JP2007096749A - Access point and radio lan system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an access point 30 capable of automatically performing a channel assignment with less interference between a plurality of access points 30 without affecting the communication performed by a subordinate radio LAN terminal 20. <P>SOLUTION: An access point 30 receives the information of an interfering AP as the other access point 30 which is using the same radio channel from a subordinate radio LAN terminal 20, and controls the radio channel which is being used by itself based on the information of the interfering AP received from the radio LAN terminal 20. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an access point that performs communication based on a wireless LAN standard and a wireless LAN system using the access point.

  Wireless LAN systems based on standards such as IEEE 802.11a and IEEE 802.11b are known. In such a wireless LAN system, a plurality of access points are usually arranged in an area wider than a service area that is a range where radio waves from each access point reach with sufficient strength to perform communication. Wireless communication based on the wireless LAN is realized within the area covered by the service area of the access point. In this case, by assigning different wireless channels to adjacent access points, the wireless LAN terminal can perform wireless communication based on the wireless LAN without causing radio wave interference even in an area where service areas overlap. Can be performed appropriately.

  However, because the radio waves are invisible and the intensity of the radio waves transmitted from the access point shows a complicated distribution due to the placement of obstacles, etc., the same radio is used in an environment where multiple access points are installed. In some cases, it is difficult to know how much interference is actually generated by a plurality of access points to which channels are assigned.

  In order to avoid this, Patent Literature 1 discloses that communication between an access point and all wireless LAN terminals belonging to the access point is stopped simultaneously for a predetermined period, and during that time, each wireless LAN terminal is connected to another access point. A technique for measuring the radio wave from and reporting to an access point is disclosed. Thereby, each access point can collect information on radio channels used by surrounding access points, and can change to a radio channel that does not interfere with other access points.

JP 2002-158667 A

  By the way, in the technique described in Patent Document 1, each access point stops its own communication, and all the wireless LAN terminals belonging to itself are simultaneously stopped so that other access points Causes each wireless LAN terminal to measure the wireless channel used by the wireless LAN terminal. For this reason, when a transmission stop instruction is received from the access point during communication, the wireless LAN terminal interrupts the current communication. This is particularly problematic in the case of real-time communication that handles audio, video, etc., because sound and video are interrupted and normal communication of the wireless LAN terminal is hindered.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to perform channel assignment with less interference between a plurality of access points without affecting communication performed by subordinate wireless LAN terminals. It is to be realized automatically.

  In order to solve the above-described problem, the access point of the present invention has received information on an interference AP, which is another access point using the same wireless channel, from a subordinate wireless LAN terminal and from the wireless LAN terminal. Based on the information of the interference AP, the radio channel used by itself is controlled.

  For example, the first aspect of the present invention is an access point having a wireless communication means for performing wireless communication based on a wireless LAN with a wireless LAN terminal, and uses the same wireless channel as that used by itself. Interference AP information storage means for storing the identification information of the interference AP received when the identification information of the interference AP that is another access point is received from the wireless LAN terminal via the wireless communication means, and the interference AP information With reference to the storage means, when identification information of the interference AP is stored in the interference AP information storage means, the identification information of the own access point and the identification information of the interference AP stored in the interference AP information storage means And an access point comprising a channel control means for controlling a wireless channel used by the AP-side wireless communication means That.

  According to a second aspect of the present invention, there is provided a wireless LAN system including a wireless LAN terminal and an access point, wherein the wireless LAN terminal includes a terminal-side wireless communication means for performing wireless communication based on the wireless LAN with the access point, Interfering AP search means for searching for an interfering AP that is another access point that uses the same radio channel as the radio channel used by the access point to which the access point belongs, and the interfering AP is detected by the interference AP search means The interference AP notification means for notifying the identification information of the interference AP to the access point to which it belongs via the terminal-side wireless communication means. An AP-side wireless communication unit that performs wireless communication based on the wireless LAN and a notification from the wireless LAN terminal via the AP-side wireless communication unit Referring to the interference AP information storage means for storing the interference AP identification information and the interference AP information storage means, when the interference AP identification storage information is stored in the interference AP information storage means, Channel control means for controlling the radio channel used by the AP-side radio communication means based on the identification information and the identification information of the interfering AP stored in the interference AP information storage means A wireless LAN system is provided.

  According to the present invention, it is possible to realize channel assignment with less interference between a plurality of access points without affecting communication performed by a subordinate wireless LAN terminal.

  Embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a system configuration diagram showing an example of a configuration of a wireless LAN system 10 according to an embodiment of the present invention. The wireless LAN system 10 includes a plurality of access points 30 and a plurality of wireless LAN terminals 20.

  The intensity of the radio wave output from each access point 30 is predetermined in the wireless LAN standard. Therefore, each wireless LAN terminal 20 can perform wireless communication based on the wireless LAN with the access point 30 in the service area 12 that is a range in which radio waves having a strength higher than that communicable from the access point 30 reach.

