JP2012095340A - Wireless lan system, access point device, detection method of the access point device and program therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an access point device capable of detecting another access point device using a channel different from that used by the access point device, while maintaining connection with a wireless slave unit.SOLUTION: A first access point device uses a channel different from a channel being used to transmit a probe request added with channel information showing the channel being used. After the transmission of the probe request, the first access point device returns to use the channel being used in a predetermined period, so as to transmit the probe request using another channel while operating as a wireless master unit of the channel being used. Meanwhile, a second access point device transmits a probe response using the channel shown by the channel information added to the received probe request. The first access point device receives the probe response using the channel being used.

Description

  The present invention relates to an access point apparatus capable of wireless communication using a plurality of channels.

  In recent years, wireless LAN has become widespread. In a wireless LAN, communication is possible only within the radio wave reachable range of the wireless LAN device, and therefore, a plurality of access points can be used when communicating over a wide area exceeding the radio wave reachable range of one wireless LAN device. Has been developed to relay wireless packets between access points (for example, Patent Document 1 below).

  In an environment where multiple access points are installed in this way, when multiple access points are communicating with a slave unit on different channels, other access points are maintained while maintaining communication with the slave unit. It was difficult to search for.

JP 2004-248289 A

  In consideration of at least a part of the problems described above, the problem to be solved by the present invention is to use a channel different from that of the access point device while maintaining the connection relationship with the wireless slave device. Detecting other access point devices.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

Application Example 1 A wireless LAN system including a first access point device and a second access point device capable of wireless communication with a plurality of channels,
The first access point device is
Request means for transmitting a probe request to which channel information indicating a channel in use is transmitted using a channel different from the channel in use among the plurality of channels;
A post-request return means for returning to the channel in use within a predetermined period after transmission of the probe request;
When the second access point device receives the probe request, the second access point device includes a response unit that transmits a probe response using a channel indicated by channel information given to the probe request.

  In the wireless LAN system having such a configuration, the first access point device transmits a probe request with channel information indicating the channel in use, using a channel different from the channel in use, and after transmitting the probe request. Since the channel is returned to the in-use channel within a predetermined period, the probe request can be transmitted in another channel while maintaining the connection relationship with the wireless slave unit in the in-use channel. In addition, since the second access point device transmits a probe response using the channel indicated by the channel information given to the received probe request, the first access point device uses the channel being used, A probe response can be received. Therefore, the first access point device can detect another access point device using a channel different from that of the access point device while maintaining the connection relationship with the wireless slave device.

Application Example 2 The wireless LAN system according to Application Example 1, wherein the predetermined period is a transmission period of a beacon transmitted by the first access point device.
In the wireless LAN system having such a configuration, the first access point device returns to the channel in use within the beacon transmission cycle, and thus it is possible to suppress the loss of beacon transmission in the channel in use. As a result, it is possible to prevent the connection during communication from being released.

[Application Example 3] In the wireless LAN system according to Application Example 1 or Application Example 2, there are a plurality of channels different from the channel in use, and the request unit transmits a probe request each time, A wireless LAN system that sequentially transmits the probe request to all of the channels different from the channel in use through a return by the return unit after the request and a predetermined standby period in the returned channel.

  In the wireless LAN system having such a configuration, the first access point device sequentially transmits probe requests to all the channels different from the channels in use. Therefore, the first access point and the second access point In the case where channels that can be used in the case of duplication, the access point can be reliably detected within the range. In addition, since each probe request to be transmitted sequentially is transmitted after returning to the channel in use and a predetermined waiting period in the recovered channel, it is possible to suppress the loss of beacon transmission in the channel in use. Thus, it is possible to prevent the connection during communication from being released.

Application Example 4 When the channel is changed to transmit the probe response, the second access point device includes a post-response return unit that returns to the channel before the change after the probe response is transmitted. The wireless LAN system according to any one of Application Examples 1 to 3.

