JP2006074201A - Access point, mobile terminal, radio lan system and communication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio LAN system 10 for surely acquiring missing communication data by temporary interruption of communication between an access point 100 and a mobile terminal 200. <P>SOLUTION: Communication data for the mobile terminal 200 is received, transmission serial numbers are allocated to received communication data, communication data is transmitted to the mobile terminal 200 with the allocated transmission serial numbers and communication data transmitted in accordance with the allocated transmission serial numbers is stored in a frame storage part 110. When a re-transmission request including the transmission serial numbers is received from the mobile terminal 200, communication data corresponding to the transmission serial numbers subsequent to the transmission serial numbers included in the retransmission request is read from the frame storage part 110 and it is transmitted to the mobile terminal 200 with the transmission serial numbers. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technology for performing communication based on a wireless LAN standard.

  Conventionally, wireless LANs that perform communication based on standards such as IEEE 802.11a and IEEE 802.11b are known. A mobile terminal in a wireless LAN belongs to an access point and communicates with other IP devices via the access point. In addition, when a plurality of access points are provided at different locations, the mobile terminal can move while continuing communication by performing roaming to switch from communication with one access point to communication with the other access point. it can.

However, when roaming is performed, it takes time for the roaming process, and therefore a frame transmitted to the mobile terminal during the roaming process may not reach the mobile terminal. For this reason, there are cases where traffic increases due to a request for retransmission from the IP device of the transmission source, frame delay due to retransmission after waiting for the timeout of the reception confirmation response, and the like. In order to avoid this, a technique for notifying a transmission source of a communication disabled period when it is known that roaming processing is performed is known (for example, see Patent Document 1).
JP 2003-209890 A

  However, the point in time when roaming processing is known is often when, for example, it is detected that a sufficiently strong radio wave cannot be received from the currently communicating access point, and the access point cannot communicate. In some cases, information indicating the period cannot be received from the mobile terminal. In addition, when the mobile terminal starts roaming processing before the mobile terminal finishes receiving the frame transmitted by the transmission source IP device immediately before receiving the information indicating the communication disabled period, the mobile terminal starts roaming processing. In some cases, the mobile terminal cannot receive a frame from a frame received immediately before the transmission to a frame transmitted by the transmission source IP device immediately before receiving the information indicating the communication disabled period.

  Therefore, an object of the present invention is to provide a wireless LAN system that can solve the above-described problems. For example, in a wireless LAN system, it is possible to suppress loss of communication data that occurs due to roaming processing or the like.

  In order to solve the above problems, the access point of the present invention assigns a serial number to each communication data addressed to a mobile terminal belonging to the access point, and assigns the assigned serial number and the communication data corresponding to the serial number to the mobile terminal. And the serial number of the transmitted communication data is stored in association with the transmitted communication data.

  For example, an access point that relays communication data transmitted / received by a mobile terminal belonging to itself, and receives data addressed to the terminal that is communication data addressed to the mobile terminal from another mobile terminal or another access point, A transmission number assigning unit for assigning a transmission serial number to each of the data addressed to the terminal, a data transmitting unit for transmitting the data addressed to the terminal corresponding to the transmission serial number to the mobile terminal together with the transmission serial number assigned by the transmission number assigning unit; A transmission data storage unit for storing data addressed to the terminal in association with the transmission serial number allocated by the transmission number allocation unit, and a retransmission request including a transmission serial number corresponding to the data addressed to the terminal to be retransmitted from the mobile terminal In this case, the data transmission unit is connected to the terminal corresponding to the transmission serial number after the transmission serial number included in the retransmission request. First retransmission control for reading addressed data from the transmission data storage unit and transmitting the read data addressed to the terminal as retransmission data together with a transmission serial number corresponding to the retransmission data to the mobile terminal that transmitted the retransmission request An access point is provided.

  According to the present invention, a mobile terminal can reliably acquire communication data that has been lost due to a temporary interruption of communication with an access point without making a retransmission request to a source IP device.

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

  FIG. 1 shows a configuration of a wireless LAN system 10 according to the first embodiment of the present invention. The wireless LAN system 10 includes an access point 100 and a plurality of mobile terminals 200-1 and 200-2. Cover area 300 is a range in which radio waves with sufficient strength to communicate with mobile terminal 200 reach from access point 100.

  The mobile terminals 200-1 and 200-2 are terminals that perform wireless communication, and perform affiliation processing with the nearest access point 100 based on a protocol defined in the known IEEE802.11a or IEEE802.11b. And communicate with another mobile terminal 200 via the access point 100 to which it belongs.

  The access point 100 belongs to the mobile terminal 200 in its own cover area 300, transfers the communication frame transmitted by the mobile terminal 200 to another mobile terminal 200 according to the destination included in the communication frame, and moves A communication frame addressed to the terminal 200 is received from another mobile terminal 200 and transferred to the mobile terminal 200. In this way, the plurality of mobile terminals 200-1 and 200-2 can communicate with each other via the access point 100.

  The access point 100 may be connected to the Internet via a cable or the like. Thereby, each mobile terminal 200 can communicate with a communication device connected to the Internet via the access point 100.

  FIG. 2 is a block diagram showing a configuration of the access point 100 according to the first embodiment. The access point 100 includes a routing table 102, a retransmission control unit 104, a frame transmission unit 106, a number assignment unit 108, and a frame storage unit 110. In the present embodiment, a communication frame transmitted and received between the access point 100 and the mobile terminal 200 is transmitted from the mobile terminal 200 to the access point 100, an uplink frame having communication data, and transmitted from the access point 100 to the mobile terminal 200 for communication. A downlink frame having data and a control frame transmitted from the mobile terminal 200 to the access point 100 and including a retransmission request are included.

  The routing table 102 is referred to when the received communication frame is transferred, and stores identification information of the mobile terminal 200 belonging to the access point 100 and identification information of other access points 100 that can communicate directly. The number assignment unit 108 extracts communication data from the uplink frame received from the mobile terminal 200, assigns a transmission serial number to each of the extracted communication data, and transmits the communication data together with the assigned transmission serial number to the frame transmission unit 106 and the frame. Send to storage 110. The frame storage unit 110 stores the communication data received from the number assignment unit 108 in association with the assigned transmission serial number. The frame transmission unit 106 refers to the routing table 102 and the destination included in the uplink frame, and transmits the communication data received from the number assignment unit 108 to the mobile terminal 200 together with the assigned transmission serial number.

  The retransmission control unit 104 receives a control frame from the mobile terminal 200 and notifies the frame transmission unit 106 of a transmission serial number included in the received control frame. Upon receiving notification of the transmission serial number from the retransmission control unit 104, the frame transmission unit 106 sequentially reads each communication data corresponding to each number after the received transmission serial number from the frame storage unit 110, and refers to the routing table 102 Then, the read communication data is transmitted to the mobile terminal 200 together with the corresponding transmission serial number.