  When providing wireless communication based on a wireless LAN in an area wider than the service area 12 of each access point 30, a plurality of access points are arranged in the area and adjacent access points 30 are the same. Different radio channels are assigned to adjacent access points 30 so that radio wave interference does not occur by using these radio channels. Thereby, even if the area is wider than the service area 12, the wireless LAN terminal 20 can perform wireless communication based on the wireless LAN within the area.

  In FIG. 1, the service areas 12 of the respective access points 30 partially overlap, but if different wireless channels are assigned to the respective access points 30, the wireless LAN terminal 20-2 and the wireless LAN terminal 20 -4 can appropriately perform wireless communication based on the wireless LAN.

  In the present invention, each wireless LAN terminal 20 searches for an interference AP, which is another access point 30 using the same wireless channel as the access point 30 to which it currently belongs, at a predetermined timing. When an interference AP is detected in the wireless LAN terminal 20, each access point 30 controls a wireless channel used by itself as described below.

  First, a first embodiment of the present invention will be described.

  FIG. 2 is a block diagram illustrating an example of a detailed functional configuration of the wireless LAN terminal 20 according to the first embodiment. The wireless LAN terminal 20 includes an operation mode management unit 200, a data accumulation control unit 201, an interference AP search unit 202, an interference AP notification unit 203, and a wireless communication unit 204.

  The wireless communication unit 204 performs wireless communication with the access point 30 based on the wireless LAN. In the present embodiment, the wireless communication unit 204 has a function of performing processing related to known wireless LAN communication such as attribution processing and authentication processing.

  The operation mode management unit 200 manages the operation mode of the wireless LAN terminal 20 and returns the current operation mode of the wireless LAN terminal 20 in response to an inquiry from the interference AP search unit 202. Examples of the operation mode of the wireless LAN terminal 20 include a communication mode and a standby mode.

  The interference AP search unit 202 searches for the interference AP via the wireless communication unit 204 at a predetermined first timing. In the present embodiment, the interference AP search unit 202 refers to a timer built in the wireless LAN terminal 20 and operates the current operation mode of the wireless LAN terminal 20 every predetermined period (for example, 1 second). An inquiry is made to the mode management unit 200 to search for an interference AP when the current operation mode of the wireless LAN terminal 20 is the communication mode. At this time, when the wireless communication unit 204 is transmitting / receiving data, the interference AP search unit 202 postpones the search for the interference AP until the transmission / reception of the data ends, for example.

  The interference AP search unit 202 monitors the same wireless channel as the currently belonging access point 30 for a predetermined period (for example, several milliseconds), and acquires the MAC address of the interference AP from the header of the wireless LAN frame received during that period. . At this time, the interference AP search unit 202 also measures the received electric field strength of the wireless LAN frame transmitted from the interference AP.

  When the interference AP search unit 202 detects the interference AP, the interference AP notification unit 203 receives the MAC address and received electric field strength of the interference AP from the interference AP search unit 202, and receives the received data via the wireless communication unit 204. The access point 30 is notified. In the present embodiment, the interference AP notification unit 203 transmits the information on the interference AP detected by the interference AP search unit 202 to the access point 30 to which the own wireless LAN terminal 20 belongs. For example, the interference AP notification unit 203 notifies the interference AP information using the reserved areas of the Type bit and the Sub Type bit in a control frame defined in IEEE 802.11.

  As another form, the interference AP notification unit 203 transmits information on the interference AP to the access point 30 to which the own wireless LAN terminal 20 belongs, and the own wireless LAN terminal 20 belongs to the interference AP. The MAC address of the existing access point 30 may be notified as an interference AP for the interference AP. Thereby, not only the access point 30 to which the own wireless LAN terminal 20 belongs but also the interference AP can control the radio channel so as to avoid interference. In this case, for example, the interference AP notification unit 203 notifies the information of the interference AP using the reserved area of the Type bit and the Sub Type bit in the control frame defined in IEEE 802.11.

  When the interference AP search unit 202 starts searching for an interference AP, the data storage control unit 201 sends a data storage request for requesting storage of data addressed to its own wireless LAN terminal 20 prior to the search for the interference AP. The data is transmitted to the access point 30 via the communication unit 204. For example, the data accumulation control unit 201 may transmit a data accumulation request using a Power Management bit in a control frame defined in IEEE 802.11.

  In addition, after the interference AP search unit 202 finishes searching for the interference AP, the data storage control unit 201 cancels the storage of the data addressed to the own wireless LAN terminal 20 and sends the stored data to the own wireless LAN terminal 20. A data accumulation cancellation request that is an instruction to transmit to the access point 30 is transmitted to the access point 30 via the wireless communication unit 204. For example, the data accumulation control unit 201 may transmit a data accumulation cancellation request using a Power Save Poll bit in a control frame defined in IEEE 802.11.