  In the wireless LAN system having such a configuration, when the second access point device changes the channel to transmit the probe response, the channel returns to the channel before the change after transmitting the probe response. Communication with can be maintained.

  In addition to the wireless LAN system described above, the present invention can also be used as an access point device constituting the wireless LAN system, a program for transmitting a probe request, a storage medium storing the program, an access point device detection method, and the like. Can be realized. Of course, the configurations of the application examples 2 to 4 can be added to these implementation modes.

It is explanatory drawing which shows schematic structure of the wireless LAN system 20 as an Example of this invention. It is explanatory drawing which shows schematic structure of access point AP1. It is a flowchart which shows the flow of an access point search process. It is a flowchart which shows the flow of a reception process. It is explanatory drawing which shows the mode of the switching of the channel in an access point search process and a reception process.

Examples of the present invention will be described.
A. Example:
A-1. Schematic configuration of the wireless LAN system 20:
FIG. 1 is an explanatory diagram showing a schematic configuration of a wireless LAN system 20 as an embodiment of the present invention. As illustrated, the wireless LAN system 20 includes two access points AP1 and AP2 and four wireless terminals STA11 to STA22. In this embodiment, the access points AP1 and AP2 and the wireless terminals STA11 to STA22 in which the same ESSID (Extended Service Set Identifier) and wireless encryption are set in advance are wireless LAN devices compliant with the IEEE 802.11 standard.

  The access points AP1 and AP2 have the same configuration in this embodiment, and have a WDS (Wireless Distribution System) function for relaying radio packets between access points. The access points AP1 and AP2 are installed in the radio wave reachable range, and can communicate with each other. Further, the access points AP1 and AP2 can communicate by switching N channels (N is an integer of 2 or more, here N = 14). Note that there may be three or more access points.

  In this embodiment, the wireless terminals STA11 to STA22 are general-purpose personal computers that include a wireless LAN card or have a built-in wireless LAN module. The wireless terminals STA11 and STA12 can communicate in the infrastructure mode via the access point AP1, and the wireless terminals STA11 and STA12 and the access point AP1 constitute a network BSS1. Similarly, a network BSS2 is constructed by the wireless terminals STA21 and STA22 and the access point AP2. Further, an ESS (Extended Service Set) is constructed by the networks BSS1 and BSS2, and the wireless terminals STA11 to STA22 can communicate with each other via the access points AP1 and AP2. Note that the number of wireless terminals is not limited at all. For example, only one wireless terminal may exist for one access point.

A-2. Schematic configuration of access points AP1 to AP3:
As a representative of the access points AP1 and AP2 having the same configuration, a schematic configuration of the access point AP1 is shown in FIG. As illustrated, the access point AP1 includes a CPU 30, a flash ROM 41, a ROM 42, a RAM 43, and a wireless communication interface 50, which are connected to each other via a bus.

  The CPU 30 controls the overall operation of the access point AP1 by developing a program such as firmware stored in the flash ROM 41 or ROM 42 in the RAM 43 and executing it. The CPU 30 also functions as a request unit 31, a post-request return unit 32, a response unit 33, and a post-response return unit 34 according to a predetermined program. Details of these functional units will be described later.

  The wireless communication interface 50 is an interface for performing wireless communication, and includes a wireless master unit interface 51 and a wireless slave unit interface 52. The wireless master unit interface 51 functions as a wireless master unit (hereinafter also simply referred to as a master unit), and receives radio packets from a wireless slave unit (hereinafter also simply referred to as a slave unit). The wireless slave unit interface 52 functions as a slave unit and transmits a wireless packet to the master unit. That is, the access point AP1 functions as both a parent device and a child device. The wireless master unit interface 51 and the wireless slave unit interface 52 are built in the access point AP1 in a state where radio waves can be transmitted to the outside and received from the outside. The wireless master unit interface 51 and the wireless slave unit interface 52 may be configured by one wireless module or may be configured by different modules.

