JP2007049382A - Method and device for wireless relay, and computer program thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and device for wireless relay, as well as its computer program, capable of preventing a packet loss rate of the entire network system from being affected by a high packet loss rate at multicast transmission of wireless LAN. <P>SOLUTION: A wireless LAN relay device 1 receives an IP multicast packet from an audio motion picture multicast transmitter 2 through a wide area network 3. Then, it converts the IP multicast packet into an MAC unicast packet, and transmits the MAC unicast packet to terminals 4-1 to 4-2 that participate in an IP multicast group using wireless LAN. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a technology that is connected to a wide area network such as the Internet and wirelessly transmits / receives data to / from a terminal, and more particularly, to a wireless relay device, a wireless relay method, and It relates to the computer program.

  In recent years, networks capable of broadband access are becoming widespread, and users increasingly use routers or the like to connect a plurality of terminals to one network. Among such routers, there is a wireless LAN relay device (hereinafter simply referred to as a wireless LAN) having a wireless LAN (Local Area Network) function defined by IEEE (The Institute of Electrical and Electronics Engineers, Inc.) 802.11 or the like. Also called a relay device).

  In wired LANs such as IEEE 802.3, the reliability of the physical layer is high, and therefore no retransmission mechanism is provided in the MAC (Media Access Control) layer. However, in wireless LANs such as IEEE 802.11, the reliability of the physical layer is not provided. Therefore, a retransmission mechanism is provided in the MAC layer.

  Specifically, in wireless LAN unicast transfer such as IEEE 802.11, when the transmitting side transmits one frame, it is necessary to return ACK when the receiving side receives the frame. On the transmitting side, the frame is retransmitted until this ACK is received. The maximum number of retransmissions for frame retransmission can be set, but is generally about 10 times.

  However, in wireless LAN broadcast and multicast transfer such as IEEE802.11, a retransmission mechanism is not provided due to a large processing overhead. Therefore, the packet loss rate at the time of transfer becomes high. The packet loss rate varies depending on the communication state, but is about 0.5%, for example.

  FIG. 14 is a diagram illustrating an example of a conventional network system in which a wireless LAN relay device is connected to a wide area network. This network system is connected to a wireless LAN relay device 101 connected to a wide area network (WAN (Wide Area Network)) 103 such as the Internet or a dedicated IP (Internet Protocol) network, and connected to the wide area network 103, such as voice and video. It includes an audio / video multicast transmission apparatus 102 that transmits stream data using multicast transfer, and a plurality of terminals 104-1 to 104-2 that perform wireless communication with the wireless LAN relay apparatus 101.

  The wireless LAN relay apparatus 101 receives packets of stream data such as voice and moving pictures by voice / video multicast transmission from the voice / video multicast transmission apparatus 102 via the wide area network 103 and sends them to the terminals 104-1 to 104-2 as multicast packets. Send. This audio-video multicast communication includes real-time multicast communication such as broadcast streaming distribution, multi-point TV conference, telephone conference, TV phone, and IP phone.

  FIG. 15 is a diagram showing a protocol stack in each part of the network system shown in FIG. The audio / video multicast transmission apparatus 102 includes a WAN access line lower layer, an IP (multicast) layer, a UDP (User Datagram-Protocol) layer, and an RTP (Realtime Transport Protocol) layer. The wide area network 103 includes a WAN lower layer and an IP (multicast) layer.

  The wireless LAN relay device 101 includes a WAN access line lower layer and an IP (multicast) layer on the wide area network side, and a physical layer (wireless LAN), a MAC (wireless LAN multicast) layer on the wireless LAN side, IP (multicast) layer.

Each of terminals 104-1 to 104-2 includes a physical layer (wireless LAN) layer, a MAC (wireless LAN multicast) layer, an IP (multicast) layer, a UDP layer, and an RTP layer.
Hiroshi Fujisawa et al., “Packet Loss Analysis in Wireless LAN Multicast Transmission and Examination of FEC Restoration Techniques”, NHK STRL, R & D / No. 90 / 2005.3

  As shown in FIG. 15, in audio-video multicast communication, RTP / UDP is generally used as a transport protocol, and IP multicast is used in the IP layer. In the wireless LAN, when IP multicast is used, LAN multicast transfer is used.