  FIG. 3 is a timing chart for explaining the interference AP search timing by the wireless LAN terminal 20.

  The timing chart 40 shows data transmission / reception timing by the wireless communication unit 204. In the state 400 and the state 402, data is transmitted / received, and in the state 401 and the state 403, data transmission / reception is not performed. The timing chart 41 shows the transition of the operation mode of the own wireless LAN terminal 20. The timing chart 42 shows the operation mode inquiry timing that the interference AP search unit 202 periodically makes to the operation mode management unit 200. The timing chart 43 shows the execution timing of the interference AP search process performed by the interference AP search unit 202.

  At timing 420, the interference AP search unit 202 inquires of the operation mode management unit 200 about the operation mode of the own wireless LAN terminal 20, and receives a reply indicating that it is the communication mode. Then, the interference AP search unit 202 refers to the wireless communication unit 204 to determine whether or not data transmission / reception is in progress, and executes search processing 430 because the data is not being transmitted / received.

  On the other hand, at timing 421, when the interference AP search unit 202 inquires the operation mode management unit 200 about the operation mode of the own wireless LAN terminal 20 and receives a reply indicating that it is in the standby mode, the interference AP search unit 202 cancels the current interference AP search process. .

  Further, at timing 422, when the interference AP search unit 202 inquires the operation mode management unit 200 about the operation mode of the own wireless LAN terminal 20 and receives a reply indicating that it is the communication mode, the interference AP search unit 202 refers to the wireless communication unit 204, It is determined whether data is being transmitted / received. Then, the interference AP search unit 202 detects that data is being transmitted / received, postpones the interference AP search process until the data transmission / reception ends, and detects that the data transmission / reception has ended at timing 423. Then, the timing chart 431 is executed.

  Here, the wireless LAN terminal 20 is much longer in the standby mode than in the communication mode. Therefore, by not performing the interference AP search process during the standby mode, it is possible to prevent the power consumption of the wireless LAN terminal 20 from increasing. Further, since the interference AP is not searched when communication is not being performed, even when the radio wave of the plurality of access points 30 is interfering, there is no wireless LAN terminal 20 that performs communication at that location. In this case, channel allocation does not change, and unnecessary channel changes can be prevented.

  FIG. 4 is a block diagram illustrating an example of a detailed functional configuration of the access point 30 according to the first embodiment. The access point 30 includes a data accumulation processing unit 301, an interference AP information storage unit 302, a channel control unit 303, a wired communication unit 304, and a wireless communication unit 305.

  The wireless communication unit 305 performs wireless communication based on the wireless LAN with the wireless LAN terminal 20, sends the communication data received from the wireless LAN terminal 20 to the wired communication unit 304, and transmits the data received from the wired communication unit 304 by wireless communication. The data is sent to the wireless LAN terminal 20. In the present embodiment, the wireless communication unit 305 has a function of performing processing related to known wireless LAN communication such as attribution processing and authentication processing. Further, the wireless communication unit 305 has a function of changing the wireless channel being used in accordance with an instruction from the channel control unit 303. The wired communication unit 304 performs wired communication with other communication devices via the wired LAN 11 based on, for example, Ethernet (registered trademark).

  When the data storage processing unit 301 receives a data storage request from the wireless LAN terminal 20 via the wireless communication unit 305, the data storage processing unit 301 starts storing data addressed to the wireless LAN terminal 20. When the data accumulation processing unit 301 receives a data accumulation cancellation request via the wireless communication unit 305, the data accumulation processing unit 301 cancels the accumulation of data addressed to the wireless LAN terminal 20 and sends the accumulated data to the wireless LAN terminal 20. Send.

  The interference AP information storage unit 302 stores the MAC address of the interference AP received from the wireless LAN terminal 20 via the wireless communication unit 305. At this time, the interference AP information storage unit 302 refers to the reception electric field strength transmitted together with the MAC address of the interference AP, and when the reception electric field strength is a predetermined value (for example, −90 dBm) or more, The MAC address of the interfering AP transmitted together with the received electric field strength is stored. Thereby, since the MAC address of the interference AP that is highly likely to cause interference can be stored, the interference AP information storage unit 302 can reduce the information to be stored.

  Note that when the same MAC address of the interfering AP that has already been stored is received, the interfering AP information storage unit 302 discards the received MAC address.

  The channel control unit 303 refers to the timer of the own access point 30 and refers to the interference AP information storage unit 302 every predetermined period (for example, 1 hour) to determine whether or not the MAC address of the interference AP is stored. Determine whether. When the MAC address of the interfering AP is stored, the channel control unit 303 compares the MAC address of the own access point 30 with the MAC address of the interfering AP, and the MAC address of the own access point 30 is more If larger, the wireless communication unit 305 is instructed to change to another wireless channel.