A-3. Access point detection processing:
An access point detection process in the wireless LAN system 20 will be described. The access point detection process is a process of transmitting a probe request (ProbeRequest) when the access points AP1 and AP2 are connected to the wireless terminals STA11 and STA12 or STA21 and STA22. In the following description, it is assumed that the access point AP1 transmits a probe request during connection with the wireless terminals STA11 and STA12. Also, in the present embodiment, description will be made assuming that the access point AP1 performs communication using the channel CH1 with the wireless terminals STA11 and STA12. The flow of access point detection processing is shown in FIG. When the access point detection process is started, as shown in the figure, the CPU 30 of the access point AP1 first detects channels CH1 to CHn supported by the access point AP1 (step S110). In this embodiment, this process is performed by reading the support information stored in the ROM 42. The numbers 1 to n given to the channels are given for convenience in order to distinguish the N channels.

  When the channels CH1 to CHn are detected, the CPU 30 selects one channel CHj (j is an integer not less than 1 and not more than N) from the channels that have not yet transmitted the probe request (step S120). When the channel CHj is selected, the CPU 30 changes the output band from the channel CH1 to the channel CHj when the selected channel CHj is different from the channel CH1 being used for communication with the wireless terminals STA11 and STA12 (step S130). . Note that when the channel CHj and the channel CH1 match, the output band is not changed.

  When the output band is changed, the CPU 30 broadcasts a probe request to which channel information is added using the channel CHj as processing of the request unit 31 (step S140). The channel information is information indicating the channel CH1 being used for communication with the slave unit. The frame structure of the probe request is defined by the IEEE 802.11 standard, and an optional area that can be freely defined by the vendor is prepared for the frame elements constituting the probe request frame. In the present embodiment, the CPU 30 adds channel information to the probe request by writing the channel information in this optional area. In the present embodiment, when the output band is not changed in step S130, the probe request is transmitted in step S140 without adding channel information. However, the probe information may be transmitted with channel information.

  When the probe request is transmitted, the CPU 30 returns to the original channel CH1 that has been used within a predetermined period as the processing of the post-request return unit 32 (step S150). In the present embodiment, it is assumed that the channel CH1 is immediately restored after the probe request is transmitted. The shorter the predetermined period is, the more desirable it is, and it is desirable to set it below the beacon transmission cycle of the access point AP1. By so doing, it is possible to suppress the loss of beacon transmission on the channel CH1, and as a result, it is possible to suppress the communication connection with the wireless terminals STA11 and STA12 being released. If the output band is not changed in step S130, it is not necessary to return to channel CH1 in step S150.

  When returning to the channel CH1, the CPU 30 determines whether or not all the channels CH1 to CHn have been selected in step S120 (step S160). As a result, if there is an unselected channel (step S160: NO), the CPU 30 waits for a predetermined period (step S170). In the standby period of step S170, other wireless processing, that is, transmission of a beacon using channel CH1 and communication with wireless terminals STA11 and STA12 are executed. Thus, after waiting for a predetermined period, the CPU 30 returns the process to step S120 and repeats the processes of steps S120 to S160.

  The standby period in step S170 is preferably set to be 1 time or more of the beacon transmission cycle T of the access point AP1, and more preferably set to 2 times or more of the beacon transmission cycle T. If the beacon transmission period T is set to 1 or more times, the beacon can be transmitted at least once within the standby period of step S170, so that the communication connection with the wireless terminals STA11 and STA12 can be prevented from being released. In addition, if the beacon transmission period T is set to 2 times or more, for example, 2 times or 3 times, the beacon can be transmitted twice or more. Can be reliably suppressed.

  Thus, when probe requests are transmitted for all channels CH1 to CHn (step S160: YES), the access point search process on the transmission side ends. As is apparent from the above description, as shown in FIG. 5, the access point AP1 changes the output band from the currently used channel CH1 to another channel, for example, CH3, for a short period of time, thereby changing the used channel. A probe request with channel information indicating CH1 is transmitted. By doing so, the channel CH1 on which it is waiting can be notified to other access points.

