30 while the wireless LAN communication device 30 is stopped, and the wireless LAN communication device 30 after the wireless restart of the wireless LAN communication device 30. Search process can be started. That is, according to the wireless LAN system 200 according to the second embodiment, the wireless LAN communication device 30 to which the wireless LAN terminal 40 can be efficiently assigned can be searched.

Further, since the wireless LAN terminal 40 is controlled to turn off the wireless communication unit 41 from the reception of the deauthentication frame to the elapse of the restart time, the power consumption of the wireless LAN terminal 40 can be suppressed. Therefore, according to the wireless LAN system 200 according to the second embodiment, the power consumption of the wireless LAN terminal 40 can be suppressed.

(Embodiment 3)
Subsequently, the third embodiment will be described. The third embodiment is an improved example of the second embodiment.

<Wireless LAN system configuration example>
The wireless LAN system 300 according to the third embodiment will be described with reference to FIG. 7. FIG. 7 is a diagram showing a configuration example of the wireless LAN system according to the third embodiment. The wireless LAN system 300 includes wireless LAN communication devices 30_1 and 30_2, and a wireless LAN terminal 50.

Compared with the wireless LAN system 200 according to the second embodiment, the wireless LAN system 300 includes two wireless LAN communication devices 30 according to the second embodiment, and the wireless LAN terminal 40 according to the second embodiment is a wireless LAN terminal. It is a configuration that replaces 50. The wireless LAN system 300 is configured to include two wireless LAN communication devices 30_1 and 30_2, but may be configured to include three or more wireless LAN communication devices 30.

The wireless LAN communication devices 30_1 and 30_2 correspond to the wireless LAN communication device 30 in the second embodiment. The wireless LAN terminal 50 belongs to the wireless LAN communication device 30_1. When the wireless LAN communication device 30_1 detects an event in which the wireless communication unit 31 of its own device is stopped, the wireless LAN communication device 30_1 transmits a deauthentication frame including the next beacon restart time information to the wireless LAN terminal 50. The wireless LAN communication device 30_2 is a wireless LAN communication device to which the wireless LAN terminal 50 can belong. The wireless LAN communication devices 30_1 and 30_2 have the same configuration as the wireless LAN communication device 30 in the second embodiment. Therefore, the description of the configuration examples of the wireless LAN communication devices 30_1 and 30_2 will be omitted.

The wireless LAN terminal 50 corresponds to the wireless LAN terminal 40 according to the second embodiment. The basic configuration of the wireless LAN terminal 50 is the same as that of the wireless LAN terminal 40 in the second embodiment, and corresponds to the same wireless LAN standard as the wireless LAN communication devices 30_1 and 30_2. The wireless LAN terminal 50 holds attribution information for belonging to each of the wireless LAN communication devices 30_1 and 30_2. The attribution information is, for example, an SSID, an encryption key, or the like, and holds the same information as general attribution information.

The wireless LAN terminal 50 performs attribution processing to the wireless LAN communication device 30_1 and belongs to the wireless LAN communication device 30_1. When the wireless LAN communication device 30_1 transmits a de-authentication frame including the next beacon restart time information, the wireless LAN terminal 50 receives the de-authentication frame. Further, the wireless LAN terminal 50 does not perform attribution processing with the wireless LAN communication device 30_2, and does not belong to the wireless LAN communication device 30_2.

<Configuration example of wireless LAN terminal>
The wireless LAN terminal 50 according to the third embodiment will be described with reference to FIG. FIG. 8 is a diagram showing a configuration example of the wireless LAN terminal according to the third embodiment. The wireless LAN terminal 50 has a configuration in which the control unit 42 of the wireless LAN terminal 40 according to the second embodiment is replaced with the control unit 52. Since the wireless LAN terminal 50 has basically the same configuration as the wireless LAN terminal 40 in the second embodiment, the description of the same configuration as the wireless LAN terminal 40 in the second embodiment will be omitted as appropriate. ..

The storage unit 43 has an attribution destination SSID information storage area 431 and an attribution destination SSID beacon restart information storage area 432. The storage unit 43 stores (stores) the attribution destination SSID information in the attribution destination SSID information storage area 431. In the present embodiment, the storage unit 43 stores the SSIDs of the assignable wireless LAN communication devices 30_1 and 30_2 as the attribution destination SSID information. The storage unit 43 stores (stores) the attribution destination SSID beacon restart information in the attribution destination SSID beacon restart information storage area 432.