  When the MAC address of the own access point 30 is smaller, the channel control unit 303 does not give any instruction to the wireless communication unit 305. Then, after comparing the MAC address of the own access point 30 with the MAC address of the interfering AP, the channel control unit 303 deletes all the MAC addresses of the interfering AP stored in the interfering AP information storage unit 302.

  In this way, when interference occurs, one of the wireless channels is changed between the access points 30 where the interference has occurred, based on a predetermined rule (in this embodiment, the size of the MAC address). Thus, with the passage of time, it is possible to automatically assign a wireless channel that does not cause interference to each access point 30 in the wireless LAN system 10.

  Each time the wireless LAN terminal 20 detects an interfering AP, the wireless LAN terminal 20 reports the MAC address of the interfering AP to the access point 30, and each access point 30 periodically receives the MAC address of the interfering AP and its own MAC address. To determine whether or not to change its own channel, even if a new access point 30 is installed in the wireless LAN system 10, the wireless LAN is A radio channel that does not cause interference can be automatically assigned to each access point 30 in the system 10.

  In this embodiment, the interference AP information storage unit 302 acquires the MAC address of the interference AP from the subordinate wireless LAN terminal 20, but as another form, the interference AP information storage unit 302 has the MAC address of the interference AP. May be stored from the subordinate wireless LAN terminal 20, and the MAC address of the own AP may be notified to the interfering AP via the wired communication unit 304 as the MAC address of the interfering AP. When the interference AP MAC address is received from the other access point 30 via the wired communication unit 304, the interference AP information storage unit 302 stores the received MAC address of the interference AP.

  Thereby, even when the wireless LAN terminal 20 does not exist under the subordinate, the presence / absence of interference can be known via the other access point 30, so the wireless LAN system 10 can detect each of the plurality of access points 30. Thus, the optimum radio channel can be set more quickly.

  In addition, when the access point 30 receives input information indicating that the own access point 30 has been newly installed from the user (installer), the access point 30 sets the installation time, which is the passage of time since the input information is received, You may further provide the installation time management part which measures using the timer incorporated in the own access point 30. FIG.

  In this case, the channel control unit 303 refers to the installation time management unit at the timing of executing the channel review process for determining whether or not the channel used by the own access point 30 should be changed, and according to the length of the installation time. To change the time until the next channel review process.

  For example, for up to one month after each access point 30 is installed, the channel control unit 303 performs a channel review process every hour, and for one month or more and less than three months after installation. The channel review process may be executed every day, and the channel review process may be executed every week after three or more months have passed since the installation. As a result, it is possible to prevent unnecessary channel review processing from being executed, and to suppress an increase in power consumption of the access point 30.

  In addition, when the access point 30 changes to the same radio channel a predetermined number of times (for example, 10 times) within a predetermined period (for example, one month), it is assumed that it is impossible to assign a radio channel that no longer causes interference. You may make it notify an error by LED, a buzzer, etc.

  Further, the access point 30 has an assigned number management unit that manages the number of assigned wireless LAN terminals 20, and the channel control unit 303 refers to the assigned number management unit, and the number of assigned numbers is determined in advance. When the number of units (for example, five units) or more is exceeded, the time interval for performing the channel review process may be shortened (for example, halved).

  If the number of wireless LAN terminals 20 belonging to one access point 30 increases, the communication band assigned to one wireless LAN terminal 20 may be reduced. The larger the number of belonging, the more urgent it is to remove the interference region. It becomes. Therefore, by reducing the time interval for performing the channel review process when the number of belongings is large, more communication bands can be allocated to the belonging wireless LAN terminal 20.

  FIG. 5 is a flowchart showing an example of the operation of the wireless LAN terminal 20 according to the first embodiment. For example, at a predetermined timing such as when the power is turned on, the wireless LAN terminal 20 starts the processing shown in this flowchart.

  First, the interference AP search unit 202 determines whether it is the search timing of the interference AP (S100). If it is not the interference AP search timing (S100: No), the interference AP search unit 202 repeats step 100 until the interference AP search timing comes.

  If it is the interference AP search timing (S100: Yes), the interference AP search unit 202 makes an inquiry to the operation mode management unit 200 to determine whether or not the own wireless LAN terminal 20 is in the communication mode (S101). . When the wireless LAN terminal 20 is not in the communication mode (S101: No), the interference AP search unit 202 executes the process shown in step 100 again.

  When the wireless LAN terminal 20 is in the communication mode (S101: Yes), the interference AP search unit 202 refers to the wireless communication unit 204 and determines whether data is currently being transmitted / received (S102). When data is being transmitted / received (S102: Yes), the interference AP search unit 202 repeats step 102 until the current data transmission / reception is completed.

  When data is not being transmitted / received (S102: No), the data accumulation control unit 201 transmits a data accumulation request to the access point 30 via the wireless communication unit 204 (S103), and searches for interference APs (S104). . Then, the interference AP search unit 202 determines whether or not an interference AP is detected (S105). When the interference AP is not detected (S105: No), the data accumulation control unit 201 executes the process shown in step 107.