  FIG. 3 is a block diagram showing a configuration of the mobile terminal 200 according to the first embodiment. The mobile terminal 200 includes a frame reception unit 202, a reception number storage unit 204, a retransmission request unit 206, a communication control unit 208, and a transmission unit 209. The frame reception unit 202 receives a downlink frame from the access point 100 and stores a transmission serial number included in the received downlink frame in the reception number storage unit 204. The communication control unit 208 manages communication of the mobile terminal 200 based on a protocol defined in IEEE802.11a, IEEE802.11b, etc., and transmits an uplink frame including communication data to the access point 100 to the transmission unit 209. Let In addition, the communication control unit 208 again after the mobile terminal 200 moves out of the cover area 300 of the access point 100 or after it becomes unable to receive a sufficiently strong radio wave from the access point 100 due to a shielding object or the like. When a sufficiently strong radio wave can be received from the access point 100, that is, when returning from outside the service area of the access point 100, the fact is notified to the retransmission request unit 206.

  When the retransmission request unit 206 receives a notification from the communication control unit 208 that it has returned from the service area, the retransmission request unit 206 refers to the reception number storage unit 204 to read and read the transmission serial number corresponding to the communication data received last. A control frame including the transmission serial number is transmitted to the access point 100.

  As described above, when communication with the access point 100 is restored after the communication with the access point 100 is temporarily disconnected, the mobile terminal 200 accesses the control frame including the last received transmission serial number. By transmitting to the point 100, the access point 100 is made to retransmit the communication data corresponding to each number after the transmission serial number corresponding to the communication data received last. Thereby, it is possible to reliably receive the communication data that is lost due to the temporary failure to receive a sufficiently strong radio wave from the access point 100. Furthermore, since the lost communication data can be acquired without transmitting a retransmission request to the transmission source that transmitted the communication data, an increase in traffic between the access point 100 and the communication data transmission source can be suppressed. In addition, it is possible to reduce the delay time generated by making a retransmission request after waiting for a timeout.

  FIG. 4 shows an exemplary frame structure of the communication frame 400. The communication frame 400 has a frame configuration defined in IEEE 802.11a, IEEE 802.11b, or the like, and includes a MAC header 402, a frame body 404, and an FCS 406. The MAC header 402 has a frame control 408, a duration / ID 410, an address 412, an address 414, an address 416, a sequence control 418, and an address 420. Frame Control 408 includes Protocol Version 422, Type 424, Subtype 426, To DS 428, From DS 430, More Flag 432, Retry 434, Pwr Mgt 436, More Data 438, and WEP 440, WEP 440, and WEP 440.

  In the present embodiment, the upstream frame, the downstream frame, and the control frame are identified by the value of the vendor option in Type 424 and Subtype 426, respectively.

  FIG. 5 shows an example of the configuration of the control frame. Frame Body 404 in the control frame has a transmission serial number 450. By receiving the transmission serial number 450 included in the communication frame 400 shown in this figure from the mobile terminal 200, the access point 100 detects the transmission serial number corresponding to the communication data to be retransmitted, and the communication data to be retransmitted. The communication data corresponding to the transmission serial number after the transmission serial number corresponding to can be transmitted to the mobile terminal 200.

  FIG. 6 shows an example of the structure of the downstream frame. Frame Body 404 in the data frame has a transmission serial number 452 and communication data 454. By receiving the transmission serial number 452 included in the communication frame 400 shown in the figure, the mobile terminal 200 can hold the transmission serial number of the received communication data. As a result, when the mobile terminal 200 returns to the outside of the service area, the mobile terminal 200 transmits the control frame having the transmission serial number corresponding to the newly received new data to the access point 100, thereby transmitting the communication data to be retransmitted to the access point 100. Can be notified. In the present embodiment, the upstream frame has a known frame configuration defined in IEEE 802.11a, IEEE 802.11b, or the like.

  FIG. 7 shows an example of the structure of data stored in the frame storage unit 110. The frame storage unit 110 stores the communication data 1102 in association with the transmission serial number 1100. The transmission serial number 1100 is a continuous number, and a number larger by, for example, 1 than the previously received communication data is assigned to the communication data received later by the number assigning unit 108. When the transmission serial number is notified from the retransmission control unit 104, the frame transmission unit 106 can detect the transmission serial number to be retransmitted to the mobile terminal 200 by referring to the frame storage unit 110.

  For example, in this figure, when the communication between the mobile terminal 200 and the access point 100 is disconnected after receiving the transmission serial number up to 0004, the mobile terminal 200 may return after the communication with the access point 100 is restored. Using the control frame, the access point 100 is notified of the transmission serial number of 0004. The frame transmission unit 106 of the access point 100 reads out the transmission serial number following the transmission serial number included in the received control frame, that is, the communication data corresponding to 0005 from the frame storage unit 110, and downloads the downstream frame together with the transmission serial number of 0005. To the mobile terminal 200. Then, the frame transmission unit 106 transmits the communication data stored in the frame storage unit 110 and corresponding to the numbers after the transmission serial number of 0005, and then received from the number assignment unit 108. Data and a transmission serial number are transmitted to the mobile terminal 200.

  When the communication data is stored together with the corresponding transmission serial number, the frame storage unit 110 may further store the time when the communication data is stored in association with the communication data. Then, the frame storage unit 110 may delete the communication data that has passed for a predetermined time together with the corresponding transmission serial data. Further, when the frame transmission unit 106 reads out communication data from the frame storage unit 110 in response to the retransmission request and transmits it, the frame transmission unit 106 is based on the difference between the time when the communication data is stored and the time when the communication data is transmitted. Alternatively, the delay time of the communication data may be calculated, and the calculated delay time may be transmitted to the mobile terminal 200 together with the communication data and the transmission serial number.

  FIG. 8 is a flowchart showing the operation of the access point 100 according to the first embodiment. The operation of the access point 100 shown in this flowchart is started by causing the mobile terminal 200 to belong by a known belonging process. First, the number assignment unit 108 determines whether or not an uplink frame has been received from the mobile terminal 200 (S100). If no uplink frame has been received (S100: No), the retransmission control unit 104 determines whether a control frame has been received (S108). If the control frame has not been received (S108: No), the processing shown in step 100 is performed again.

  In step 100, when an uplink frame is received (S100: Yes), the number assignment unit 108 extracts communication data from the received uplink frame and assigns a transmission serial number to the extracted communication data (S102). Then, the frame storage unit 110 stores the communication data assigned the transmission serial number by the number assignment unit 108 in association with the assigned transmission serial number (S104). Then, the frame transmitting unit 106 transmits the communication data assigned the transmission serial number by the number assigning unit 108 to the mobile terminal 200 as a downlink frame together with the assigned transmission serial number (S106). Process.

  In step 108, when the control frame is received (S108: Yes), the retransmission control unit 104 extracts the transmission serial number from the received control frame and sends it to the frame transmission unit 106. Then, the frame transmission unit 106 reads communication data corresponding to the next transmission serial number from the frame storage unit 110 following the transmission serial number received from the retransmission control unit 104, and reads the read communication data together with the corresponding transmission serial number. A downlink frame is transmitted to the mobile terminal 200 (S110).

