JP4481203B2 - Wireless LAN system - Google Patents

Description

  The present invention relates to a wireless LAN system, and in particular, when a mobile radio terminal is handed over to a different subnetwork, it is possible to promptly notify the mobile radio terminal of a change in the subnetwork without shortening the router advertisement period. The present invention relates to a simple wireless LAN system.

  In recent years, it has become possible to integrate a conventional extension telephone network such as a local PHS with a LAN by using a wireless IP terminal using VoIP technology in a local communication network to which a wireless LAN is applied as layer 2. Even in such a local area communication network using a wireless LAN, layer 3 handover moves between sub-networks having different network addresses. Therefore, in order to route packets appropriately to a wireless IP terminal, It is necessary to assign a different IP address to each network, and it is necessary to determine an IP address corresponding to the subnetwork in which the wireless IP terminal is located.

  In order to determine this IP address, it is necessary to detect that the wireless IP terminal itself has moved to a different subnetwork. Therefore, in conventional IPv4 and IPv6, detection is performed by receiving router advertisements periodically broadcast from the access router (AR) (v6, v4: FA mode). The configuration of a wireless LAN system that accommodates such wireless IP terminals is roughly classified into a normal AP method and a thin AP method.

  The Thin AP system has a configuration that specializes the function of an access point (AP: relay base station) for physical layer conversion between IEEE802.11 and a wired network, and other wireless settings, security, authentication, encryption, handover, frame This is a wireless LAN system that realizes functions such as bridging on a wireless controller (WC). Since a conventional L2 / L3 network is used between the wireless controller (WC) and the access point (AP), frame transfer and access point (AP) between the wireless controller (WC) and the access point (AP) are performed. In the control of), each company's unique tunneling / encapsulation technology is used. (LWAPP (lightweight access point protocol) proposed in IETF (Internet Engineering Task Force) is one example.) For this reason, when viewed from other terminals and servers on the network, each of the access point (AP) subordinates The mobile terminal is configured to appear to be located in a wireless controller (WC).

  On the other hand, in the normal AP system, as in the conventional wireless LAN, functions such as security, authentication, encryption, and handover are mounted on the access point (AP), and the access point (AP) alone operates as a bridge. It is. Even in this case, there may be an access point (AP) management apparatus that monitors and controls a plurality of access points (AP) using a network management protocol such as SNMP.

  The wireless IP terminal establishes a connection relationship with an access point (AP) by an association procedure defined by IEEE 802.11, and transmits and receives a wireless frame, regardless of whether it is a thin AP or a normal AP.

  Further, as a method for determining this IP address, that is, as a method for detecting that the wireless IP terminal itself has moved to a different subnetwork, the relay station apparatus itself has a function as the FA of the wireless IP terminal, and the handover at the relay station A technique has been proposed in which an agent advertisement message is reproduced and transmitted when a message is detected (see, for example, Patent Document 1).

JP 2003-179616 A

  However, according to the above-described conventional technique, in order to detect that the wireless IP terminal itself has moved to a different subnetwork, it is necessary to receive a router advertisement that notifies the subnet prefix. It is necessary to wait for the transmission cycle time. In order to allow the wireless IP terminal to quickly detect subnetwork movement, for example, it is possible to reduce the router advertisement transmission period to about 10 ms. There is a problem that the available bandwidth decreases.

  In addition, the router can send a router advertisement when it receives a router request from a wireless IP terminal, but the router advertisement transmission is a standard that does not have to be immediate. There is a possibility that the current technology cannot be expected as it is. Further, the technique disclosed in Patent Document 1 has a problem that the agent advertisement message must be reproduced and the processing becomes complicated.

  The present invention has been made in view of the above, and when a mobile radio terminal is handed over to a different sub-network, the mobile radio terminal can be notified of a sub-network change quickly without shortening the router advertisement period. An object is to obtain a possible wireless LAN system.

In order to solve the above-described problems and achieve the object, a wireless LAN system according to the present invention includes a mobile wireless terminal, an access router that communicates with the mobile wireless terminal via a subnetwork, a mobile wireless terminal, and an access router. A wireless communication control function provided between a mobile base station and an access router, and a relay base station having a physical layer conversion function for converting a wireless frame defined by IEEE 802.11 into a wired frame A wireless controller having a function other than the physical layer conversion function, and the wireless controller caches the latest router advertisement message received from the access router and relays it to a relay base station under its own management. When a message indicating that a new mobile radio terminal requests connection is received, the connection process of the mobile radio terminal is completed. And sending a router advertisement message cached in the relay base station when the relay base station, wireless controller the message when a new mobile radio terminal under the control of its own device receives a message for requesting a connection transferred to, forwarding the router advertisement message to the new mobile radio terminal when receiving a router advertisement message from the wireless controller, and wherein.