  When the interference AP is detected (S105: Yes), the interference AP notification unit 203 notifies the MAC point and the received electric field strength of the detected interference AP to the access point 30 to which the own wireless LAN terminal 20 belongs. (S106). Then, the data accumulation control unit 201 transmits a data accumulation cancellation request to the access point 30 via the wireless communication unit 204 (S107), and the interference AP search unit 202 executes the process shown in step 100 again.

  FIG. 6 is a flowchart showing an example of the operation of the access point 30 according to the first embodiment. For example, at a predetermined timing such as when the power is turned on, the access point 30 starts the processing shown in this flowchart.

  First, the interference AP information storage unit 302 determines whether or not the MAC address and reception field strength of the interference AP have been received via the wireless communication unit 305 (S200). When receiving the MAC address and reception field strength of the interference AP (S200: Yes), the interference AP information storage unit 302 determines whether or not the reception field strength received together with the MAC address is equal to or greater than a predetermined value (S201).

  If the received electric field strength is greater than or equal to the predetermined value (S201: Yes), the interference AP information storage unit 302 stores the received MAC address and executes the process shown in step 200 again. If the received electric field strength is less than the predetermined value (S201: No), the interference AP information storage unit 302 discards the received MAC address and executes the process shown in step 200 again.

  When the MAC address and the received electric field strength of the interference AP have not been received (S200: No), the data accumulation processing unit 301 determines whether a data accumulation request has been received (S204). When the data accumulation request is received (S204: Yes), the data accumulation processing unit 301 starts accumulation of data addressed to the wireless LAN terminal 20 that has transmitted the data accumulation request (S205), and the interference AP information storage unit 302 Performs the process shown in step 200 again.

  When the data accumulation request has not been received (S204: No), the data accumulation processing unit 301 determines whether a data accumulation cancellation request has been received (S206). When the data storage cancellation request is received (S206: Yes), the data storage processing unit 301 cancels the storage of the data addressed to the wireless LAN terminal 20 that has transmitted the data storage request, and the stored data is transferred to the wireless LAN. Transmitting to the terminal 20 (S207), the interference AP information storage unit 302 executes the process shown in step 200 again.

  When the data accumulation cancellation request has not been received (S206: No), the channel control unit 303 refers to the built-in timer and determines whether it is time to execute the channel review process (S208). If it is not time to execute the channel review process (S208: No), the interference AP information storage unit 302 executes the process shown in step 200 again.

  When it is time to execute the channel review process (S208: Yes), the channel control unit 303 refers to the interference AP information storage unit 302 and determines whether or not the MAC address of the interference AP is stored in the channel control unit 303. Is determined (S209). When the MAC address of the interfering AP is not stored in the channel control unit 303 (S209: No), the interfering AP information storage unit 302 executes the process shown in step 200 again.

  When the MAC address of the interfering AP is stored in the channel control unit 303 (S209: Yes), the channel control unit 303 determines whether the MAC address of the own access point 30 is stored in the interfering AP information storage unit 302. It is determined whether it is larger than the MAC address of the interfering AP (S210). When the MAC address of any interfering AP is larger than the own access point 30 (S210: No), the channel control unit 303 executes the process shown in step 212.

  When the MAC address of the own access point 30 is larger than the MAC address of any interfering AP stored in the interference AP information storage unit 302 (S210: Yes), the channel control unit 303 determines the channel used by the own access point 30. An instruction is issued to the wireless communication unit 305 to change (S211). Then, the channel control unit 303 deletes all the MAC addresses of the interfering APs in the interfering AP information storage unit 302 (S212), and the channel control unit 303 executes the process shown in step 212.

  The first embodiment of the present invention has been described above.

  As is clear from the above description, according to the access point 30 of the present embodiment, channel assignment with less interference between the plurality of access points 30 without affecting the communication performed by the subordinate wireless LAN terminal 20. Can be realized. In addition, each access point 30 controls the radio channel based on a report from the wireless LAN terminal 20 that is actually located in the area where the interference occurs, so that the access point 30 occurs in a place where the wireless LAN terminal 20 is not located. This interference is not subject to review of the radio channel. Therefore, channel assignment without interference can be realized with fewer types of radio channels.

  Next, a second embodiment of the present invention will be described with reference to the drawings. In addition to the first embodiment, the wireless LAN system 10 of the present embodiment performs a wireless channel review process in consideration of whether or not the interfering AP has a channel review function.

  FIG. 7 is a block diagram illustrating an example of a detailed functional configuration of the wireless LAN terminal 20 according to the second embodiment. The wireless LAN terminal 20 includes an operation mode management unit 200, a data accumulation control unit 201, an interference AP search unit 202, an interference AP notification unit 203, a wireless communication unit 204, and an AP function confirmation unit 210. Except for the points described below, in FIG. 7, the components denoted by the same reference numerals as those in FIG. 2 have the same or similar functions as those in FIG.