A-4. Receive processing:
A reception process in the wireless LAN system 20 will be described. The reception process is a process performed by the access points AP1 and AP2 that have received a probe request or a probe response (ProbeResponse) according to the received frame. In the following description, it is assumed that the access point AP2 receives a probe request or a probe response from the access point AP1. The flow of reception processing is shown in FIG. When the reception process is started, as illustrated, the CPU 30 of the access point AP2 first determines whether or not a probe request has been received (step S210).

  As a result, if a probe request has been received (step S210: YES), the CPU 30 further determines whether or not channel information is included in the above-described optional area of the probe request (step S220). As a result, if the channel information is included (step S220: YES), the access point AP1 that has transmitted the probe request is waiting for a probe response on the channel CH1 indicated by the channel information. As a process of the response unit 33, the output band is temporarily changed from the channel in use, for example, the channel CH3 to the channel CH1 indicated by the channel information (step S230).

  When the output band is changed to the channel CH1, the CPU 30 transmits a probe response including its own information (SSID, channel information, etc.) to the access point AP1 as processing of the response unit 33 (step S240). In the IEEE 802.11 standard, since channel information is defined as one of information elements of the probe response, the CPU 30 can easily add the channel information to the probe response. On the other hand, if the channel information is not included (step S220: NO), the channel change (step S230) is omitted and a probe response is transmitted to the access point AP1 (step S240).

  When the transmission of the probe response is thus completed, the CPU 30 returns to the original channel CH3 before the change when the channel is changed in step S230 as a process of the return after response unit 34 (step S250). The reception process ends. Note that it is desirable to set the period for returning to the original channel in the same manner as in step S150. As is clear from the above description, as shown in FIG. 5, the access point AP2 changes the output band from the channel being used, for example, the channel CH3, to CH1 being used by the access point AP1 only for a short period of time. The probe response is transmitted. In this way, the access point AP1 can receive a probe response using the channel CH1 being used.

  On the other hand, if no probe request has been received (step S210: NO), the CPU 30 determines whether a probe response has been received (step S260). As a result, if no probe response has been received (step S260: NO), the CPU 30 ends the reception process. On the other hand, if a probe response has been received (step S260: YES), the CPU 30 extracts wireless device information (SSID, channel information, etc.) from the probe response and records it in the RAM 43 or the like (step S270). Thus, the reception process ends. By recording the channel information in this way, it is possible to specify a channel used for communication with another access point thereafter without setting the channel of the access point constituting the wireless LAN system 20 in advance. If only the access point in which the channel is recorded is detected, it is possible to reduce the number of channels selected in step S120 and to improve the efficiency of the access point search process.

A-5. effect:
In the wireless LAN system 20 having such a configuration, the access point AP1 constituting the wireless LAN system 20 uses a channel different from the channel used for communication with the wireless terminals STA11 and STA12 to indicate the channel CH1 being used. Since the probe request with the information is transmitted and the probe request is transmitted, the channel is returned to the channel in use within a predetermined period. Therefore, while maintaining the connection relationship with the wireless terminals STA11 and STA2 in the channel CH1 in use, The probe request can be transmitted on the other channels. Moreover, since the access point AP2 transmits the probe response using the channel CH1 indicated by the channel information given to the received probe request, the access point AP1 receives the probe response using the channel CH1 being used. can do. Therefore, the access point AP1 can detect another access point AP2 using a different channel while maintaining the connection relationship with the wireless terminals STA11 and STA2.

  In the wireless LAN system 20, since the access point AP1 sequentially transmits probe requests to all channels different from the channel CH1 being used, the access point AP2 uses a channel that can be used by the access point AP1. If it is, the access point AP2 can be reliably detected. In addition, each probe request to be transmitted sequentially is transmitted after returning to the channel CH1 in use and a predetermined waiting period in the channel CH1, so that there is a lack of beacon transmission on the channel CH in use. It can suppress and it can suppress that connection with radio | wireless terminal STA11 and STA2 is cancelled | released.