  Unlike TCP, since UDP does not have a retransmission mechanism, the packet loss rate that significantly affects the quality of communication reflects the packet loss rate below the IP layer as it is. The packet loss below the IP layer is generally caused mainly by packet loss on the wide area network 103 such as the Internet or a dedicated IP network, that is, access line quality, congestion at the router, and the like. It is about 0.001%.

  However, as shown in FIG. 15, since the wireless LAN is used between the wireless LAN relay apparatus 101 and the terminals 104-1 to 104-2, a high frame loss rate in the multicast transfer of the wireless LAN remains as it is in the IP packet. It is reflected in the loss rate. As described above, this packet loss rate is much higher than the packet loss rate in the wide area network.

  When a wireless LAN is used for a part of the route of the audio / video multicast communication as in the network system shown in FIG. 14, the packet loss rate becomes a high packet loss rate in the multicast transfer of the wireless LAN, and the quality is low. There was a problem that it decreased.

  As a technology related to this, there is a technology disclosed in Non-Patent Document 1. The packet loss analysis in wireless LAN multicast transmission disclosed in this Non-Patent Document 1 shows that the multicast packet loss rate depends on the multicast transfer rate. Further, FEC (Forward) is used for packet loss repair. Error Correction) is shown to be effective.

  However, since the relay node device needs to measure the multicast transfer rate in order to predict the multicast packet loss rate, the processing load increases. Also, if the packet loss rate is not accurately predicted, the redundancy will be excessive or insufficient. In the case of a wireless LAN, since the communication state generally changes constantly, the multicast transfer rate also changes. Therefore, there is a problem that an extra bandwidth is used due to excessive redundancy, or packet loss cannot be recovered due to insufficient redundancy.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a wireless relay that prevents the packet loss rate of the entire network system from being affected by a high packet loss rate in multicast transfer of a wireless LAN. An apparatus, a wireless relay method, and a computer program thereof are provided.

  According to an aspect of the present invention, there is provided a wireless relay device that is connected to a wide area network and wirelessly transmits / receives a packet to / from a terminal, the first receiving unit receiving the packet via the wide area network; Conversion means for converting a multicast packet received by the first reception means into a unicast packet; and wirelessly transmitting the unicast packet converted by the conversion means to terminals participating in the multicast group of the multicast packet Transmission means.

  Preferably, the wireless relay device further includes storage means for storing a unicast address of a terminal participating in the multicast group in association with the multicast address, and the conversion means refers to the storage means to transmit the multicast packet to the unicast address. Convert to cast packet.

  More preferably, the wireless relay device further includes second receiving means for receiving a packet wirelessly from the terminal, and the converting means refers to the multicast participation message received by the second receiving means, and performs multicasting. The unicast address of the terminal participating in the group is stored in the storage means.

  More preferably, the converting means refers to the multicast withdrawal message received by the second receiving means and deletes the unicast address of the terminal participating in the multicast group from the storage means.

  Preferably, in response to the multicast query message received by the first receiving means, the converting means, when the second receiving means does not receive the multicast participation message from the terminal for a predetermined time, the converting means of the terminals participating in the multicast group Delete the unicast address from the storage means.

  According to another aspect of the present invention, there is provided a wireless relay method for wirelessly transmitting a multicast packet received via a wide area network to a terminal, the step of converting the received multicast packet into a unicast packet, Wirelessly transmitting the unicast packet to terminals participating in the multicast group of the multicast packet.

  According to still another aspect of the present invention, there is provided a computer program for causing a computer to execute a wireless relay method for wirelessly transmitting a multicast packet received via a wide area network to a terminal, wherein the wireless relay method includes: A step of converting a received multicast packet into a unicast packet with reference to an address table storing unicast addresses of terminals participating in the multicast group in correspondence with the multicast address, and converting the converted unicast packet into a multicast packet Wirelessly transmitting to terminals participating in the multicast group.

  According to an aspect of the present invention, the converting unit converts the multicast packet received by the first receiving unit into a unicast packet, and the transmitting unit converts the unicast packet converted by the converting unit into the multicast packet multicast. Since it is transmitted wirelessly to the terminals participating in the group, the retransmission mechanism in unicast transfer can be used, and the packet loss rate of the entire network system can be prevented from being affected by the high packet loss rate in multicast transfer. It becomes possible.