  Next, whether or not the frame transmission unit 106 has transmitted all the communication data stored in the frame storage unit 110 and corresponding to the transmission serial number after the transmission serial number received from the retransmission control unit 104 to the mobile terminal 200. Is determined (S112). If all the communication data corresponding to the transmission serial numbers after the received transmission serial number have not been transmitted (S112: No), the processing shown in step 110 is performed again. When all the communication data corresponding to the transmission serial numbers after the received transmission serial number have been transmitted (S112: Yes), the processing shown in step 100 is performed again.

  FIG. 9 is a flowchart showing the operation of the mobile terminal 200 according to the first embodiment. By belonging to the nearest access point 100 by a known belonging process, the operation of the mobile terminal 200 shown in this flowchart is started. First, the frame receiving unit 202 determines whether or not a downlink frame has been received (S200). When the downlink frame is received (S200: Yes), the frame reception unit 202 extracts the transmission serial number from the received downlink frame, stores it in the reception number storage unit 204 (S202), and performs the process shown in step 200 again. .

  In step 200, when the downlink frame is not received (S200: No), the communication control unit 208 determines whether or not the access point 100 has returned from outside the service area (S204). When it is not out of service area (S204: No), the frame reception unit 202 performs the process shown in Step 200 again.

  In step 204, when returning from out-of-service (S204: Yes), the retransmission request unit 206 reads the transmission serial number corresponding to the communication data last received from the access point 100 from the reception number storage unit 204, and the read transmission serial number Is transmitted to the access point 100 (S206), and the process shown in step 200 is performed again.

  The first embodiment of the present invention has been described above. As is clear from the above description, according to the wireless LAN system 10 of the present embodiment, communication data that is lost due to a temporary interruption of communication between the access point 100 and the mobile terminal 200 is retransmitted to the source IP device. It can be acquired reliably without request.

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

  Next, a second embodiment of the present invention will be described.

  FIG. 10 is a block diagram showing a configuration of the access point 100 according to the second embodiment. Except for the points described below, in FIG. 10, the components denoted by the same reference numerals as those in FIG. 2 have the same or similar functions as those in FIG. The access point 100 further includes a frame reception unit 112 and a serial number storage unit 114. The upstream frame of the present embodiment has a frame configuration including a terminal-side transmission serial number in place of the transmission serial number 452 in the frame configuration shown in FIG.

  The serial number storage unit 114 stores the terminal-side transmission serial number included in the uplink frame received from the mobile terminal 200. The frame reception unit 112 receives the uplink frame from the mobile terminal 200, extracts the terminal-side transmission serial number from the received uplink frame, refers to the serial number storage unit 114, and the extracted terminal-side transmission serial number is already the serial number When stored in the storage unit 114, the received upstream frame is discarded. When the terminal-side transmission serial number of the received uplink frame is not stored in the serial number storage unit 114, the frame reception unit 112 stores the terminal-side transmission serial number extracted from the uplink frame in the serial number storage unit 114. The communication data is extracted from the received upstream frame and sent to the number assignment unit 108. Thereby, the access point 100 can transfer only one communication data of the same communication data to another mobile terminal 200 when the same communication data is received.

  FIG. 11 is a block diagram showing the configuration of the mobile terminal 200 according to the second embodiment. Except for the points described below, in FIG. 11, the components denoted by the same reference numerals as those in FIG. 3 have the same or similar functions as those in FIG. The mobile terminal 200 includes a frame storage unit 210, a frame transmission unit 212, a number assignment unit 214, and a transmission frame management unit 216 instead of the transmission unit 209. The transmission frame management unit 216 generates communication data to be transmitted by the mobile terminal 200 and a transmission destination of the communication data. The number assignment unit 214 assigns a unique terminal-side transmission serial number to each of the communication data generated by the transmission frame management unit 216, and transmits the communication data together with the assigned terminal-side transmission serial number to the frame storage unit 210 and the frame transmission unit 212. Send to.

  The frame storage unit 210 stores the communication data received from the number assignment unit 214 in association with the assigned terminal-side transmission serial number. The frame transmission unit 212 generates an uplink frame based on the terminal-side transmission serial number and communication data received from the number assignment unit 214, and transmits the uplink frame to the access point 100 to which the mobile terminal 200 belongs.

  When the communication control unit 208 detects out-of-service return or the like, the communication control unit 208 notifies the retransmission request unit 206 and the frame transmission unit 212 to that effect. When receiving the notification of out-of-service return from the communication control unit 208, the frame transmission unit 212 sets the terminal-side transmission serial number a predetermined number before the terminal-side transmission serial number corresponding to the downlink frame transmitted immediately before receiving the notification. calculate. Then, the frame transmission unit 212 reads the communication data after the calculated terminal-side transmission serial number from the frame storage unit 210 and transmits the read communication data to the access point 100 together with the corresponding terminal-side transmission serial number.

  As described above, when communication with the access point 100 is restored after the communication with the access point 100 is temporarily disconnected, the mobile terminal 200 uses, for example, 10 from the terminal-side transmission serial number transmitted last. By transmitting an uplink frame corresponding to the terminal-side transmission serial number after a predetermined number of times before, etc., to the access point 100, communication data lost while communication with the access point 100 is temporarily disconnected Retransmit to access point 100. This makes it possible to reliably receive communication data that has been lost due to transmission while the access point 100 cannot temporarily receive a sufficiently strong radio wave after communication with the access point 100 is restored. . Furthermore, since the lost communication data can be retransmitted without receiving a retransmission request from the communication device that is the communication data transmission destination, an increase in traffic between the access point 100 and the communication data transmission destination can be suppressed. And delay time associated with retransmission can be shortened.

  FIG. 12 is a flowchart showing an example of the operation of the access point 100 when receiving an uplink frame. The operation of the access point 100 shown in this flowchart is started by causing the mobile terminal 200 to belong by a known belonging process. First, the frame receiving unit 112 determines whether or not an uplink frame has been received from the mobile terminal 200 (S300). When the uplink frame is not received (S300: No), the frame reception unit 112 repeats step 300 until the uplink frame is received.

  In step 300, when the uplink frame is received from the mobile terminal 200 (S300: Yes), the frame receiving unit 112 extracts the terminal-side transmission serial number and communication data from the received uplink frame. Then, the frame reception unit 112 refers to the serial number storage unit 114 and determines whether or not the extracted terminal-side transmission serial number is already stored in the serial number storage unit 114 (S302). When the terminal-side transmission serial number is already stored in the serial number storage unit 114 (S302: Yes), the frame reception unit 112 discards the terminal-side transmission serial number and communication data extracted from the received uplink frame (S306). ) The process shown in step 300 is performed again.

  In step 302, when the terminal-side transmission serial number is not stored in the serial number storage unit 114 (S302: No), the frame reception unit 112 stores the extracted terminal-side transmission serial number in the serial number storage unit 114 ( In step S304, the extracted communication data is sent to the number assignment unit 108, and the process shown in step 300 is performed again.