  When the interference AP search unit 202 detects an interference AP, the AP function confirmation unit 210 receives the MAC address and reception field strength of the interference AP. Then, the AP function confirmation unit 210 transmits a function confirmation request for determining whether or not the interference AP is the access point 30 having the channel review function to the interference AP via the wireless communication unit 204. . When the AP function confirmation unit 210 receives a function confirmation response including information indicating that the channel review function is provided from the interfering AP via the wireless communication unit 204, the AP function confirmation unit 210 accesses the channel AP having the channel review function. When it is determined that it is the point 30 and the function confirmation response is not received, it is determined that the interfering AP is the access point 30 that does not have the channel review function.

  Then, the AP function confirmation unit 210 sends to the interference AP notification unit 203 the MAC address of the interference AP, the received electric field strength from the interference AP, and information indicating that the interference AP has a channel review function. The interference AP notification unit 203 transmits the MAC address, received field strength, and presence / absence of the channel review function received from the AP function confirmation unit 210 to the access point 30 via the wireless communication unit 204.

  Note that the AP function confirmation unit 210 transmits / receives a function confirmation request and a function confirmation response to / from the interfering AP using a reserved area of the Type bit and the Sub Type bit in a control frame defined in IEEE 802.11, for example. In addition, the AP function confirmation unit 210 transmits a function confirmation request to the access point 30 after the belonging process with the access point 30, and if the access point 30 does not have a channel review function, the access function 30 While belonging to the point 30, the functions of the operation mode management unit 200, the data accumulation control unit 201, the interference AP search unit 202, and the interference AP notification unit 203 may be stopped.

  FIG. 8 is a block diagram illustrating an example of a detailed functional configuration of the access point 30 according to the second embodiment. The access point 30 includes a data accumulation processing unit 301, an interference AP information storage unit 302, a channel control unit 303, a wired communication unit 304, a wireless communication unit 305, and a function notification unit 310. Except for the points described below, in FIG. 8, the components denoted by the same reference numerals as those in FIG. 4 have the same or similar functions as those in FIG.

  When the function notification unit 310 receives a function confirmation request via the wireless communication unit 305, the function notification unit 310 returns a function confirmation response including a channel review function. The interference AP information storage unit 302 receives information indicating the presence / absence of the channel review function of the interference AP in addition to the MAC address and reception field strength of the interference AP, and the reception field strength is greater than or equal to a predetermined value. In addition, the MAC address of the interfering AP and the information indicating the presence / absence of the channel review function transmitted together with the received electric field strength are stored in a format as shown in FIG. 9, for example.

  The channel control unit 303 refers to the timer of the own access point 30 and refers to the interference AP information storage unit 302 for each predetermined period to determine whether or not the MAC address of the interference AP is stored. When the MAC address of the interfering AP is stored, the channel control unit 303 refers to the information indicating the presence / absence of the channel review function associated with each MAC address, and the MAC of the interfering AP without the channel review function. The address is replaced with a value (for example, 0) that is not determined as the access point 30 whose channel is to be changed.

  Then, the channel control unit 303 compares the MAC address of the own access point 30 with the MAC address of the interfering AP, and when the MAC address of the own access point 30 is larger, the channel control unit 303 performs wireless communication so as to change to another radio channel. The unit 305 is instructed.

  In this way, even if the wireless LAN system 10 includes the access point 30 that does not have the channel review function, the access points 30 having the channel review function are changed to the wireless channel that does not cause interference, so The point 30 can be set to a radio channel in which no interference occurs.

  In this embodiment, it is determined whether each wireless LAN terminal 20 is an access point 30 having a channel review function. However, as another form, the access point 30 is a MAC of the access point 30 having a channel review function. The address is stored as a list, and the MAC address of the interfering AP notified from the wireless LAN terminal 20 is compared with the list, and the access point 30 determines whether each interfering AP has a channel review function. You may make it determine.

  In this embodiment, the channel control unit 303 replaces the MAC address of the interfering AP that does not have the channel review function with 0. However, as another form, the interference AP information storage unit 302 does not have the channel review function. The MAC address of the interfering AP and the received electric field strength may be discarded without being stored.

  FIG. 10 is a flowchart showing an example of the operation of the wireless LAN terminal 20 according to the second embodiment. Except for the points described below, in FIG. 10, the processes denoted by the same reference numerals as those in FIG. 5 are the same as or similar to the processes in FIG.

  When the interference AP is detected (S105: Yes), the AP function confirmation unit 210 receives the MAC address and the received electric field strength of the interference AP from the interference AP search unit 202. Then, the AP function confirmation unit 210 transmits a function confirmation request for determining whether or not the interference AP is the access point 30 having the channel review function to the interference AP via the wireless communication unit 204. .