  Further, since the storage means stores the unicast address of the terminal participating in the multicast group in correspondence with the multicast address, the conversion means can easily convert the multicast packet into a unicast packet.

  Further, the conversion means refers to the multicast participation message received by the second receiving means and stores the unicast address of the terminal participating in the multicast group in the storage means, so the administrator changes the contents of the storage means. Even without this, it is possible to dynamically change the contents of the storage means.

  Further, the conversion means refers to the multicast withdrawal message received by the second receiving means, and deletes the unicast address of the terminal participating in the multicast group from the storage means, so the administrator changes the contents of the storage means. Even without this, it is possible to dynamically change the contents of the storage means.

  In addition, in response to the multicast query message received by the first receiving means, the converting means, when the second receiving means does not receive the multicast participation message from the terminal for a predetermined time, the conversion means of the terminal participating in the multicast group. Since the cast address is deleted from the storage means, the contents of the storage means can be dynamically changed without the administrator changing the contents of the storage means.

  FIG. 1 is a diagram illustrating a configuration example of a network system according to an embodiment of the present invention. This network system includes a wireless LAN relay device 1 connected to a wide area network 3 such as the Internet or a dedicated IP network, and an audio video that is connected to the wide area network 3 and transmits stream data such as audio and video using multicast transfer. It includes a plurality of terminals 4-1 to 4-2 that perform wireless communication between the multicast transmission device 2 and the wireless LAN relay device 1.

  When the wireless LAN relay device 1 receives a stream data packet such as a voice or a moving image by voice / video multicast communication from the voice / video multicast transmission device 2 via the wide area network 3, the wireless LAN relay device 1 converts the packet into a unicast packet and performs terminal transmission by unicast It transmits to each of 104-1 to 104-2. At this time, terminals that transfer unicast packets are all terminals that participate in the IP multicast group.

  FIG. 2 is a diagram showing a protocol stack in each part of the network system in the embodiment of the present invention shown in FIG. The audio / video multicast transmission apparatus 2 includes a WAN access line lower layer, an IP (multicast) layer, a UDP layer, and an RTP layer. The wide area network 3 includes a WAN lower layer and an IP (multicast) layer.

  The wireless LAN relay device 1 includes a WAN access line lower layer and an IP (multicast) layer on the wide area network side, and a physical layer (wireless LAN) and a MAC (wireless LAN unicast) layer on the wireless LAN side. And IP (multicast) layer.

  Each of the terminals 4-1 to 4-2 includes a physical layer (wireless LAN) layer, a MAC (wireless LAN unicast) layer, an IP (multicast) layer, a UDP layer, and an RTP layer.

  As shown in FIG. 2, unicast transfer is used in the MAC layer of the wireless LAN relay device 1 and the MAC layers of the terminals 4-1 to 4-2. As described above, although the reliability of the physical layer of the wireless LAN is low, since the unicast transfer in the wireless LAN has a retransmission mechanism, the packet loss rate in the wireless LAN can be greatly improved.

  FIG. 3 is a diagram schematically showing a method of relaying IP multicast packets of the wireless LAN relay device 1 according to the embodiment of the present invention. The wireless LAN relay device 1 has an address table 11 that stores MAC unicast addresses of terminals that participate in the IP multicast group. This address table 11 holds IP multicast addresses and participating terminal MAC unicast addresses in association with each other. For example, corresponding to the IP multicast address B, the MAC unicast addresses of the terminals a and f are held.

  For example, when the wireless LAN relay device 1 receives a multicast packet addressed to the IP multicast address IP-B via the wide area network 3, the wireless LAN relay device 1 searches the address table 11 for terminals participating in the IP multicast group B. At this time, since the terminal a and the terminal f participate in this IP multicast group, the wireless LAN relay device 1 copies the IP multicast packet, and the MAC unicast address (MAC) of the terminal a and the terminal f in the destination MAC address field. -A, MAC-f) in which each unicast packet is written is generated and transmitted to the terminal a4-1 and the terminal f4-2. Note that the MAC address of the wireless LAN relay device 1 is MAC-r.

  FIG. 4 is a diagram showing an example of an entry registration / deletion method of the address table 11 of the wireless LAN relay device 1 according to the embodiment of the present invention. A management device 5 is connected to the wireless LAN relay device 1, and the administrator operates the management device 5 to register or delete the IP multicast address and the participating terminal MAC unicast address in the address table 11. The method for registering / deleting entries in the address table 11 is static. However, as will be described later, the wireless LAN relay device 1 can also dynamically register / delete entries in the address table.