  According to the present invention, even when the mobile radio terminal is handed over to a different subnetwork, the mobile radio terminal can be promptly transmitted to the mobile radio terminal without waiting for the periodically transmitted router advertisement period and without shortening the router advertisement period. There is an effect that a sub-network change can be notified.

  Embodiments of a wireless LAN system according to the present invention will be described below in detail with reference to the drawings. In addition, this invention is not limited to the following description, In the range which does not deviate from the summary of this invention, it can change suitably.

Embodiment 1 FIG.
FIG. 1 is a schematic configuration diagram for explaining a wireless LAN system according to a first embodiment of the present invention. The wireless LAN system according to the present embodiment is a network system to which a wireless LAN having a Thin AP configuration is applied as a layer 2, and an access router (AR) 101 and an access router via a subnetwork 1 as shown in FIG. The access point 1 (AP1) 103-1 connected to the (AR) 101, the access point 2 (AP2) 103-2 connected to the access router (AR) 101 via the subnetwork 2, and the access router (AR ) 101 and wireless controller 1 (WC) 102-1 connected to access point 1 (AP1) 103-1, and wireless controller 2 connected to access router (AR) 102 and access point 2 (AP2) 103-2. (WC) 102-2 and access point 1 (A P1) A wireless IP terminal 104-1 connected to the wireless network 103-1 and a wireless IP terminal 104-2 connected to the access point 2 (AP2) 103-2 through a wireless network. .

  In the following, access point 1 (AP1) 103-1 and access point 2 (AP2) 103-2 are collectively referred to as access point (AP) 103, wireless controller 1 (WC1) 102-1 and wireless controller. 2 (WC2) 102-1 may be collectively referred to as a wireless controller (WC) 102.

  This wireless LAN system specializes the functions of the access point 1 (AP1) 103-1 and the access point 2 (AP2) 103-2 into a physical layer conversion function that converts a wireless frame defined by IEEE 802.11 into a wired frame. Wireless communication control functions, that is, other wireless settings, security, authentication, encryption, handover, frame bridging functions, etc., on the wireless controller 103-1 and the wireless controller 2 (WC2) 103-2. This is a wireless LAN system with a Thin AP configuration realized above.

  The operation of this wireless LAN system will be described below with reference to FIG. FIG. 2 is a sequence diagram for explaining the operation of the wireless LAN system according to the present embodiment. In the following description, communication when the wireless IP terminal 104-2 is handed over from the subnetwork 1 and located in the area of the subnetwork 2 will be described as an example.

  In this wireless LAN system, the access router (AR) 101 always transmits a router advertisement packet to the wireless controller 2 (WC2) 103-2 at a predetermined cycle. The wireless controller 2 (WC2) 103-2 receives the router advertisement packet and transmits it to the access point 2 (AP) 103. The access point 2 (AP) 103-2 periodically transmits to all the wireless IP terminals 104 under the access point 2 (AP) 103-2. The wireless IP terminal 104 continues to receive this router advertisement packet at a predetermined cycle. That is, the wireless IP terminal 104 continues to receive router advertisement packets via the wireless controller 2 (WC2) 103-2 and the access point 2 (AP2) 103-2 in a predetermined cycle.

  In this state, the access router (AR) 101 transmits a router advertisement packet to the wireless controller 2 (WC2) 102-2 (step S101). The wireless controller 2 (WC2) 102-2 receives the router advertisement packet transmitted from the access router (AR) 101, and caches the received latest router advertisement packet (step S102).

  Next, a new wireless IP terminal 104 (herein referred to as wireless IP terminal 104-2) is connected to access point 2 (AP2) 103-2 to which wireless controller 2 (WC2) 102-2 is connected. When the wireless IP terminal 104-2 transmits an association request to the access point 2 (AP2) 103-2 (step S103), the access point 2 (AP2) 103-2 receives the association request and receives the association. The request is put in a control frame (WC-AP control frame) between the wireless controller 2 (WC2) 102-2 and the access point 2 (AP2) 102-2 and transferred to the wireless controller 2 (WC2) 102-2 (step) S104).

  Next, the wireless controller 2 (WC2) 102-2 receives the WC-AP control frame transmitted by the access point 2 (AP2) 103-2, extracts the association request from the WC-AP control frame, and performs wireless communication. The accommodation process of the IP terminal 104-2 is performed (step S105). Then, the wireless controller 2 (WC2) 102-2 generates an association response, and transmits the association response to the access point 2 (AP2) 103-2 in a WC-AP control frame (step S106). . The access point 2 (AP2) 103-2 receives the WC-AP control frame transmitted from the wireless controller 2 (WC2) 102-2, extracts the association response from the WC-AP control frame, and extracts the wireless IP terminal 104. -2 (step S107).