The control unit 52 corresponds to the control unit 42 in the second embodiment. When the wireless LAN communication device 30_1 transmits the de-authentication frame, the control unit 52 receives the de-authentication frame via the wireless communication unit 41. The control unit 52 stores the next beacon restart time information added to the deauthentication frame in the attribution destination SSID beacon restart information storage area 432 of the storage unit 43.

The control unit 52 executes the search process of the wireless LAN communication device 30_1 or 30_2 based on the next beacon restart time information stored in the attribution destination SSID beacon restart information storage area 432. The control unit 52 acquires the attribution SSID information from the attribution SSID information storage area 431. Specifically, the control unit 52 acquires the SSIDs of the wireless LAN communication devices 30_1 and 30_2 from the attribution destination SSID information storage area 431.

The control unit 52 is a wireless LAN communication device different from the wireless LAN communication device 30_1 to which the control unit 52 belongs from the reception of the deauthentication frame to the elapse of a predetermined time among the restart times set in the next beacon restart time information. The search process of 30_2 is executed. The predetermined time may be, for example, half the restart time, or may be a time that can be arbitrarily set.

Specifically, the control unit 52 searches the SSID of the wireless LAN communication device 30_2 from the beacon signal received by the wireless communication unit 41 until a predetermined time elapses from the reception of the deauthentication frame. Then, when the control unit 52 detects the SSID of the wireless LAN communication device 30_2, the control unit 52 performs attribution processing to the wireless LAN communication device 30_2.

On the other hand, when the wireless LAN communication device 30_2 is not detected, the control unit 52 executes the search process of the wireless LAN communication device 30_1 after the restart time has elapsed from the reception of the deauthentication frame.

Specifically, when the control unit 52 does not detect the SSID of the wireless LAN communication device 30_1 from the beacon signal, the SSID of the wireless LAN communication device 30_1 is detected from the beacon signal after the restart time has elapsed from the reception of the deauthentication frame. To search for. Then, when the control unit 52 detects the SSID of the wireless LAN communication device 30_1, the control unit 52 performs attribution processing to the wireless LAN communication device 30_1.

The control unit 52 controls the stop and start of the wireless communication unit 41. As described above, the control unit 52 performs the search process of the wireless LAN communication device 30_2 until a predetermined time elapses from the reception of the deauthentication frame. Therefore, if the control unit 52 does not detect the wireless LAN communication device 30_2 by the time when the predetermined time has elapsed from the reception of the deauthentication frame, the wireless communication unit 41 has elapsed after the above-mentioned predetermined time until the restart time elapses. To OFF and stop. Then, when the restart time elapses from the reception of the deauthentication frame, if the wireless communication unit 41 is in the stopped state, the control unit 52 turns on the wireless communication unit 41 and starts it.

<Operation example of wireless LAN terminal>
An operation example of the wireless LAN terminal 50 according to the third embodiment will be described with reference to FIG. 9. FIG. 9 is a flowchart showing an operation example of the wireless LAN terminal according to the third embodiment.

The control unit 52 monitors its own device and periodically or aperiodically determines whether or not the wireless communication unit 41 has received the deauthentication frame, which is a request for cancellation of attribution (step S21). When the control unit 52 determines whether the wireless communication unit 41 has received the deauthentication frame which is the attribution cancellation request, and the wireless communication unit 41 has not received the attribution cancellation request (step S21). NO), continue to monitor your device.

When the control unit 52 determines that the wireless communication unit 41 has received the deauthentication frame (YES in step S21), the control unit 52 stores the next beacon restart time information in the SSID beacon restart information storage area 432 to which the storage unit 43 belongs. (Step S22). When the wireless communication unit 41 receives the de-authentication frame, the control unit 52 stores the next beacon restart time information added to the de-authentication frame in the SSID beacon restart information storage area 432 to which the storage unit 43 belongs. do.

Next, the control unit 52 searches for the SSID of the wireless LAN communication device 30_2 to which the own device can belong from the beacon signal received by the wireless communication unit 41 (step S23). The control unit 52 acquires the SSIDs of the wireless LAN communication devices 30_1 and 30_2 set as the assignable SSID information from the attribution destination SSID information storage area 431. Then, the control unit 52 receives the SSID of the assignable wireless LAN communication device 30_1, which is different from the wireless LAN communication device 30_1 to which the control unit 52 belonged before receiving the deauthentication frame, from the beacon signal received by the wireless communication unit 41. Search for.