  FIG. 5 is a block diagram showing a schematic configuration of the wireless LAN relay device 1 according to the embodiment of the present invention. The wireless LAN relay device 1 includes an address table 11, a WAN port 12 connected to the wide area network 3, a WAN interface unit 13 that transmits and receives packets via the WAN port 12, and terminals 4-1 to 4-2. An IP multicast address with reference to the wireless LAN interface 14 for wirelessly communicating with the wireless LAN interface 15 for transmitting / receiving packets between the terminals 4-1 and 4-2, and the address table 11 A multicast conversion processing unit 16 that searches for a corresponding MAC unicast address and an IP processing unit 17 that performs control processing related to the IP layer are included.

  FIG. 6 is a flowchart for explaining the IP multicast packet relay processing procedure of the wireless LAN relay device 1 according to the embodiment of the present invention. First, when the WAN interface unit 13 receives a WAN frame via the WAN port 12 (S11), it extracts an IP multicast packet from the WAN frame and outputs it to the IP processing unit 17 (S12). Packets other than IP multicast packets are transmitted to the terminals 4-1 to 4-2 by normal processing.

  The IP processing unit 17 extracts the destination IP multicast address of the IP multicast packet received from the WAN interface unit 13, generates a destination MAC multicast address (S13), and converts the IP multicast packet and the destination MAC multicast address into a multicast conversion processing unit. 16 (S14). The destination MAC multicast address is used when a control message such as an IP multicast query message described later is transmitted to the terminals 4-1 to 4-2. These control messages are unconditionally transmitted to the terminals 4-1 to 4-2 without being converted into unicast frames.

  Next, the multicast conversion processing unit 16 searches the address table 11 using the destination IP multicast address of the IP multicast packet received from the IP processing unit 17 (S15). If there is no entry corresponding to the destination IP multicast address in the address table 11 (S15, no entry), the IP multicast packet is discarded (S18), and the process is terminated.

  If there is an entry corresponding to the destination IP multicast address in the address table 11 (S18, entry exists), the multicast conversion processing unit 16 sets the MAC unicast address of the terminal participating in the IP multicast to the address table 11 The IP multicast packet and the MAC unicast address of the terminal are output to the wireless LAN interface unit 15 for each participating terminal (S17).

  Next, the wireless LAN interface unit 15 generates a wireless LAN unicast frame from the IP multicast packet and the terminal MAC unicast address for each participating terminal (S19), and wirelessly transmits the generated wireless LAN unicast frame. It transmits to the terminal which has participated via the LAN port 14 (S20), and complete | finishes a process.

  FIG. 7 is a diagram schematically illustrating an example of an entry registration / deletion method in the address table 11 of the wireless LAN relay device 1 according to the embodiment of the present invention. FIG. 7 shows registration / deletion of an entry in the address table 11 by snooping IP multicast protocol control messages (participation message, withdrawal message). This IP multicast protocol includes IPv4 Internet Group Management Protocol (IGMP), IPv6 MLD (Multicast Listener Discovery), and the like.

  The wireless LAN relay device 1 snoops the participation message / withdrawal message from the terminals 4-1 to 4-2, and when detecting the participation message, the MAC unicast address of the transmission source terminal, the IP multicast address of the participation destination, If the corresponding entry is not in the address table 11, the entry is registered.

  When the wireless LAN relay device 1 detects the withdrawal message from the terminals 4-1 to 4-2, the wireless LAN relay device 1 extracts the MAC unicast address of the transmission source terminal and the IP multicast address of the withdrawal destination, and a corresponding entry is obtained. If it is in the address table 11, the entry is deleted.

  FIG. 8 is a flowchart for explaining an example of an entry registration processing procedure in the address table 11 of the wireless LAN relay device 1 according to the embodiment of the present invention. First, when the wireless LAN interface unit 15 receives a wireless LAN frame via the wireless LAN port 14 (S31), an IP multicast participation message and a source MAC unicast address are extracted from the wireless LAN frame, and a multicast conversion processing unit 16 is extracted. (S32). Packets other than the IP multicast participation message are transmitted to the wide area network 3 by normal processing.