  In the wireless LAN system 20, when the channel is changed in order to transmit a probe response to the access point AP1, the access point AP2 returns to the channel before the change after transmitting the probe response. It is possible to prevent the connection with the wireless terminals STA21 and STA22 on the channel from being released.

A modification of the above-described embodiment will be described.
B: Modification:
B-1. Modification 1:
In the above-described embodiment, the access points AP1 and AP2 constituting the wireless LAN system 20 have the same configuration, but they do not necessarily have to have the same configuration. The access point that performs the AP search process may function as at least the request unit 31 and the post-request return unit 32, and the access point that performs the reception process may function as at least the response unit 33. For example, the access point on the reception processing side may not have a function as a slave unit, or may have a wired interface and a bridge function.

B-2. Modification 2:
In the above-described embodiment, the configuration in which the access point AP1 transmits a probe request during communication with the wireless terminals STA11 and STA12 has been described. However, the present invention is not limited to this example. For example, the access point AP1 is replaced with the wireless terminals STA11 and STA12. The probe request may be transmitted during communication with an access point having a WDS function. That is, the probe request may be transmitted to the upstream access point or repeater while communicating with the wireless LAN device serving as the slave unit.

B-3. Modification 3:
In the above-described embodiment, the access point AP1 is configured to transmit a probe request to all of the supported channels CH1 to CHn. However, the channels used by the access points constituting the wireless LAN system 20 are preset. If it is known, a probe request may be transmitted only to the known channel.

B-4. Modification 4:
In the above-described embodiment, the access point AP1 is configured to ensure the return to the original channel CH1 and the standby period in the channel CH1 every time one probe request is transmitted. If it is clear that the connection is not released from the wireless terminals STA11 and STA12, for example, probe requests can be transmitted through a plurality of channels, the above steps S150 and S170 can be omitted. For example, every time two probe requests are transmitted, a return to the original channel CH1 and a waiting period on the channel CH1 may be ensured.

  As mentioned above, although embodiment of this invention was described, elements other than the element described in the independent claim among the components of this invention in embodiment mentioned above are additional elements, and are suitably abbreviate | omitted or combined. Is possible. In addition, the present invention is not limited to such an embodiment, and it is needless to say that the present invention can be implemented in various modes without departing from the gist of the present invention. For example, in addition to the configuration as a wireless LAN system, the present invention can be realized as a wireless LAN device, a program thereof, a storage medium storing the program, an access point device detection method, and the like.

20 ... Wireless LAN system 30 ... CPU
31 ... Request unit 32 ... Return unit after request 33 ... Response unit 34 ... Return unit after response 41 ... Flash ROM
42 ... ROM
43 ... RAM
50 ... Wireless communication interface 51 ... Wireless master unit interface 52 ... Wireless slave unit interface AP1, AP2 ... Access point STA11, STA12, STA21, STA22 ... Wireless terminal BSS1, BSS2 ... Network

SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.
[Mode 1] A wireless LAN system including a first access point device and a second access point device capable of wireless communication with three or more channels,
The first access point device is
Request means for transmitting a probe request to which channel information indicating a channel in use is transmitted using a channel different from the channel in use among the three or more channels;
A post-request return means for returning to the channel in use within a predetermined period after transmission of the probe request;
With
The second access point device comprises response means for transmitting a probe response using a channel indicated by channel information given to the probe request when the probe request is received,
Each time the request means transmits one probe request, the return by the return means after request, and a waiting period equal to or longer than the transmission cycle of the beacon transmitted by the first access point device in the returned channel, The probe request is sequentially transmitted to at least a part of a channel different from the channel in use.
Wireless LAN system.
[Mode 2] A wireless LAN system including a first access point device and a second access point device capable of wireless communication with a plurality of channels,
The first access point device is
The probe request to which the first channel information indicating the channel being used by the first access point device is added is a channel different from the channel being used by the first access point device among the plurality of channels. Requesting means to transmit using,
A post-request return means for returning to the channel in use by the first access point device within a predetermined period after transmission of the probe request;
Storage means for storing second channel information indicating a channel in use by the second access point device included in the probe response received from the second access point device;
With
The second access point device comprises response means for transmitting a probe response using the channel indicated by the first channel information given to the probe request when the probe request is received;
The requesting unit is configured to be able to transmit the probe request using only a channel indicated by the stored second channel information out of channels different from the channel being used by the first access point device. Was
Wireless LAN system.
[Mode 3] A wireless LAN system including a first access point device and a second access point device capable of wireless communication with three or more channels,
The first access point device is
Request means for transmitting a probe request to which channel information indicating a channel in use is transmitted using a channel different from the channel in use among the three or more channels;
A post-request return means for returning to the channel in use within a predetermined period after transmission of the probe request;
With
The second access point device comprises response means for transmitting a probe response using a channel indicated by channel information given to the probe request when the probe request is received,
Each time the request means transmits a plurality of probe requests, the request means returns at least one of the channels different from the in-use channel through a return by the return means after request and a predetermined waiting period in the returned channel. Sequentially send the probe requests to the
Wireless LAN system.

Claims (9)

A wireless LAN system comprising a first access point device and a second access point device capable of wireless communication with a plurality of channels,
The first access point device is
Request means for transmitting a probe request to which channel information indicating a channel in use is transmitted using a channel different from the channel in use among the plurality of channels;
A post-request return means for returning to the channel in use within a predetermined period after transmission of the probe request;
When the second access point device receives the probe request, the second access point device includes a response unit that transmits a probe response using a channel indicated by channel information given to the probe request.   The wireless LAN system according to claim 1, wherein the predetermined period is a transmission period of a beacon transmitted by the first access point device. The wireless LAN system according to claim 1 or 2,
There are multiple channels that are different from the channel in use,
Each time the request means transmits one probe request, the request means returns to the post-request return means and a predetermined waiting period in the returned channel, and all the channels that are different from the currently used channel are returned. A wireless LAN system that sequentially transmits the probe requests.   The second access point device comprises post-response return means for returning to the channel before change after transmission of the probe response when the channel is changed in order to transmit the probe response. The wireless LAN system according to claim 3. An access point device capable of wireless communication with a plurality of channels,
Request means for transmitting a probe request to which channel information indicating a channel in use is transmitted using a channel different from the channel in use among the plurality of channels;
An access point device comprising: a post-request return means for returning to the channel in use within a predetermined period after transmitting the probe request. An access point device capable of wireless communication with a plurality of channels,
An access point device comprising response means for transmitting a probe response using a channel indicated by channel information when a probe request to which channel information for identifying the channel is given is received from another access point device. An access point device capable of wireless communication with a plurality of channels is a detection method for detecting another access point device while maintaining a connection relationship with a wireless LAN device serving as a wireless terminal,
A probe request with channel information indicating a channel in use is transmitted using a channel different from the channel in use among the plurality of channels;
After sending the probe request, return to the channel in use within a predetermined period,
The other access point device that has received the probe request is caused to transmit a probe response using the channel indicated by the channel information given to the probe request,
A detection method for detecting the other access point device by receiving the probe response from the other access point device. An access point device capable of wireless communication using a plurality of channels is a program for transmitting a probe request while maintaining a connection relationship with a wireless LAN device serving as a wireless terminal,
A request function for transmitting a probe request to which channel information indicating a channel in use is transmitted using a channel different from the channel in use among the plurality of channels;
A program for causing a computer to realize a return function after request for returning to the channel in use within a predetermined period after transmission of the probe request. An access point device capable of wireless communication using a plurality of channels is a program for transmitting a probe response,
A program for causing a computer to realize a response function of transmitting a probe response using a channel indicated by channel information when receiving a probe request to which channel information specifying a channel is given from another access point device.

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