  FIG. 13 is a flowchart showing an example of the operation of the mobile terminal 200 when transmitting an uplink frame. By belonging to the nearest access point 100 by a known belonging process, the operation of the mobile terminal 200 shown in this flowchart is started. The number assignment unit 214 determines whether or not the received communication data should be transmitted by determining whether or not the communication data and the transmission destination are received from the transmission frame management unit 216 (S400). When the communication data is not transmitted (S400: No), the communication control unit 208 determines whether or not the service area has returned from the service area (S408). If it is not determined that the service is out of service (S408: No), the number assigning unit 214 performs the process shown in Step 400 again.

  In step 400, when communication data is transmitted (S400: Yes), the number assignment unit 214 assigns a terminal-side transmission serial number to each communication data received from the transmission frame management unit 216 (S402), and the assigned terminal. The communication data is sent to the frame storage unit 210 and the frame transmission unit 212 together with the side transmission serial number. Then, the frame storage unit 210 stores the communication data received from the number assignment unit 214 in association with the terminal-side transmission serial number (S404). Then, the frame transmission unit 212 generates an uplink frame including the communication data received from the number assignment unit 214 and the terminal-side transmission serial number, and transmits the generated uplink frame to the access point 100 to which it belongs (S406). The process shown in step 400 is performed again.

  In step 408, when the communication control unit 208 determines that the service is out of service (S408: Yes), the communication control unit 208 notifies the frame transmission unit 212 to that effect. Then, the frame transmission unit 212 refers to the frame storage unit 210 and reads the terminal-side transmission serial number corresponding to the communication data last transmitted to the access point 100 (S410). Then, the frame transmission unit 212 resumes transmission of communication data from the communication data corresponding to the terminal-side transmission serial number that is a predetermined number before the terminal-side transmission serial number corresponding to the communication data transmitted last (S412). Then, the frame transmission unit 212 reads all the communication data after the terminal-side transmission serial number corresponding to the terminal-side transmission serial number corresponding to the last transmitted communication data from the frame storage unit 210 and transmits it to the access point 100. It is determined whether or not (S414). When all communication data after the terminal-side transmission serial number corresponding to the terminal-side transmission serial number corresponding to the last transmitted communication data has not been transmitted (S414: No), the processing shown in step 412 is performed again. . When all communication data after the terminal-side transmission serial number corresponding to the terminal-side transmission serial number corresponding to the last transmitted communication data has been transmitted (S414: Yes), the processing shown in step 400 is performed again.

  The second embodiment of the present invention has been described above. Also in this embodiment, the mobile terminal 200 on the reception side can reliably acquire the communication data that is lost due to the temporary interruption of communication between the access point 100 and the mobile terminal 200 on the transmission side.

  Next, a third embodiment of the present invention will be described.

  FIG. 14 shows a configuration of a wireless LAN system 10 according to the third embodiment. In the present embodiment, the wireless LAN system 10 includes a plurality of access points 100-1, 100-2, and 100-3, and a plurality of mobile terminals 200-1 and 200-2. Access points 100-1, 100-2, and 100-3 have cover areas 300-1, 300-2, and 300-3, respectively.

  In the initial state, the mobile terminal 200-1 belongs to the access point 100-1, and the mobile terminal 200-2 belongs to the access point 100-2. When the mobile terminal 200-1 transmits an uplink frame addressed to the mobile terminal 200-2 to the access point 100-1, the access point 100-1 refers to its own routing table and the uplink address addressed to the mobile terminal 200-2. The frame is transferred to the access point 100-2. Then, the access point 100-2 extracts communication data from the uplink frame received from the access point 100-1, assigns a transmission serial number to the extracted communication data, generates a downlink frame from the communication data and the transmission serial number, The generated downlink frame is transmitted to the mobile terminal 200-2. Thereby, the mobile terminal 200-2 can receive the communication data transmitted by the mobile terminal 200-1. In the present embodiment, with the configuration described later, when the mobile terminal 200-2 roams from the access point 100-2 to the access point 100-3, the mobile terminal 200-2 moves communication data lost during roaming. It can be acquired without requesting retransmission to the terminal 200-1.

  FIG. 15 is a block diagram showing a configuration of the access point 100 according to the third embodiment. Except for the points described below, in FIG. 15, the configuration denoted by the same reference numeral as in FIG. 2 has the same or similar function as the configuration in FIG. Access point 100 further includes a retransmission processing unit 120 and a retransmission instruction unit 122. The retransmission instruction unit 122 receives a control frame including a retransmission request addressed to another access point 100 from the mobile terminal 200, refers to the routing table 102, and transmits the control frame to the access point 100 according to the destination of the received control frame. Forward. Further, when the retransmission instruction unit 122 transfers a control frame addressed to another access point 100, the retransmission instruction unit 122 notifies the number assignment unit 108 to that effect. When the control frame transfer notification is received from the retransmission instruction unit 122, the number assignment unit 108 receives and transmits an uplink frame addressed to the mobile terminal 200 belonging to itself until receiving a number assignment permission from the retransmission processing unit 120. Store in buffer without assigning serial number. The retransmission control unit 104 receives a control frame from the retransmission instruction unit 122 of another access point 100 in addition to the mobile terminal 200 belonging to itself. Then, retransmission control section 104 notifies frame transmission section 106 of the transmission serial number included in the received control frame.

  When receiving the notification of the transmission serial number from the retransmission control unit 104, the frame transmission unit 106 reads out communication data corresponding to the number next to the received transmission serial number from the frame storage unit 110, and refers to the routing table 102. The read communication data is transmitted to the mobile terminal 200 or other access point 100 that has transmitted the control frame including the retransmission request together with the corresponding transmission serial number. When transmitting communication data read from the frame storage unit 110 in response to a control frame from another access point 100 to the other access point 100, the frame transmission unit 106 is included in the received control frame. When transmission of all communication data corresponding to the transmission serial number stored in the frame storage unit 110 after the transmission serial number has been completed, transmission completion information indicating transmission completion is sent to the other access point 100. Send.

  The retransmission processing unit 120 receives the downlink frame transmitted from the frame transmission unit 106 of the other access point 100 in response to the control frame including the retransmission request, and the received downlink frame belongs to the mobile terminal 200 belonging to itself. Send to. When the retransmission processing unit 120 receives the transmission completion information from the frame transmission unit 106 of the other access point 100, the retransmission processing unit 120 transmits a number allocation permission for permitting the transmission serial number allocation to the number allocation unit 108.

  FIG. 16 is a flowchart showing the operation of the access point 100 according to the third embodiment. The operation of the access point 100 shown in this flowchart is started by causing the mobile terminal 200 to belong by a known belonging process. First, the number assignment unit 108 determines whether or not an uplink frame has been received from the mobile terminal 200 (S500). If no uplink frame has been received (S500: No), the retransmission instruction unit 122 determines whether a control frame has been received (S508). When the control frame has not been received (S508: No), the number assignment unit 108 performs the process shown in Step 100 again.

  In step 500, when an uplink frame is received (S500: Yes), the number assignment unit 108 extracts communication data from the received uplink frame and assigns a transmission serial number to the extracted communication data (S502). Then, the frame storage unit 110 stores the communication data assigned the transmission serial number by the number assignment unit 108 in association with the assigned transmission serial number (S504). The frame transmitting unit 106 transmits the transmission serial number assigned by the number assigning unit 108 and the communication data corresponding to the transmission serial number to the mobile terminal 200 that is the destination of the data frame with reference to the routing table 102. (S506), the process shown in step 500 is performed again.