  Next, the wireless controller 2 (WC2) 102-2 performs router advertisement retransmission control (step S108), puts the latest router advertisement packet cached in the WC-AP control frame, and sets the access point 2 ( (AP2) Transmit to 103-2 (step S109). The access point 2 (AP2) 103-2 receives the WC-AP control frame transmitted from the wireless controller 2 (WC2) 102-2, extracts the router advertisement packet from the WC-AP control frame, and The advertisement packet is transferred to the wireless IP terminal 104-2 (step S110). The wireless IP terminal 104-2 receives the router advertisement packet, determines the subnetwork (subnetwork 2) where the own apparatus exists and determines the IP address (IP address 2) based on the router advertisement packet (step S111). .

  Also, when the access point 2 (AP2) 103-2 receives the router solicitation packet from the wireless IP terminal 104, the router solicitation packet is transferred to the wireless controller 2 (WC2) 102-2, and the wireless controller 2 (WC2) At 102-2, the router advertisement packet cached immediately is transmitted to the corresponding wireless IP terminal.

  By performing the operation as described above, in the wireless LAN system according to the present embodiment, the wireless IP terminal 104-2 that has newly moved under the access point 103-2 does not wait for the router advertisement cycle. The router advertisement can be received, and it is possible to determine the subnetwork (subnetwork 2) in which the device is present and determine the IP address (IP address 2). Therefore, in the wireless LAN system according to the present embodiment, it is possible to promptly notify the wireless IP terminal 104-2 of the subnetwork change without shortening the router advertisement packet transmission cycle.

  Further, in the wireless controller 2 (WC2) 102-2, the wireless controller 2 (WC) 102-2 caches the latest received router advertisement packet in the same manner as described above, and the subordinate access point 2 (AP2) ) Only when there is a wireless IP terminal newly connected to 103-2, the cached router advertisement packet is transmitted to the wireless IP terminal 104 under the access point 2 (AP2) 102-2. It is also possible to do.

  Also, when the access point 2 (AP2) 103-2 receives a router solicitation packet from the wireless IP terminal 104-2, the router solicitation packet is transferred to the wireless controller 2 (WC) 102-2. The wireless controller 2 (WC) 102-2 transfers the router advertisement packet cached immediately to the wireless IP terminal 104-2.

  By adopting the above configuration, wireless frame transmission to the wireless IP terminal 104-2 that is waiting for an incoming call while being connected under the access point 2 (AP2) 103-2 is suppressed, and the wireless IP terminal 104-2 performs wireless communication. By suppressing the operation of the frame transmission / reception process, the power consumption of the wireless IP terminal 104-2 can be reduced.

Embodiment 2. FIG.
FIG. 3 is a schematic configuration diagram for explaining the wireless LAN system according to the second embodiment of the present invention. The wireless LAN system according to the present embodiment is a network system to which a wireless LAN having a Thin AP configuration is applied as layer 2, and an access router (AR) 201 and an access router via a subnetwork 1 as shown in FIG. The access point 1 (AP1) 203-1 connected to the (AR) 201, the access point 2 (AP2) 203-2 connected to the access router (AR) 201 via the subnetwork 2, and the access router (AR) ) 201 and the wireless controller 1 (WC2) 202-1 connected to the access point 1 (AP1) 203-1 and the wireless controller 2 connected to the access router (AR) 201 and the access point 2 (AP2) 203-2. (WC2) 202-2 and access point 1 A wireless IP terminal 204-1 connected to (AP1) 203-1 via a wireless line; and a wireless IP terminal 204-2 connected to access point 2 (AP2) 203-2 via a wireless line. The

  In the following, access point 1 (AP1) 203-1 and access point 2 (AP2) 203-2 are collectively referred to as access point (AP) 203, wireless controller 1 (WC1) 202-1 and wireless controller. 2 (WC2) 202-1 may be collectively referred to as a wireless controller (WC) 202.

  This wireless LAN system has a physical layer conversion function and wireless communication for converting the functions of the access point 1 (AP1) 203-1 and the access point 2 (AP2) 203-2 into a wireless frame defined by IEEE 802.11. Of the control functions, the configuration is specialized for the control plane (C plane) function such as the encryption function, and the user plane (U plane) function, which is the other function of the wireless communication control function, that is, other User plane / control plane separation type (U / C separation type) Thin AP configuration that realizes functions such as wireless setting, security, authentication, and handover on the wireless controller 203-1 and the wireless controller 203-2 This is a wireless LAN system.