The control unit 52 determines whether or not the SSID of the wireless LAN communication device 30_2, which is an assignable SSID, has been detected (step S24). When the SSID of the wireless LAN communication device 30_2 is detected (YES in step S24), the control unit 52 starts the attribution process to the wireless LAN communication device 30_2 (step S25).

On the other hand, when the SSID of the wireless LAN communication device 30_2 is not detected in step S24 (NO in step S24), the control unit 52 determines whether or not a predetermined time has elapsed from the reception of the deauthentication frame. (Step S26). When the control unit 52 receives the deauthentication frame, the control unit 52 acquires the next beacon restart time information from the attribution destination SSID beacon restart information storage area 432. The control unit 52 issues, for example, a timer for confirming whether or not the restart time has elapsed. Then, the control unit 52 determines whether or not the issued timer has exceeded the predetermined time. The predetermined time may be, for example, half the time of the restart time set in the next beacon restart information. For example, when the restart time is 100 seconds, the predetermined time may be half of that, 50 seconds.

When the predetermined time has not elapsed since the reception of the de-authentication frame (NO in step S26), the control unit 52 again searches for the SSID of the wireless LAN communication device 30_2 from the beacon signal received by the wireless communication unit 41. (Return to step S23).

On the other hand, when a predetermined time has elapsed from the reception of the deauthentication frame (YES in step S26), the control unit 52 turns off the wireless communication unit 41 and stops the wireless communication unit 41 (step S27).

The control unit 52 determines whether or not the restart time has elapsed since the reception of the deauthentication frame (step S28). The control unit 52 has elapsed the restart time from the reception of the deauthentication frame based on whether or not the timer issued in step S26 exceeds the restart time set in the next beacon restart time information and the timer has expired. Determine if it has been done.

If the restart time has not elapsed since the reception of the de-authentication frame (NO in step S28), the control unit 52 continuously determines whether or not the restart time has elapsed since the reception of the de-authentication frame. (Step S28).

When the restart time has elapsed from the reception of the deauthentication frame (YES in step S28), the control unit 52 is activated by turning on the wireless communication unit 41 (step S29).

The control unit 52 is set to the attribution destination SSID information from the beacon signal received by the wireless communication unit 41, searches for the SSID of the wireless LAN communication device 30_1 to which the control unit 52 belonged before stopping the wireless communication unit 41, and performs wireless LAN communication. The attribution process to the device 30_1 is started (step S30).

The control unit 52 executes a search process for the wireless LAN communication device 30_1, which searches for the SSID of the wireless LAN communication device 30_1 that belonged to the wireless LAN communication device 30_1 before the wireless communication unit 41 was stopped from the beacon signal received by the wireless communication unit 41. do. That is, the control unit 52 searches for the SSID of the wireless LAN communication device 30_1 that is the source of the deauthentication frame from the beacon signal received by the wireless communication unit 41. When the control unit 52 detects the SSID of the wireless LAN communication device 30_1, the control unit 52 starts the attribution processing to the wireless LAN communication device 30_1.

As described above, also in the third embodiment, when the wireless communication unit 31 is stopped, the wireless LAN communication device 30_1 sets the restart time, which is the time information for wireless stop, as the next beacon restart time information, and the wireless LAN. Notify the terminal 50. By receiving the next beacon restart time information from the wireless LAN communication device 30_1, the wireless LAN terminal 50 does not perform unnecessary search processing for the wireless LAN communication device 30_1 while the wireless communication unit 31 is stopped. In the present embodiment, when the wireless LAN communication device 30_1 that can be assigned exists in addition to the wireless LAN communication device 30_1, the wireless LAN terminal 50 searches for the wireless LAN communication device 30_2 that can be assigned until a predetermined time elapses. Execute the process. That is, in the present embodiment, the wireless LAN terminal 50 can be assigned until a predetermined time elapses while suppressing unnecessary search processing of the wireless LAN communication device 30_1 while the wireless LAN communication device 30_1 is stopped. The search process of the wireless LAN communication device 30_2 is performed. Therefore, according to the wireless LAN system 300 according to the third embodiment, the wireless LAN communication device 30_1 or 30_2 to which the wireless LAN terminal 50 can be efficiently assigned can be searched.