  In step 508, when the control frame is received (S508: Yes), the retransmission control unit 104 and the retransmission instruction unit 122 determine whether the destination of the control frame is addressed to itself (S510). If the destination of the control frame is addressed to itself (S510: Yes), the retransmission control unit 104 extracts the transmission serial number from the received control frame and sends it to the frame transmission unit 106. Then, the frame transmission unit 106 reads communication data corresponding to the next transmission serial number from the frame storage unit 110 following the transmission serial number received from the retransmission control unit 104, and reads the read communication data together with the corresponding transmission serial number. Then, the control frame is transmitted to the mobile terminal 200 or another access point 100 that has transmitted the control frame (S512).

  Next, the frame transmission unit 106 determines whether or not all the communication data stored in the frame storage unit 110 and corresponding to the transmission serial number after the transmission serial number received from the retransmission control unit 104 has been transmitted ( S514). If all the communication data corresponding to the transmission serial numbers after the received transmission serial number have not been transmitted (S514: No), the processing shown in step 512 is performed again. When all the communication data corresponding to the transmission serial numbers after the received transmission serial number have been transmitted (S514: Yes), the processing shown in step 500 is performed again.

  In step 510, when the destination of the control frame is not addressed to itself (S510: No), the retransmission instruction unit 122 refers to the routing table 102 and receives the control frame received by the access point 100 according to the destination of the received control frame. And the number assignment unit 108 is notified of the transfer, thereby temporarily suspending the assignment of the transmission serial number by the number assignment unit 108 (S516). Next, the retransmission processing unit 120 receives a downlink frame transmitted from another access point 100 in response to the transferred control frame, refers to the routing table 102, and stores the destination stored in the received downlink frame. The received downlink frame is transmitted to the mobile terminal 200 corresponding to (S518).

  Then, retransmission processing section 120 determines whether or not transmission completion information has been received from another access point 100 following the downlink frame (S520). When the transmission completion information has not been received (S520: No), the retransmission processing unit 120 performs the process shown in step 518 again. When the transmission completion information is received (S520: Yes), the retransmission processing unit 120 transmits the number assignment permission to the number assigning unit 108, thereby permitting the number assigning unit 108 to assign the transmission serial number. Then, the number assignment unit 108 determines whether communication data is stored in its own buffer before receiving the transmission serial number assignment permission from the retransmission processing unit 120 (S522). When communication data is stored in the buffer (S522: Yes), the processing shown in step 502 is performed. When communication data is not stored in the buffer (S522: No), the process shown in step 500 is performed again.

  In this way, the roaming process is performed by stopping the assignment of the transmission serial number to the new communication data by the number assigning unit 108 until the retransmission processing unit 120 finishes transmitting the communication data corresponding to the control frame to the mobile terminal 200. The communication data that is missing inside can be transmitted to the mobile terminal 200 first. Thereby, the order of communication data can be maintained in the order of transmission. Therefore, even communication data such as UDP that does not have a function of controlling the data order can be retransmitted in the order of transmission.

  In addition, when the mobile terminal 200 roams from one access point 100 to the other access point 100, all access points 100 existing in the same area exchange routing information based on the known IEEE 802.11f. Thus, it is possible to recognize which access point 100 the mobile terminal 200 newly belongs to. That is, after the mobile terminal 200 roams and the exchange of routing information is completed by the access point 100, communication data addressed to the mobile terminal 200 is not transferred to the access point 100 to which the mobile terminal 200 previously belonged. The mobile terminal 200 is transferred to the access point 100 to which the mobile terminal 200 newly belongs. Then, in response to the control frame including the retransmission request, the communication data stored in the access point 100 to which it belonged before is transmitted, and then the communication data is transmitted from the access point 100 to which it newly belongs.

  In the present embodiment, the three access points 100 have been described as an example. However, the present invention is not limited to this, and one or more access points 100 are interposed between the three access points 100. Three access points 100 may communicate with each other via the access point 100 described above. In this case, an uplink frame, a downlink frame, and a control frame are transferred by another access point 100 based on known routing.

  Heretofore, the third embodiment of the present invention has been described. Also in this embodiment, during the roaming process, the communication data lost due to the temporary interruption of the communication between the access point 100 and the transmission-side mobile terminal 200 can be reliably performed without making a retransmission request to the transmission-source mobile terminal 200. Can be obtained.

  Next, a fourth embodiment of the present invention will be described.

  FIG. 17 is a block diagram showing a configuration of the access point 100 according to the fourth embodiment. Except for the points described below, in FIG. 17, the components denoted by the same reference numerals as those in FIG. 15 have the same or similar functions as those in FIG. When the retransmission instruction unit 122 receives a control frame including a retransmission request from the mobile terminal 200 belonging to itself, the retransmission instruction unit 122 refers to the routing table 102 and transmits the received control frame to the access point 100 indicated by the destination of the received control frame. And the retransmission control unit 104 and the number assignment unit 108 are notified that the control frame has been transferred. In response to the transferred control frame, the retransmission instruction unit 122 updates the routing information of another access point 100 based on the well-known IEEE 802.11f when a retransmittable response is received.

  When a control frame including a retransmission request is received from the retransmission instruction unit 122 of another access point 100, the retransmission control unit 104 receives its notification that the control frame has been transferred from its own retransmission instruction unit 122, and then receives its own control frame. If a notification that the transmission completion information has been received is received from the retransmission processing unit 120, a retransmittable response is transmitted to the other access point 100 that transmitted the control frame.

  The retransmission processing unit 120 receives the downlink frame retransmitted in response to the control frame including the retransmission request transferred by its own retransmission instruction unit 122. Then, communication data is extracted from the received downlink frame, a retransmission serial number is assigned to the communication data, and the communication data is transmitted to the mobile terminal 200 together with the allocated retransmission serial number. Then, when the transmission completion information is received following the downlink frame, this is notified to the retransmission control unit 104 and the start number of the transmission serial number is notified to the number assignment unit 108.

  When the control frame transfer notification is received from the retransmission instruction unit 122, the number assignment unit 108 receives an uplink address addressed to the mobile terminal 200 belonging to itself until receiving a notification of the start number of the transmission serial number from the retransmission processing unit 120. A frame is received, communication data is extracted from the received upstream frame, and stored in a buffer without assigning a transmission serial number. When the number assignment unit 108 receives the notification of the start number of the transmission serial number from the retransmission processing unit 120, the number assignment unit 108 assigns the transmission serial number to the communication data in the buffer in order from the start number of the received transmission serial number, The communication data is sent to the frame transmission unit 106 and the frame storage unit 110 together with the assigned transmission serial number.