  That is, the wireless LAN system operates as a bridge in the user plane (U-plane) function and the wireless controller 202 that terminates the control plane (C-plane) function, and in the control plane (C-plane) as a thin AP. And an access point (AP) 203 that performs control from the wireless controller (WC) 202.

  The operation of this wireless LAN system will be described below with reference to FIG. FIG. 4 is a sequence diagram for explaining the operation of the wireless LAN system according to the present embodiment. In the following description, communication when the wireless IP terminal 204-2 is handed over from the subnetwork 1 and located in the area of the subnetwork 2 will be described as an example.

  In this wireless LAN system, the access router (AR) 201 always transmits a router advertisement packet to the access point 2 (AP2) 203-2 at a predetermined cycle. The access point 2 (AP2) 203-2 periodically transmits to all the wireless IP terminals 204 under the access point 2 (AP2) 203-2. The wireless IP terminal 204 continues to receive this router advertisement packet at a predetermined cycle. That is, the wireless IP terminal 204 continues to receive router advertisement packets via the access point 2 (AP2) 203-2 at a predetermined cycle.

  In this state, the access router (AR) 201 transmits a router advertisement packet to the access point 2 (AP2) 203-2 (step S201). The access point 2 (AP2) 203-2 receives the router advertisement packet transmitted from the access router (AR) 201, and transmits the received latest router advertisement packet to the wireless controller 2 (WC2) 202-2-access point 2 ( (AP2) 202-2 is inserted into a control frame (WC-AP control frame) and transferred to the wireless controller 2 (WC2) 202-2 (step S202). The wireless controller 2 (WC2) 202-2 receives the router advertisement packet transferred from the access point 2 (AP2) 203-2 and caches the received latest router advertisement packet (step S203).

  Next, a new wireless IP terminal 204 (herein referred to as wireless IP terminal 204-2) is connected to access point 2 (AP2) 203-2 to which wireless controller 2 (WC2) 202-2 is connected. When the wireless IP terminal 204-2 transmits an association request to the access point 2 (AP2) 203-2 (step S204), the access point 2 (AP2) 203-2 receives the association request and receives the association. The request is put in the WC-AP control frame and transferred to the wireless controller 2 (WC2) 202-2 (step S205).

  Next, the wireless controller 2 (WC2) 202-2 receives the WC-AP control frame transmitted by the access point 2 (AP2) 203-2, extracts the association request from the WC-AP control frame, and performs wireless communication. The accommodation process of the IP terminal 204-2 is performed (step S206). Then, the wireless controller 2 (WC2) 202-2 generates an association response, and transmits the association response to the access point 2 (AP2) 203-2 in a WC-AP control frame (step S207). . The access point 2 (AP2) 203-2 receives the WC-AP control frame transmitted by the wireless controller 2 (WC2) 202-2, extracts an association response from the WC-AP control frame, and extracts the wireless IP terminal 204. -2 (step S208).

  Next, the wireless controller 2 (WC2) 202-2 performs router advertisement retransmission control (step S209), and puts the latest cached router advertisement packet in the WC-AP control frame into the access point 2 ( (AP2) It transmits to 203-2 (step S210). The access point 2 (AP2) 203-2 receives the WC-AP control frame transmitted from the wireless controller 2 (WC2) 202-2, extracts the router advertisement packet from the WC-AP control frame, The advertisement packet is transferred to the wireless IP terminal 204-2 (step S211). The wireless IP terminal 204-2 receives the router advertisement packet, determines the subnetwork (subnetwork 2) where the own apparatus exists and determines the IP address (IP address 2) based on the router advertisement packet (step S212). .

  Also, when the access point 2 (AP2) 203-2 receives a router solicitation packet from the wireless IP terminal 204, the router solicitation packet is transferred to the wireless controller 2 (WC2) 202-2. The wireless controller 2 (WC2) 202-2 returns the router advertisement packet cached immediately to the access point 2 (AP2) 203-2, and the access point 2 (AP2) 203-2 sends it to the wireless IP terminal 204. Forward.

  By performing the operation as described above, in the wireless LAN system according to the present embodiment, the wireless IP terminal 204-2 that has newly moved under the access point 203-2 does not wait for the router advertisement cycle. The router advertisement can be received, and it is possible to determine the subnetwork (subnetwork 2) in which the device is present and determine the IP address (IP address 2). Therefore, in the wireless LAN system according to the present embodiment, it is possible to promptly notify the wireless IP terminal 204-2 of the subnetwork change without shortening the router advertisement packet transmission cycle.