Further, the wireless LAN terminal 50 uses a predetermined time among the restart times notified from the wireless LAN communication device 30_1 to search for the beacon signal of the wireless LAN communication device 30_1 to which it can be assigned. Therefore, according to the present embodiment, the wireless LAN terminal 50 can accelerate the attribution to the assignable wireless LAN communication device 30_1 other than the unattributable wireless LAN communication device 30_1. Therefore, according to the wireless LAN system 300 according to the third embodiment, the time during which communication cannot be performed can be shortened, so that communication with high user convenience can be provided.

Further, when the wireless LAN communication device 30_2 cannot be detected, the wireless LAN terminal 50 stops the wireless communication unit 41 from the elapse of the predetermined time until the resumption time elapses, so that the power consumption can be suppressed. Therefore, according to the wireless LAN system 300 according to the third embodiment, the power consumption of the wireless LAN terminal 50 can be suppressed.

(Other embodiments)
The wireless LAN communication devices 10, 30, 30_1, 30_2, and the wireless LAN terminals 20, 40, 50 (hereinafter, referred to as wireless LAN communication device 10 and the like) described in the above-described embodiment have the following hardware configurations. May have. FIG. 10 is a block diagram illustrating a hardware configuration of a computer (information processing device) capable of realizing a wireless LAN communication device or the like according to each embodiment of the present disclosure.

Referring to FIG. 10, the wireless LAN communication device 10 and the like include a plurality of antennas 1201-1 to 1201-N, a network interface 1202, a processor 1203 and a memory 1204. The plurality of antennas 1201-1 to 1201-N and the network interface 1202 are used to communicate with the wireless LAN communication device and the wireless LAN terminal. The network interface 1202 may include, for example, a network interface card (NIC) compliant with IEEE 802.11 series, IEEE 802.3 series, or the like.

The processor 1203 reads software (computer program) from the memory 1204 and executes it to perform processing of the wireless LAN communication device 10 and the like described by using the flowchart in the above-described embodiment. The processor 1203 may be, for example, a microprocessor, an MPU (Micro Processing Unit), or a CPU (Central Processing Unit). Processor 1203 may include a plurality of processors.

Memory 1204 is composed of a combination of volatile memory and non-volatile memory. Memory 1204 may include storage located away from processor 1203. In this case, processor 1203 may access memory 1204 via an I / O interface (not shown).

In the example of FIG. 10, memory 1204 is used to store software modules. By reading these software modules from the memory 1204 and executing them, the processor 1203 can perform the processing of the wireless LAN communication device 10 and the like described in the above-described embodiment.

As described with reference to FIG. 10, each of the processors included in the wireless LAN communication device 10 and the like executes one or a plurality of programs including a set of instructions for causing a computer to perform the algorithm described with reference to the drawings. ..

In the above example, the program can be stored and supplied to the computer using various types of non-transitory computer readable medium. Non-temporary computer-readable media include various types of tangible storage media. Examples of non-temporary computer-readable media include magnetic recording media (eg, flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (eg, magneto-optical disks). Further, examples of non-temporary computer-readable media include CD-ROM (Read Only Memory), CD-R, and CD-R / W. Further, examples of non-temporary computer readable media include semiconductor memory. The semiconductor memory includes, for example, a mask ROM, a PROM (Programmable ROM), an EPROM (Erasable PROM), a flash ROM, and a 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.

The present disclosure is not limited to the above embodiment, and can be appropriately modified without departing from the spirit. Further, the present disclosure may be carried out by appropriately combining the respective embodiments.