  FIG. 18 is a block diagram illustrating an example of a detailed configuration of the retransmission processing unit 120. The retransmission processing unit 120 includes a number assignment unit 1200, a retransmission control unit 1202, a frame retransmission unit 1204, and a frame storage unit 1206. Number assignment section 1200 receives a downlink frame transmitted in response to a control frame including a retransmission request, extracts communication data from the received downlink frame, assigns a retransmission serial number to each of the extracted communication data, and assigns The communication data is sent to the frame retransmission unit 1204 and the frame storage unit 1206 together with the retransmission serial number. In addition, when the transmission completion information is received following the downlink frame, the number assigning unit 1200 notifies the retransmission control unit 104 to that effect and also received immediately before the transmission completion information as the start number of the transmission serial number. The number assigning unit 108 is notified of a number obtained by adding 1 to the retransmission serial number assigned to the communication data.

  The frame storage unit 1206 stores the communication data received from the number assignment unit 1200 in association with the assigned retransmission serial number. The frame retransmission unit 1204 refers to the routing table 102 and the destination included in the received downlink frame, and transmits the received communication data to the mobile terminal 200 together with the allocated retransmission serial number.

  When the retransmission control unit 1202 receives a control frame including a retransmission request from the retransmission instruction unit 122 of the mobile terminal 200 or another access point 100 belonging to the retransmission control unit 1202, the retransmission control unit 1202 extracts the transmission serial number from the control frame and extracts the extracted transmission The serial number is notified to the frame retransmission unit 1204 as a retransmission serial number. When receiving the notification of the retransmission serial number from the retransmission control unit 1202, the frame retransmission unit 1204 reads out communication data corresponding to the number next to the received retransmission serial number from the frame storage unit 1206, refers to the routing table 102, The read communication data is transmitted to another access point 100 or mobile terminal 200 together with the corresponding retransmission serial number.

  Here, the number assigning unit 108 assigns to the communication data the transmission serial number of the number subsequent to the retransmission serial number assigned by the number assigning unit 1200, so that the transmission serial number stored in the frame storage unit 110 and the frame storage unit 1206 are assigned. It is not the same as the resending serial number stored in. Therefore, when the control frame transferred from the retransmission instruction unit 122 of another access point 100 is received, either the retransmission control unit 104 or the retransmission control unit 1202 performs communication corresponding to the transmission serial number included in the control frame. Data will be transmitted.

  The number assigning unit 1200 receives a downlink frame transmitted from the frame transmitting unit 106 of another access point 100, extracts communication data from the received downlink frame, and is a transmission serial number included in the received downlink frame. Different retransmission serial numbers are assigned. As another example, the number assigning unit 1200 extracts the transmission serial number from the received downlink frame in addition to the communication data, and uses the extracted transmission serial number as the retransmission serial number. At the same time, it may be sent to the frame retransmission unit 1204 and the frame storage unit 1206. Thereby, the retransmission serial number included in the downlink frame transmitted by the frame retransmission unit 1204 and the transmission serial number allocated by the number allocation unit 108 may be consecutive numbers.

  FIG. 19 shows an example of the structure of data stored in the frame storage unit 1206. The frame storage unit 1206 stores the retransmission serial number 1210 in association with the communication data 1212. The retransmission serial number 1210 is a continuous number.

  FIG. 20 is a flowchart showing the operation of the access point 100 according to the fourth embodiment. The operation of the access point 100 shown in this flowchart is started by causing the mobile terminal 200 to belong by a known belonging process. First, the number assignment unit 108 determines whether an uplink frame addressed to the mobile terminal 200 to which it belongs has been received (S600). When the uplink frame has not been received (S600: No), the retransmission control unit 104, the retransmission instruction unit 122, and the retransmission control unit 1202 determine whether a control frame including the retransmission instruction has been received (S608). When the control frame has not been received (S608: No), the number assignment unit 108 performs the process shown in step 100 again.

  In step 600, when an uplink frame is received (S600: Yes), the number assignment unit 108 extracts communication data from the received uplink frame and assigns a transmission serial number to the extracted communication data (S602). Then, the frame storage unit 110 stores the communication data assigned the transmission serial number by the number assignment unit 108 in association with the assigned transmission serial number (S604). The frame transmitting unit 106 transmits the transmission serial number assigned by the number assigning unit 108 and the communication data corresponding to the transmission serial number to the mobile terminal 200 with reference to the routing table 102 (S606), and again. The process shown in step 600 is performed.

  In step 608, when the control frame is received (S608: Yes), the retransmission control unit 104, the retransmission instruction unit 122, and the retransmission control unit 1202 determine whether the destination of the control frame is addressed to itself (S610). When the destination of the control frame is addressed to itself (S610: Yes), the retransmission control unit 104 and the retransmission control unit 1202 respectively extract the transmission serial number from the received control frame (S612). The retransmission control unit 104 transmits the transmission serial number extracted from the control frame to the frame transmission unit 106, and the retransmission control unit 1202 transmits the transmission serial number extracted from the control frame to the frame retransmission unit 1204 as the retransmission serial number. The frame transmission unit 106 and the frame retransmission unit 1204 determine whether or not the received serial numbers are stored in the frame storage unit 110 and the frame storage unit 1206, respectively, thereby transmitting the transmission serial number included in the received control frame. Is a retransmission serial number (S614). When the transmission serial number included in the control frame is stored in the frame storage unit 1206, that is, when the serial number included in the control frame is a retransmission serial number (S614: Yes), the frame retransmission unit 1204 The communication data corresponding to the retransmission serial number retrieved from the frame is read from the frame storage unit 1206, and the read communication data is retransmitted together with the retransmission serial number to the access point 100 that transmitted the control frame (S616).

  In step 616, after transmitting all the communication data corresponding to the serial number included in the control frame and stored in the frame storage unit 1206, the frame retransmission unit 1204 transmits the access point that transmitted the control frame. Transmission completion information is transmitted to 100 (S618), and the processing shown in step 600 is performed again.

  In step 614, when the transmission serial number included in the control frame is stored in the frame storage unit 110, that is, when the serial number included in the control frame is the transmission serial number (S614: No), the frame transmission unit 106 Reads out the communication data corresponding to the transmission serial number extracted from the control frame from the frame storage unit 110, and retransmits the read communication data together with the transmission serial number to the access point 100 that transmitted the control frame (S620).

  In step 610, when the destination of the control frame is not addressed to itself (S610: No), the retransmission instruction unit 122 refers to the routing table 102 and transfers the received control frame to the access point 100 that is the destination of the control frame. (S622). At this time, the retransmission instruction unit 122 notifies the number assignment unit 108 that the control frame addressed to the other access point 100 has been transferred, until the number assignment unit 108 receives the number assignment permission from the retransmission processing unit 120. The mobile station 200 receives an uplink frame addressed to the mobile terminal 200 belonging to itself, extracts communication data from the received uplink frame, and stores the extracted communication data in a buffer without assigning a transmission serial number. In addition, retransmission instruction section 122 notifies retransmission control section 104 that a control frame addressed to another access point 100 has been transferred. Then, retransmission instruction section 122 determines whether or not a retransmission permission response has been received from destination access point 100 to which the control frame has been transferred (S624). Retransmission instruction unit 122 repeats step 624 until a retransmission permission response is received.