  Similarly to the above case, the wireless router 2 (WC) 202-2 caches the latest router advertisement packet transferred from the access point 2 (AP2) 203-2, and the subordinate access point 2 (AP2). The cached router advertisement packet may be transmitted to the wireless IP terminal 204 under the access point 202 only when there is a newly connected wireless IP terminal 203-2.

  Also, when the access point 2 (AP2) 203-2 receives a router solicitation packet from the wireless IP terminal 204, the router solicitation packet is transferred to the wireless controller 2 (WC) 202-2. The wireless controller 2 (WC) 202-2 returns the router advertisement packet cached immediately to the access point 2 (AP2) 203-2, and the access point 2 (AP2) 203-2 sends it to the wireless IP terminal 204. Send.

  By adopting the above configuration, wireless frame transmission to the wireless IP terminal 204-2 that is waiting for an incoming call while being connected under the access point 2 (AP2) 203-2 is suppressed, and the wireless IP terminal 204-2 performs wireless communication. By suppressing the operation of the frame transmission / reception process, the power consumption of the wireless IP terminal 204-2 can be reduced.

Embodiment 3 FIG.
FIG. 5 is a schematic configuration diagram for explaining a wireless LAN system according to the third embodiment of the present invention. The wireless LAN system according to the present embodiment is a network system to which a wireless LAN having a Thin AP configuration is applied as layer 2, and an access router (AR) 301 and an access router via a subnetwork 1 as shown in FIG. The access point 1 (AP1) 303-1 connected to the (AR) 301, the access point 2 (AP2) 303-2 connected to the access router (AR) 301 via the subnetwork 2, and the access router (AR ) 301 and access point 1 (AP1) 303-1 connected to wireless controller 1 (WC1) 302-1 and wireless controller 2 connected to access router (AR) 301 and access point 2 (AP2) 303-2. (WC2) 302-2 and access point 1 (AP1) 303-1 is configured to include a wireless IP terminal 304-1 connected to the wireless line, and an access point 2 (AP2) 303-2 to a wireless IP terminal 304-2 connected to the wireless line. The

  In the following, access point 1 (AP1) 303-1 and access point 2 (AP2) 303-2 are collectively referred to as access point (AP) 303, wireless controller 1 (WC1) 302-1 and wireless controller. 2 (WC2) 302-1 may be collectively referred to as a wireless controller (WC) 302.

  This wireless LAN system includes a physical layer conversion function and wireless communication for converting the functions of the access point 1 (AP1) 303-1 and the access point 2 (AP2) 303-2 into a wireless frame defined by IEEE 802.11. Of the control functions, the configuration is specialized for the control plane (C plane) function such as the encryption function, and the user plane (U plane) function, which is the other function of the wireless communication control function, that is, other User plane / control plane separation type (U / C separation type) Thin AP configuration that realizes functions such as wireless setting, security, authentication, and handover on the wireless controller 303-1 and the wireless controller 303-2 This is a wireless LAN system.

  In other words, the wireless LAN system operates as a bridge in the wireless controller (WC) 302 that terminates the control plane (C plane) function and the user plane (U plane) function, and in the control plane (C plane), Thin. Like an AP, an access point (AP) 203 that performs control from a wireless controller (WC) 302 is configured.

  The operation of this wireless LAN system will be described below with reference to FIG. FIG. 6 is a sequence diagram for explaining the operation of the wireless LAN system according to the present embodiment. In the following description, communication when the wireless IP terminal 304-2 is handed over from the subnetwork 1 and located in the area of the subnetwork 2 will be described as an example.

  In this wireless LAN system, the access router (AR) 301 always transmits a router advertisement packet to the access point (AP) 303-2 at a predetermined cycle. The access point (AP) 303-2 periodically transmits to all the wireless IP terminals 304 under the access point (AP) 303-2. The wireless IP terminal 304 continues to receive this router advertisement packet at a predetermined cycle. That is, the wireless IP terminal 304 continues to receive router advertisement packets via each access point (AP) 303-2 in a predetermined cycle.

  In this state, the access router (AR) 301 transmits a router advertisement packet to the access point 2 (AP2) 303-2 (step S301). The access point 2 (AP2) 303-2 receives the router advertisement packet transmitted from the access router (AR) 301, and caches the latest received router advertisement packet (step S302).