  When the AP function confirmation unit 210 receives a function confirmation response from the interfering AP via the wireless communication unit 204, the AP function confirmation unit 210 determines that the interference AP is the access point 30 having the channel review function and receives the function confirmation response. If not (for example, timeout), it is determined that the interfering AP is an access point 30 that does not have a channel review function. Then, the AP function confirmation unit 210 sends the interference AP MAC address, the received electric field strength from the interference AP, and information indicating whether or not the interference AP has a channel review function to the interference AP notification unit 203 (S110). ).

  The interference AP notification unit 203 notifies the access point 30 to which the own wireless LAN terminal 20 belongs of the MAC address, received field strength, and presence / absence of the channel review function received from the AP function confirmation unit 210 (S106).

  FIG. 11 is a flowchart showing an example of the operation of the access point 30 according to the second embodiment. Except for the points described below, in FIG. 11, the processes denoted by the same reference numerals as those in FIG. 6 are the same as or similar to the processes in FIG.

  When the MAC address of the interference AP is stored in the channel control unit 303 (S209: Yes), the channel control unit 303 refers to the information regarding the presence / absence of the channel review function associated with each MAC address. The MAC address of the interfering AP having no channel review function is replaced with 0 (S220). Then, the channel control unit 303 determines whether or not the MAC address of the own access point 30 is larger than the MAC address of any interference AP stored in the interference AP information storage unit 302 (S210). The subsequent processing is as described in FIG.

  When it is not time to execute the channel review process (S208: No), or when the MAC address of the interference AP is not stored in the channel control unit 303 (S209: No), the function notification unit 310 is a wireless communication unit. It is determined whether a function confirmation request has been received via 305 (S221). When the function confirmation request is not received (S221: No), the interference AP information storage unit 302 executes the process shown in Step 200 again. When the function confirmation request is received (S221: Yes), the function notification unit 310 returns a function confirmation response including that the channel review function is provided (S222), and the interference AP information storage unit 302 again shows in step 200. Execute the process.

  The second embodiment of the present invention has been described above.

  In addition, this invention is not limited to each above-mentioned embodiment, Many deformation | transformation are possible within the range of the summary.

  For example, in the above-described embodiment, the wireless channel of the access point 30 having a large MAC address is changed. However, the wireless channel of the access point 30 having a small MAC address may be changed. Further, although the access point 30 for changing the channel is determined based on the size of the MAC address, the present invention is not limited to this, and the channel is determined based on the size of the IP address or the identification number assigned to each access point 30 in advance. You may determine the access point 30 which changes.

  In the above-described embodiment, the access point 30 accumulates communication data addressed to the wireless LAN terminal 20 that is executing the search process during the search process of the interference AP, but the present invention is not limited to this. That is, since each wireless LAN terminal 20 searches for an interference AP that uses the same wireless channel as the access point to which it belongs, the access point 30 to which the wireless LAN terminal 20 belongs also during the search process. The original data communication can be continued. Therefore, in the above embodiment, the wireless LAN system 10 that does not include the data storage control unit 201 in the wireless LAN terminal 20 and the data storage processing unit 301 in the access point 30 is also included in the scope of the present invention.

  In the above-described embodiment, each wireless LAN terminal 20 searches for another access point 30 using the same wireless channel as the access point 30 to which it belongs, All radio channels that can be used by the access point 30 may be scanned to search for radio waves from other access points 30 on the respective radio channels. In this case, the wireless LAN terminal 20 reports the identification information of the access point 30 using the wireless channel, the received electric field strength, and the like to the access point 30 in association with the frequency information of each wireless channel. And the access point 30 which received the said report determines the optimal frequency channel from the said report content, and changes to the determined channel.

  Further, the reports received from the subordinate wireless LAN terminals 20 are shared among the plurality of access points 30 with each other via the wired LAN 11, and interference between the plurality of access points 30 is determined according to a predetermined rule. An optimal radio channel that does not occur may be determined.

1 is a system configuration diagram showing an example of a configuration of a wireless LAN system 10 according to an embodiment of the present invention. It is a block diagram which shows an example of a detailed functional structure of the wireless LAN terminal 20 which concerns on 1st Embodiment. 4 is a timing chart for explaining the search timing of an interference AP by the wireless LAN terminal 20. 2 is a block diagram illustrating an example of a detailed functional configuration of an access point 30 according to the first embodiment. FIG. 4 is a flowchart illustrating an example of an operation of the wireless LAN terminal 20 according to the first embodiment. It is a flowchart which shows an example of operation | movement of the access point 30 which concerns on 1st Embodiment. It is a block diagram which shows an example of a detailed functional structure of the wireless LAN terminal 20 which concerns on 2nd Embodiment. It is a block diagram which shows an example of a detailed functional structure of the access point 30 which concerns on 2nd Embodiment. An example of the structure of the data stored in the interference AP information storage unit 302 according to the second embodiment is shown. 6 is a flowchart illustrating an example of an operation of the wireless LAN terminal 20 according to the second embodiment. It is a flowchart which shows an example of operation | movement of the access point 30 which concerns on 2nd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Wireless LAN system, 11 ... Wired LAN, 12 ... Service area, 20 ... Wireless LAN terminal, 200 ... Operation mode management part, 201 ... Data accumulation control part, 202. .. Interference AP search unit, 203 ... Interference AP notification unit, 204, 305 ... Wireless communication unit, 210 ... AP function confirmation unit, 302 ... Interference AP information storage unit, 30 ... Access Point, 301 ... Data storage processing unit, 3020 ... MAC address, 3021 ... Presence / absence of channel review function, 303 ... Channel control unit, 304 ... Wired communication unit, 310 ... Function notification Part, 40, 41, 42, 43 ... timing chart, 400, 401, 402, 403 ... state, 420, 421, 422, 423 ... timing, 430, 43 ... search process