In addition, some or all of the above embodiments may be described as in the following appendix, but are not limited to the following.
(Appendix 1)
It is equipped with a first wireless LAN communication device and a wireless LAN terminal.
The first wireless LAN communication device is
When an event in which the first wireless communication unit included in the own device is stopped is detected and an event in which the first wireless communication unit is stopped is detected, the restart time indicating the time when the first wireless communication unit is stopped is related. A request for cancellation of attribution is transmitted to the wireless LAN terminal, including restart time information, and the request for cancellation of attribution is transmitted.
The wireless LAN terminal is
A wireless LAN system that receives the attribution release request and executes a search process of the first wireless LAN communication device based on the restart time information included in the attribution cancellation request.
(Appendix 2)
The wireless LAN system according to Appendix 1, wherein the wireless LAN terminal executes a search process for the first wireless LAN communication device after the restart time has elapsed from the reception of the attribution cancellation request.
(Appendix 3)
The wireless LAN system according to Appendix 1 or 2, wherein the wireless LAN terminal stops the second wireless communication unit included in the own device from the reception of the attribution cancellation request until the restart time elapses.
(Appendix 4)
The wireless LAN system includes a second wireless LAN communication device to which the wireless LAN terminal can belong.
The wireless LAN system according to Appendix 1, wherein the wireless LAN terminal executes a search process for the second wireless LAN communication device from the reception of the attribution cancellation request until a predetermined time elapses from the restart time.
(Appendix 5)
If the wireless LAN terminal does not detect the second wireless LAN communication device by the time when the predetermined time has elapsed from the reception of the attribution cancellation request, the restart time has elapsed from the reception of the attribution cancellation request, and then the second wireless LAN terminal. 1 The wireless LAN system according to Appendix 4, which executes a search process for the wireless LAN communication device.
(Appendix 6)
If the wireless LAN terminal does not detect the second wireless LAN communication device by the time when the predetermined time elapses from the reception of the attribution cancellation request, the wireless LAN terminal owns the device until the restart time elapses after the elapse of the predetermined time. The wireless LAN system according to Appendix 4 or 5, which stops the second wireless communication unit provided.
(Appendix 7)
The first wireless LAN communication device is used when the own device is restarted, when the first wireless communication unit is stopped due to a setting change of the own device, and when the DFS (Dynamic Frequency Selection) function is used for the first wireless communication. The wireless LAN system according to any one of Supplementary note 1 to 6, wherein the event is detected when any of the cases where the unit is stopped is satisfied.
(Appendix 8)
The wireless LAN system according to any one of Supplementary Provisions 1 to 7, wherein the attribution release request is a deauthentication frame.
(Appendix 9)
A wireless communication unit that performs wireless communication with a wireless LAN terminal,
A control unit that controls the wireless communication unit is provided.
The control unit
Detecting the event that the wireless communication unit is stopped,
When the event is detected, the wireless communication unit includes the restart time information indicating the time when the wireless communication unit is stopped, and transmits a cancellation request for the wireless LAN terminal to the wireless LAN terminal. LAN communication device.
(Appendix 10)
A wireless communication unit that performs wireless communication with a wireless LAN communication device,
A control unit that controls the wireless communication unit is provided.
The control unit
Receives an attribution cancellation request requesting attribution cancellation from a wireless LAN communication device, and receives an attribution cancellation request.
A wireless LAN terminal that executes a search process of the wireless LAN communication device based on the restart time information regarding the restart time indicating the time when the wireless communication unit of the wireless LAN communication device included in the attribution release request is stopped.
(Appendix 11)
Detecting an event in which the wireless communication unit of the own device is stopped,
When the event is detected, the wireless LAN terminal is transmitted to the wireless LAN terminal to request the wireless LAN terminal to release the attribution, including the restart time information indicating the restart time indicating the time when the wireless communication unit is stopped. Wireless communication control method including.
(Appendix 12)
Receiving an attribution cancellation request from a wireless LAN communication device and
The search process of the wireless LAN communication device is executed based on the restart time information regarding the restart time indicating the time when the wireless communication unit of the wireless LAN communication device is stopped, which is included in the attribution release request. Wireless communication control method.
(Appendix 13)
Detecting an event in which the wireless communication unit of the own device is stopped,
When the event is detected, the wireless LAN terminal is transmitted to the wireless LAN terminal to request the wireless LAN terminal to release the attribution, including the restart time information indicating the restart time indicating the time when the wireless communication unit is stopped. A wireless communication control program that causes a computer to execute.
(Appendix 14)
Receiving an attribution cancellation request from a wireless LAN communication device and
The computer executes the search process of the wireless LAN communication device based on the restart time information regarding the restart time indicating the time when the wireless communication unit of the wireless LAN communication device is stopped, which is included in the attribution release request. Wireless communication control program to be executed by.