  Next, a new wireless IP terminal 304 (herein referred to as wireless IP terminal 304-2) is connected to the access point 2 (AP2) 303-2 to which the wireless controller 2 (WC2) 202-2 is connected. When the wireless IP terminal 304-2 transmits an association request to the access point 2 (AP2) 303-2 (step S303), the access point 2 (AP2) 303-2 receives the association request and receives the association. The request is put in the WC-AP control frame and transferred to the wireless controller 2 (WC2) 302-2 (step S304).

  Next, the wireless controller 2 (WC2) 302-2 receives the WC-AP control frame transmitted from the access point 2 (AP2) 303-2, extracts the association request from the WC-AP control frame, and performs wireless communication. The accommodation process of the IP terminal 304-2 is performed (step S305). Then, the wireless controller 2 (WC2) 302-2 generates an association response, and transmits the association response to the access point 2 (AP2) 303-2 in a WC-AP control frame (step S306). . The access point 2 (AP2) 303-2 receives the WC-AP control frame transmitted by the wireless controller 2 (WC2) 302-2, extracts an association response from the WC-AP control frame, and extracts the wireless IP terminal 304. -2 (step S307).

  Next, the wireless controller 2 (WC2) 302-2 that has detected the connection of the wireless IP terminal 304 in the C plane generates a router advertisement transmission instruction, puts it in the WC-AP control frame, and access point 2 (AP2). It transmits to 303-2 (step S308). When the access point 2 (AP2) 303-2 receives the WC-AP control frame transmitted from the wireless controller 2 (WC2) 302-2 and extracts the router advertisement transmission instruction, the router advertisement retransmission is performed according to the instruction. Processing is performed (step S309), and the latest router advertisement packet cached is transmitted to the wireless IP terminal 304-2 (step S310). The wireless IP terminal 304-2 receives the router advertisement packet, determines the subnetwork (subnetwork 2) where the own apparatus exists and determines the IP address (IP address 2) based on the router advertisement packet (step S311). .

  By performing the above operation, in the wireless LAN system according to the present embodiment, the wireless IP terminal 304-2 that has newly moved under the access point 303-2 does not wait for the router advertisement cycle. The router advertisement can be received, and it is possible to determine the subnetwork (subnetwork 2) in which the device is present and determine the IP address (IP address 2). Therefore, in the wireless LAN system according to the present embodiment, it is possible to promptly notify the wireless IP terminal 304-2 of the subnetwork change without shortening the router advertisement packet transmission cycle.

  Similarly to the above case, the latest router advertisement packet transmitted from the access router (AR) 301 is cached in the access point 2 (AP2) 303-2. Then, only when there is a wireless IP terminal newly connected to the access point 2 (AP2) 303-2, from the wireless controller 2 (WC2) 302-2 that detects the connection of the wireless IP terminal 304 in the C plane. The access point 2 (AP2) 303-2 may transmit the cached router advertisement packet to the wireless IP 304 terminal under the corresponding access point 2 (AP2) 303-2 in accordance with the router advertisement transmission instruction. Is possible.

  When the access point 2 (AP2) 303-2 receives the router solicitation packet from the wireless IP terminal 304-2, the access point 2 (AP2) 303-2 wirelessly transmits the cached router advertisement packet. Transmit to IP terminal 304-2.

  By adopting the configuration as described above, wireless frame transmission to the wireless IP terminal 204-2 that is waiting for an incoming call while being connected under the access point 2 (AP2) 303-2 is suppressed, and the wireless IP terminal 204-2 performs wireless communication. By suppressing the operation of the frame transmission / reception process, the power consumption of the wireless IP terminal 204-2 can be reduced.

Embodiment 4 FIG.
FIG. 7 is a schematic configuration diagram for explaining a wireless LAN system according to a fourth embodiment of the present invention. The wireless LAN system according to the present embodiment is a network system to which a wireless LAN having a normal AP configuration without a wireless controller is applied. As shown in FIG. 7, an access router (AR) 401 and a subnetwork 1 Access point 1 (AP1) 403-1 connected to the access router (AR) 401 via the network, and Access point 2 (AP2) 403-2 connected to the access router (AR) 401 via the subnetwork 2 A wireless IP terminal 404-1 connected to the access point 1 (AP1) 403-1 via a wireless line, and a wireless IP terminal 404-2 connected to the access point 2 (AP2) 403-2 via a wireless line. It is prepared for.

  In the following, access point 1 (AP1) 403-1 and access point 2 (AP2) 403-2 may be collectively referred to as access point (AP) 403.

  In this wireless LAN system, an access point 403-1 and an access point 2 (AP2) 403-2 convert a physical frame defined by IEEE802.11 into a wired frame, and other wireless settings and security. , A wireless LAN system configured to have wireless communication control functions such as authentication, encryption, handover, and frame bridging.