  In step 624, when a retransmission permission response is received (S624: Yes), the retransmission instruction unit 122 updates the routing information stored in the routing table 102 and performs other access based on the well-known IEEE 802.11f. A notification to update the routing information is sent to the point 100 (S626). Thereby, the routing information of the roaming mobile terminal 200 is reflected on all the access points 100 in the same area.

  Next, the number assignment unit 1200 receives a downlink frame sent from the destination to which the control frame has been transferred, and extracts communication data from the received downlink frame. Then, a retransmission serial number is assigned to the extracted communication data (S628). Then, the frame storage unit 1206 stores the communication data corresponding to the retransmission serial number together with the retransmission serial number assigned by the number assignment unit 1200 (S630). Then, the frame retransmission unit 1204 transmits communication data corresponding to the retransmission serial number together with the retransmission serial number assigned by the number assignment unit 1200 (S632). Then, the number assignment unit 1200 determines whether or not transmission completion information has been received following the data frame (S634). When the transmission completion information has not been received (S634: No), the number assignment unit 1200 performs the process shown in step 628 again.

  In step 632, when the transmission completion information is received (S634: Yes), the number assignment unit 1200 notifies the retransmission control unit 104 that the transmission completion information has been received, and the transmission completion is performed as the start number of the transmission serial number. A number obtained by adding 1 to the re-transmission serial number assigned to the communication data received immediately before the information is notified to the number assignment unit 108 as the start number of the transmission serial number (S636), and the processing shown in step 600 is performed again.

  Heretofore, the fourth embodiment of the present invention has been described. Also in the present embodiment, even when roaming is further performed during re-transmission of communication data that has been lost during roaming processing, it can be reliably acquired without making a retransmission request to the source mobile terminal 200.

  As is clear from the above description, according to the wireless LAN system 10 of the first to fourth embodiments, communication data lost due to a temporary interruption of communication between the access point 100 and the mobile terminal 200 It is possible to obtain the data without requesting retransmission to the IP device.

  In each of the first to fourth embodiments, when a control frame including a retransmission request is received, the frame transmission unit 106 stores the communication data corresponding to the number after the transmission serial number included in the control frame as a frame. The number assigning unit 108 does not assign a number to the communication data newly received from the mobile terminal 200 or another access point 100 while the frame transmitting unit 106 retransmits, and retransmits it. The data is stored in the buffer, and after the retransmission by the number assigning unit 108 is completed, a transmission serial number is assigned to the communication data in the buffer and the frame transmitting unit 106 transmits the data. However, the present invention is not limited to this.

  For example, the frame storage unit 110 has a ring buffer function, and the number assignment unit 108 assigns a transmission serial number to communication data received from the mobile terminal 200 or another access point 100 and stores it in the frame storage unit 110. The frame transmission unit 106 may read the communication data to which the number assigning unit 108 has assigned the transmission serial number via the frame storage unit 110 and transmit the communication data together with the corresponding transmission serial number. In this case, in the normal transmission process, the address in the frame storage unit 110 where the number assignment unit 108 stores the communication data and the transmission serial number, and the communication data and transmission serial number read out by the frame transmission unit 106 in the frame storage unit 110 Matches the address. When a control frame including a retransmission request is received, the transmission serial number and communication data stored in the frame storage unit 110 are referred to an address table registered in association with the address in the frame storage unit 110. Then, the transmission serial number and the communication data are sequentially extracted from the address in the frame storage unit 110 corresponding to the transmission serial number included in the control frame at that time, and transmitted. This increases the time lag between the communication data received by the number assignment unit 108 and the communication data transmitted by the frame transmission unit 106 every time retransmission is performed in response to the control frame, but the number assignment unit 108 is provided with a buffer. There is no need, and the access point 100 can be simply configured.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in embodiment mentioned above. It will be apparent to those skilled in the art that various modifications or improvements can be made to the above-described embodiment. Furthermore, it is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

1 is a diagram illustrating a configuration of a wireless LAN system 10 according to a first embodiment of the present invention. It is a block diagram which shows the structure of the access point 100 which concerns on 1st Embodiment. It is a block diagram which shows the structure of the mobile terminal 200 which concerns on 1st Embodiment. 3 is a diagram illustrating an example of a frame structure of a communication frame 400. FIG. It is a figure which shows an example of a structure of a control frame. It is a figure which shows an example of a structure of a downstream frame. 4 is a diagram illustrating an example of a structure of data stored in a frame storage unit 110. FIG. It is a flowchart which shows operation | movement of the access point 100 which concerns on 1st Embodiment. It is a flowchart which shows operation | movement of the mobile terminal 200 which concerns on 1st Embodiment. It is a block diagram which shows the structure of the access point 100 which concerns on 2nd Embodiment. It is a block diagram which shows the structure of the mobile terminal 200 which concerns on 2nd Embodiment. It is a flowchart which shows an example of operation | movement of the access point 100 in the case of receiving an uplink frame. It is a flowchart which shows an example of operation | movement of the mobile terminal 200 in the case of transmitting an uplink frame. It is a figure which shows the structure of the wireless LAN system 10 which concerns on 3rd Embodiment. It is a block diagram which shows the structure of the access point 100 which concerns on 3rd Embodiment. It is a flowchart which shows operation | movement of the access point 100 which concerns on 3rd Embodiment. It is a block diagram which shows the structure of the access point 100 which concerns on 4th Embodiment. 3 is a block diagram illustrating an example of a detailed configuration of a retransmission processing unit 120. FIG. 6 is a diagram illustrating an example of a structure of data stored in a frame storage unit 1206. FIG. It is a flowchart which shows operation | movement of the access point 100 which concerns on 4th Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Wireless LAN system, 100 ... Access point, 102 ... Routing table, 104, 1202 ... Retransmission control part, 106, 212 ... Frame transmission part, 108, 1200 ... Number assignment 110, 210, 1206 ... Frame storage unit, 450, 452, 1100 ... Transmission serial number, 112, 202 ... Frame reception unit, 114 ... Serial number storage unit, 120 ... Retransmission Processing unit 1204 ... Frame retransmission unit, 1210 ... Retransmission serial number, 454, 1102, 1212 ... Communication data, 122 ... Retransmission instruction unit, 200 ... Mobile terminal, 204 ... Reception Number storage unit, 206... Retransmission request unit, 208... Communication control unit, 209... Transmission unit, 214. Transmission frame management unit, 300 ... cover area, 400 ... communication frame, 402 ... MAC Header, 404 ... Frame Body, 406 ... FCS, 408 ... Frame Control, 410 ... Duration / ID 412, 414, 416, 420 ... Address, 418 ... Sequence Control, 422 ... Protocol Version, 424 ... Type, 426 ... Subtype, 428 ... To DS, 430 ... From DS, 432 ... More Flag, 434 ... Retry, 436 ... Pwr Mgt, 438 ... More Data, 440 ... WEP, 442 ... Order

Claims (9)