100, 200 Wireless LAN system 10, 30, 30_1, 30_2 Wireless LAN communication device 11, 21, 31, 41 Wireless communication unit 12, 22, 33, 42, 52 Control unit 20, 40, 50 Wireless LAN terminal 32 Wired communication unit 34, 43 Storage unit 45 PC
341 Next Beacon Resume Time Information Storage Area 431 Attribution Destination SSID Information Storage Area 432 Attribution Destination SSID Beacon Resume Information Storage Area

Claims (9)

It is equipped with a first wireless LAN communication device and a wireless LAN terminal.
The first wireless LAN communication device is
When an event in which the first wireless communication unit included in the own device is stopped is detected and an event in which the first wireless communication unit is stopped is detected, the restart time indicating the time when the first wireless communication unit is stopped is related. A request for cancellation of attribution is transmitted to the wireless LAN terminal, including restart time information, and the request for cancellation of attribution is transmitted.
The wireless LAN terminal is
Upon receiving the request for cancellation of attribution,
The second wireless communication unit included in the own device is stopped from the reception of the attribution cancellation request until the restart time indicated by the restart time information included in the attribution cancellation request elapses.
The search process of the first wireless LAN communication device is executed based on the restart time information.
Wireless LAN system. The wireless LAN system according to claim 1, wherein the wireless LAN terminal executes a search process for the first wireless LAN communication device after the restart time has elapsed from the reception of the attribution cancellation request. A first wireless LAN communication device, a wireless LAN terminal, and a second wireless LAN communication device to which the wireless LAN terminal can belong are provided.
The first wireless LAN communication device is
When an event in which the first wireless communication unit included in the own device is stopped is detected and an event in which the first wireless communication unit is stopped is detected, the restart time indicating the time when the first wireless communication unit is stopped is related. A request for cancellation of attribution is transmitted to the wireless LAN terminal, including restart time information, and the request for cancellation of attribution is transmitted.
The wireless LAN terminal is
Upon receiving the request for cancellation of attribution,
The search process of the second wireless LAN communication device is executed from the reception of the attribution cancellation request until a predetermined time elapses among the restart times indicated by the restart time information included in the attribution cancellation request .
A wireless LAN system that executes a search process for the first wireless LAN communication device based on the restart time information . If the wireless LAN terminal does not detect the second wireless LAN communication device by the time when the predetermined time has elapsed from the reception of the attribution cancellation request, the restart time has elapsed from the reception of the attribution cancellation request, and then the second wireless LAN terminal. 1 The wireless LAN system according to claim 3 , which executes a search process for the wireless LAN communication device. If the wireless LAN terminal does not detect the second wireless LAN communication device by the time when the predetermined time elapses from the reception of the attribution cancellation request, the wireless LAN terminal owns the device until the restart time elapses after the elapse of the predetermined time. The wireless LAN system according to claim 3 or 4 , wherein the second wireless communication unit is stopped. A wireless communication unit that performs wireless communication with a wireless LAN communication device,
A control unit that controls the wireless communication unit is provided.
The control unit
Receives an attribution cancellation request requesting attribution cancellation from a wireless LAN communication device, and receives an attribution cancellation request.
From the reception of the attribution cancellation request to the restart time indicated by the restart time information included in the attribution cancellation request, which indicates the time when the wireless communication unit of the wireless LAN communication device is stopped, the self. Stop the wireless communication unit provided in the device,
A wireless LAN terminal that executes a search process for the wireless LAN communication device based on the restart time information regarding the restart time. A wireless communication unit that performs wireless communication with a wireless LAN communication device,
A control unit that controls the wireless communication unit is provided.
The control unit
Received the attribution cancellation request requesting the attribution cancellation from the first wireless LAN communication device, and received the attribution cancellation request.
Of the restart time indicated by the restart time information included in the attribution cancellation request from the reception of the attribution cancellation request, which indicates the time when the wireless communication unit of the first wireless LAN communication device is stopped, a predetermined time is specified. Until the time elapses, the search process of the second wireless LAN communication device is executed, and the search process is executed.
A wireless LAN terminal that executes a search process for the first wireless LAN communication device based on the restart time information. Receiving an attribution cancellation request from a wireless LAN communication device and
The own device has a restart time indicated by the restart time information included in the attribution release request from the reception of the attribution cancellation request until the restart time indicating the time when the wireless communication unit of the wireless LAN communication device is stopped elapses. To stop the wireless communication unit to be equipped
A wireless communication control method including executing a search process of the wireless LAN communication device based on the restart time information. Receiving an attribution cancellation request requesting attribution cancellation from the first wireless LAN communication device, and
Of the restart time indicated by the restart time information included in the attribution cancellation request from the reception of the attribution cancellation request, which indicates the time when the wireless communication unit of the first wireless LAN communication device is stopped, a predetermined time is specified. To execute the search process of the second wireless LAN communication device until the time elapses,
A wireless communication control method including executing a search process of the first wireless LAN communication device based on the restart time information.

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