  The operation of this wireless LAN system will be described below with reference to FIG. FIG. 8 is a sequence diagram for explaining the operation of the wireless LAN system according to the present embodiment. In the following description, communication when the wireless IP terminal 404-2 is handed over from the subnetwork 1 and is located in the area of the subnetwork 2 will be described as an example.

  In this wireless LAN system, the access router (AR) 401 always transmits a router advertisement packet to the access point (AP) 403-2 at a predetermined cycle. The access point (AP) 403-2 periodically transmits to all the wireless IP terminals 404 under the access point (AP) 403-2. The wireless IP terminal 404 continues to receive this router advertisement packet at a predetermined cycle. That is, the wireless IP terminal 404 continues to receive router advertisement packets via each access point (AP) 403-2 in a predetermined cycle.

  In this state, the access router (AR) 401 transmits a router advertisement packet to the access point 2 (AP2) 403-2 (step S401). The access point 2 (AP2) 403-2 receives the router advertisement packet transmitted from the access router (AR) 401, and caches the received latest router advertisement packet (step S402).

  Next, a new wireless IP terminal 404 (here, wireless IP terminal 404-2) is connected to access point 2 (AP2) 403-2, that is, wireless IP terminal 404-2 is connected to access point 2 (AP2) 403-2. When an association request is transmitted to (AP2) 403-2 (step S403), access point 2 (AP2) 403-2 receives the association request and performs a process for accommodating wireless IP terminal 404-2 (step S404). ). Then, the access point 2 (AP2) 403-2 generates an association response and transmits the association response to the wireless IP terminal 404-2 (step S405).

  Next, the access point 2 (AP2) 403-2 performs router advertisement retransmission control (step S406), and transmits the cached latest router advertisement packet to the wireless IP terminal 404-2 (step S406). S407). The wireless IP terminal 404-2 receives the router advertisement packet, and determines the subnetwork (subnetwork 2) where the own apparatus exists and determines the IP address (IP address 2) based on the router advertisement packet (step S 408). .

  When the access point 2 (AP2) 403-2 receives the router solicitation packet from the wireless IP terminal 404-2, the access point 2 (AP2) 403-2 immediately caches the router advertisement packet. Is returned to the wireless IP terminal 404-2.

  By performing the operation as described above, in the wireless LAN system according to the present embodiment, the wireless IP terminal 404-2 that has newly moved under the access point 2 (AP2) 403-2 It is possible to receive a router advertisement without waiting for, and it is possible to determine the subnetwork (subnetwork 2) in which the device exists and determine the IP address (IP address 2). Therefore, in the wireless LAN system according to the present embodiment, it is possible to promptly notify the wireless IP terminal 404-2 of the subnetwork change without shortening the router advertisement packet transmission cycle.

  Similarly to the above case, the latest router advertisement packet transmitted from the access router (AR) 301 is cached in the access point 2 (AP2) 403-2. Then, only when there is a wireless IP terminal newly connected to the access point 2 (AP2) 403-2, the access point to which the access point 2 (AP2) 403-2 corresponds to the cached router advertisement packet. 2 (AP2) 403-2 may be transmitted to the wireless IP 404 terminal.

  When the access point 2 (AP2) 403-2 receives the router solicitation packet from the wireless IP terminal 404-2, the access point 2 (AP2) 403-2 wirelessly transmits the cached router advertisement packet. Return to IP terminal 404-2.

  By adopting the above configuration, wireless frame transmission to the wireless IP terminal 404-2 that is waiting for an incoming call while being connected under the access point 2 (AP2) 403-2 is suppressed, and the wireless IP terminal 404-2 performs wireless communication. By suppressing the operation of the frame transmission / reception process, the power consumption of the wireless IP terminal 404-2 can be reduced.

  As described above, the wireless LAN system according to the present invention is useful when notifying the mobile radio terminal of a change in the subnetwork quickly without shortening the router advertisement period when the mobile radio terminal is handed over to a different subnetwork. It is.

It is a schematic block diagram for demonstrating the wireless LAN system concerning Embodiment 1 of this invention. It is a sequence diagram for demonstrating operation | movement of the wireless LAN system concerning Embodiment 1 of this invention. It is a schematic block diagram for demonstrating the wireless LAN system concerning Embodiment 2 of this invention. It is a sequence diagram for demonstrating operation | movement of the wireless LAN system concerning Embodiment 2 of this invention. It is a schematic block diagram for demonstrating the wireless LAN system concerning Embodiment 3 of this invention. It is a sequence diagram for demonstrating operation | movement of the wireless LAN system concerning Embodiment 3 of this invention. It is a schematic block diagram for demonstrating the wireless LAN system concerning Embodiment 4 of this invention. It is a sequence diagram for demonstrating operation | movement of the wireless LAN system concerning Embodiment 4 of this invention.