Claims (8)

An access point having wireless communication means for performing wireless communication based on a wireless LAN with a wireless LAN terminal,
Received when the identification information of the interference AP that is another access point using the same wireless channel as the wireless channel used by itself is received from the wireless LAN terminal through the wireless communication means. Interference AP information storage means for storing identification information of the interference AP;
With reference to the interference AP information storage means, when the identification information of the interference AP is stored in the interference AP information storage means, it is stored in the identification information of the own access point and the interference AP information storage means. An access point comprising: channel control means for controlling a wireless channel used by the AP-side wireless communication means based on the identification information of the interfering AP. The access point according to claim 1,
The interference AP information storage means includes:
As the identification information of the interference AP, an identification number assigned in advance to each of the access points is received and stored via the wireless communication means,
The channel control means includes
Compare the value of the identification number of the own access point with the value of the identification number of the interference AP stored in the interference AP information storage means,
When the value of the identification number of its own access point is larger or smaller than the value of the identification number of any interfering AP stored in the interference AP information storage unit, the AP side wireless communication unit uses Changing the wireless channel,
An access point characterized by The access point according to claim 1 or 2,
The channel control means determines whether or not to change the radio channel used by the AP-side radio communication means with reference to the interference AP information storage means for each predetermined period. And an access point. The access point according to any one of claims 1 to 3,
It further comprises an installation time management means for managing the installation time, which is the passage of time since newly installed, when an input indicating that it has been newly installed is received from the outside.
The channel control means includes
Time interval for performing channel review processing with reference to the interference AP information storage means to determine whether or not to change the radio channel used by the AP-side radio communication means with reference to the installation time management means The access point is lengthened as the installation time elapses. The access point according to any one of claims 1 to 3,
Further comprising an affiliated unit management means for managing the affiliated number that is the number of the wireless LAN terminals belonging to the own access point,
The channel control means includes
A channel review process for determining whether or not to change the radio channel used by the AP-side radio communication unit with reference to the interference AP information storage unit when the number of belongings is less than a predetermined number At predetermined time intervals,
An access point, wherein when the number of belongings is equal to or more than a predetermined number, the channel review process is executed at a time interval shorter than the predetermined time interval. The access point according to any one of claims 1 to 5,
The interference AP information storage means includes:
A received electric field strength from the interfering AP is received via the wireless communication means together with the identification information of the interfering AP, and is transmitted together with the received electric field strength when the received received electric field strength is a predetermined value or more. The identification information of the interfered AP is stored. The access point according to any one of claims 1 to 6,
When a data storage request for requesting storage of data transmitted to the wireless LAN terminal is received from the wireless LAN terminal during a period of searching for the interference AP, the storage of data addressed to the wireless LAN terminal is performed. Start,
When the wireless LAN terminal receives the data storage cancellation request that cancels the storage of the data addressed to the wireless LAN terminal and transmits the stored data to the wireless LAN terminal. An access point, further comprising data storage processing means for transmitting data stored in response to a storage request to a corresponding wireless LAN terminal via the wireless communication means. A wireless LAN system including a wireless LAN terminal and an access point,
The wireless LAN terminal is
A terminal-side wireless communication means for performing wireless communication based on a wireless LAN with the access point;
An interference AP search means for searching for an interference AP that is another access point that uses the same radio channel as the radio channel used by the access point to which it currently belongs;
An interference AP notification means for notifying the identification point of the interference AP to the access point to which it belongs through the terminal side wireless communication means when the interference AP is detected by the interference AP search means; Have
The access point is
AP-side wireless communication means for performing wireless communication based on the wireless LAN terminal and the wireless LAN;
Interference AP information storage means for storing identification information of the interference AP notified from the wireless LAN terminal via the AP side wireless communication means;
With reference to the interference AP information storage means, when the identification information of the interference AP is stored in the interference AP information storage means, it is stored in the identification information of the own access point and the interference AP information storage means. A wireless LAN system comprising: channel control means for controlling a wireless channel used by the AP-side wireless communication means based on identification information of the interfering AP.

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