An access point that relays communication data sent and received by mobile terminals belonging to itself,
A transmission number assigning unit that receives data addressed to the terminal, which is the communication data addressed to the mobile terminal, from another mobile terminal or another access point, and assigns a transmission serial number to each of the received data addressed to the terminal;
A data transmission unit that transmits the data addressed to the terminal corresponding to the transmission serial number to the mobile terminal together with the transmission serial number allocated by the transmission number allocation unit;
A transmission data storage unit for storing the data addressed to the terminal in association with the transmission serial number allocated by the transmission number allocation unit;
When a retransmission request including the transmission serial number corresponding to the data addressed to the terminal to be retransmitted is received from the mobile terminal, the transmission serial number after the transmission serial number included in the retransmission request is sent to the data transmission unit. The data addressed to the terminal corresponding to the number is read from the transmission data storage unit, and the retransmission request is transmitted together with the transmission serial number corresponding to the retransmission data using the read data addressed to the terminal as retransmission data. An access point comprising: a first retransmission control unit that transmits to the mobile terminal. The access point according to claim 1,
The first retransmission control unit further receives the retransmission request from another access point,
The access point is
A retransmission request transfer unit for transferring the received retransmission request to the other access point when the retransmission request addressed to the other access point is received from the mobile terminal belonging to the mobile terminal;
In response to the retransmission request from the retransmission request transfer unit, the mobile terminal that has received the retransmission data transmitted by the data transmission unit of the other access point, and has transmitted the received retransmission data to the mobile terminal that has transmitted the retransmission request. An access point, further comprising: a retransmission processing unit that transmits to the network. The access point according to claim 2,
The retransmission request transfer unit,
When the retransmission request received from the mobile terminal is transferred to the other access point, the transmission number assigning unit temporarily stops the assignment of the transmission serial number,
The data transmitter is
In response to the retransmission request received from the retransmission request transfer unit of the other access point, after transmitting the retransmission data to the other access point, the transmission data storage unit is designated by the retransmission request When there is no retransmission data corresponding to the transmission serial number after the transmission serial number, transmission completion information indicating that is transmitted to the retransmission processing unit of the other access point,
The retransmission processing unit
Further receiving the transmission completion information from the other access point;
The transmission number assigning unit
Holding the data addressed to the terminal received after the transmission serial number assignment is temporarily stopped by the retransmission request transfer unit, and when the retransmission processing unit receives the transmission completion information from the other access point, An access point which resumes assignment of the transmission serial number to the held data addressed to the terminal. The access point according to claim 3,
A routing table for storing routing information for transferring the communication data;
A routing information update unit that updates routing information stored in the routing table and updates routing information of the other access points;
The retransmission processing unit
A retransmission number assigning unit that receives the retransmission data and the transmission completion information, and assigns a retransmission serial number to each of the received retransmission data;
A data retransmission unit that transmits the retransmission data corresponding to the retransmission serial number to the mobile terminal that has transmitted the retransmission request together with the retransmission serial number allocated by the retransmission number allocation unit;
A retransmission data storage unit that stores the retransmission data in association with the retransmission serial number allocated by the retransmission number allocation unit;
When the retransmission number assignment unit receives the transmission completion information from the data transmission unit of the other access point, it follows the retransmission serial number assigned to the retransmission data received immediately before receiving the transmission completion information A number control unit that causes the transmission number allocation unit to resume number allocation from the transmission serial number following the retransmission serial number by notifying the transmission number allocation unit of a number;
When the retransmission request including the retransmission serial number corresponding to the retransmission data to be retransmitted is received from the mobile terminal or the other access point, the data retransmission unit transmits the retransmission serial included in the retransmission request. The retransmission data corresponding to the retransmission serial number after the number is read from the retransmission data storage unit, and the read retransmission data is read together with the retransmission serial number corresponding to the read retransmission data. A second retransmission control unit that transmits the retransmission instruction to the mobile terminal or the other access point that has transmitted the retransmission instruction;
The first retransmission control unit
The retransmission request transfer unit receives the retransmission request from the retransmission request transfer unit while the retransmission request transfer unit is not transferring the retransmission request to the other access point, or the retransmission request transfer unit transmits the retransmission request to the other access point. The retransmission request received when the retransmission control unit receives the transmission completion information from the other access point, and then receives the retransmission request from the retransmission request transfer unit. Send a resendable response in response to
The retransmission request transfer unit,
The access point, wherein the routing information update unit does not update the routing information until the retransmittable response is received from the first retransmission control unit of the other access point. The access point according to claim 4,
The retransmission number assigning unit
The retransmission data is received together with the retransmission data from the frame transmission unit of the other access point, and the number following the received transmission serial number is used as the retransmission serial number. An access point that is assigned to each of the above. A mobile terminal that communicates via an access point,
A reception number storage unit that receives the reception serial number that is a serial number corresponding to the communication data together with the communication data from the access point, and stores the received reception serial number;
When communication with the access point is restored again after communication with the access point is interrupted, the reception serial number corresponding to the communication data received last is read with reference to the reception number storage unit A mobile terminal comprising: a retransmission request unit that transmits a retransmission request including the read received serial number to the access point. The mobile terminal according to claim 6, wherein
The retransmission request unit includes:
When roaming from the first access point, which is the access point that belonged to the previous time, to the second access point different from the first access point, the first access point is referred to, and the first number is referred to. The reception serial number corresponding to the communication data received last from the access point is read, and the retransmission request addressed to the first access point including the read reception serial number is transmitted to the second access point A mobile terminal characterized by: The mobile terminal according to claim 6 or 7, wherein
A number assigning unit for assigning a transmission serial number to each of the communication data to be transmitted;
A data transmission unit that transmits the communication data to which the number assignment unit has assigned the transmission serial number to the access point together with the corresponding transmission serial number;
A communication data storage unit for storing the communication data to which the number assigning unit is assigned the transmission serial number in association with the assigned transmission serial number;
When roaming from the first access point to the second access point, the communication data storage unit is referred to, and the transmission serial number of the communication frame last transmitted to the first access point is predetermined. A mobile terminal further comprising: a retransmission control unit that calculates a number before a number and causes the data transmission unit to transmit the communication data corresponding to the transmission serial number after the calculated number to the second access point. A communication method in a wireless LAN system including a mobile terminal and an access point,
The access point is
Receiving data addressed to the terminal which is communication data addressed to the mobile terminal belonging to itself, assigning a transmission serial number to each of the received data addressed to the terminal;
Sending the data addressed to the terminal corresponding to the transmission serial number together with the assigned transmission serial number to the mobile terminal;
In association with the assigned transmission serial number, storing the data addressed to the terminal in a transmission data storage unit;
The terminal corresponding to the transmission serial number after the transmission serial number included in the retransmission request when a retransmission request including the transmission serial number corresponding to the data addressed to the terminal to be retransmitted is received from the mobile terminal Reading addressed data from the transmission data storage unit and transmitting the read data addressed to the terminal as retransmission data to the mobile terminal that has transmitted the retransmission request together with the transmission serial number corresponding to the retransmission data; Done
The mobile terminal
Storing the transmission serial number received together with the data addressed to the terminal from the access point in a reception number storage unit;
When communication with the access point is resumed after communication with the access point is interrupted, the transmission serial number corresponding to the data addressed to the terminal received last is read with reference to the reception number storage unit Transmitting the retransmission request including the read transmission serial number to the access point.

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