Explanation of symbols

101 access router 102 wireless controller 102-1 wireless controller 1
102-2 Wireless controller 2
103 access point 103-1 access point 1
103-2 Access point 2
104 wireless IP terminal 104-1 wireless IP terminal 1
104-2 wireless IP terminal 2
201 Access Router 202 Wireless Controller 202-1 Wireless Controller 1
202-2 wireless controller 2
203 access point 203-1 access point 1
203-2 access point 2
204 wireless IP terminal 204-1 wireless IP terminal 1
204-2 wireless IP terminal 2
301 Access Router 302 Wireless Controller 302-1 Wireless Controller 1
302-2 Wireless Controller 2
303 access point 303-1 access point 1
303-2 access point 2
304 wireless IP terminal 304-1 wireless IP terminal 1
304-2 wireless IP terminal 2
401 access router 403 access point 403-1 access point 1
403-2 Access point 2
404 wireless IP terminal 404-1 wireless IP terminal 1
404-2 wireless IP terminal 2

Claims (4)

A mobile radio terminal;
An access router that communicates with the mobile radio terminal via a subnetwork;
A relay base station provided between the mobile radio terminal and the access router, and having a physical layer conversion function for converting a radio frame defined by IEEE 802.11 into a wired frame;
A wireless controller provided between the mobile radio terminal and the access router, and having a function other than the physical layer conversion function among radio communication control functions,
The wireless controller caches the latest router advertisement message received from the access router, and receives a message to the effect that a new mobile radio terminal requests connection to the relay base station under the management of its own device. When the connection processing of the mobile radio terminal is completed, the cached router advertisement message is transmitted to the relay base station ,
When the relay base station receives a message that a new mobile radio terminal requests connection under the control of its own device, the relay base station forwards the message to the wireless controller and receives a router advertisement message from the wireless controller. Forwarding the router advertisement message to the new mobile radio terminal if
A wireless LAN system characterized by the above. A mobile radio terminal;
An access router that communicates with the mobile radio terminal via a sub-network;
A wireless controller provided between the mobile radio terminal and the access router and having a control plane control function for controlling transfer of a control signal;
A user plane control function that is provided between the mobile radio terminal and the access router and controls transfer of user data related to the mobile station defined by IEEE 802.11, and transfer based on an instruction of the wireless controller with respect to the control signal A relay base station with a processing function;
With
The relay base station transfers a router advertisement message received from the access router to the wireless controller to which the own device belongs, and receives a message that a new mobile radio terminal requests connection under the control of the own device. And when the router advertisement message is received from the wireless controller, the router advertisement message is forwarded to the new mobile radio terminal .
The wireless controller caches the latest router advertisement message transferred from the relay base station, and a message indicating that a new mobile radio terminal requests connection to the relay base station under the management of the wireless device. Transmitting the cached router advertisement message to the relay base station when the connection process of the mobile radio terminal is completed .
A wireless LAN system characterized by the above. A mobile radio terminal;
An access router that communicates with the mobile radio terminal via a sub-network;
A wireless controller provided between the mobile radio terminal and the access router and having a control plane control function for controlling transfer of a control signal;
A user plane control function that is provided between the mobile radio terminal and the access router and controls transfer of user data related to the mobile station defined by IEEE 802.11, and transfer based on an instruction of the wireless controller with respect to the control signal A relay base station with a processing function;
With
When the relay base station caches the latest router advertisement message received from the access router and receives a message indicating that a new mobile radio terminal requests connection under the management of its own device, the relay base station receives the message. And transmits the cached router advertisement message to the new mobile radio terminal according to instructions of the wireless controller ,
The wireless controller receives the message to the effect that a new mobile radio terminal requests connection to the relay base station under the control of its own device, and completes the connection process of the mobile radio terminal when the cached router advertisement is received. Instructing the relay device to transmit a message to the new mobile radio terminal ;
A wireless LAN system characterized by the above. A mobile radio terminal;
An access router that communicates with the mobile radio terminal via a subnetwork;
A relay base station provided between the mobile wireless terminal and the access router, having a physical layer conversion function for converting a wireless frame defined by IEEE 802.11 into a wired frame and a wireless communication control function;
The relay base station caches the latest router advertisement message received, receives a message that a new mobile radio terminal requests connection under the control of its own device, and performs connection processing of the mobile radio terminal. The wireless LAN system, wherein when completed, the cached router advertisement message is transmitted to the new mobile wireless terminal.

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