  Next, when receiving the IP multicast participation message from the wireless LAN interface unit 15, the multicast conversion processing unit 16 extracts the IP multicast address of the participation destination (S 33), from the IP multicast address of the participation destination and the wireless LAN interface unit 15. The address table 11 is searched with a combination with the received source MAC unicast address (S34). If there is an entry of the set in the address table 11 (S34, entry exists), the process proceeds to step S36 as it is.

  If there is no entry for the set in the address table 11 (S34, no entry), the set is registered in the address table 11 (S35), and the process proceeds to step S36.

  In step S36, the multicast conversion processing unit 16 outputs the IP multicast participation message and the source MAC unicast address to the IP processing unit 17, and ends the processing. The IP processing unit 17 performs normal processing on the IP multicast participation message, and transmits it to the wide area network 3 via the WAN interface unit 13 and the WAN port 12.

  FIG. 9 is a flowchart for explaining an example of a procedure for deleting an entry in the address table 11 of the wireless LAN relay device 1 according to the embodiment of the present invention. First, when the wireless LAN interface unit 15 receives a wireless LAN frame via the wireless LAN port 14 (S41), an IP multicast withdrawal message and a source MAC unicast address are extracted from the wireless LAN frame, and a multicast conversion processing unit 16 is extracted. (S42). Packets other than the IP multicast withdrawal message are transmitted to the wide area network 3 by normal processing.

  Next, when receiving the IP multicast withdrawal message from the wireless LAN interface unit 15, the multicast conversion processing unit 16 extracts the withdrawal destination IP multicast address (S 43), and from the withdrawal destination IP multicast address and the wireless LAN interface unit 15. The address table 11 is searched with the combination with the received source MAC unicast address (S44). If there is no entry of that set in the address table 11 (S44, no entry), the process proceeds to step S46 as it is.

  If there is an entry for the group in the address table 11 (S44, entry is present), the group is deleted from the address table 11 (S45), and the process proceeds to step S46.

  In step S46, the multicast conversion processing unit 16 outputs the IP multicast withdrawal message and the source MAC unicast address to the IP processing unit 17, and ends the processing. Note that the IP processing unit 17 performs normal processing on the IP multicast withdrawal message and transmits it to the wide area network 3 via the WAN interface unit 13 and the WAN port 12.

  FIG. 10 is a diagram schematically illustrating another example of the entry registration / deletion method of the address table 11 of the wireless LAN relay device 1 according to the embodiment of the present invention. FIG. 10 is similar to FIG. 7 in that the IP multicast protocol participation message is snooping and registering an entry in the address table 11, but the IP multicast query message from the wide area network 3 is snooped and the address table 11 is registered. This is different from FIG. 7 in that the entry is deleted. This IP multicast query message is transmitted to all terminals participating in the IP multicast.

  For example, when the terminal a 4-1 receives the IP multicast query message, if the terminal a 4-1 does not leave the IP multicast, a response message is transmitted to the wide area network 3. If the IP multicast is withdrawn, the terminal a4-1 does not respond to the IP multicast query message.

  FIG. 11 is a flowchart for explaining another example of the processing procedure for deleting an entry in the address table 11 of the wireless LAN relay device 1 according to the embodiment of the present invention. When the WAN interface unit 13 receives the IP multicast query message, the multicast conversion processing unit 16 extracts the target IP multicast address from the IP multicast query message (S51).

  Next, the multicast conversion processing unit 16 sets a timer value for each IP multicast address extracted from the IP multicast query message among the IP multicast addresses registered in the address table 11, and starts decrementing the timer value ( S52). Then, the IP multicast query message and the destination MAC multicast address are output to the wireless LAN interface unit 15 (S53).

  Next, upon receiving the IP multicast query message and the destination MAC multicast address from the multicast conversion processing unit 16, the wireless LAN interface unit 15 generates a wireless LAN multicast frame (S54), and generates the generated wireless LAN multicast frame as a wireless LAN. The data is transmitted to the target terminal via the port 14 (S55), and the process ends.

  FIG. 12 is a flowchart for explaining an example of a processing procedure for receiving a response to the IP multicast query message of the wireless LAN relay device 1 according to the embodiment of the present invention. First, when the wireless LAN interface unit 15 receives a wireless LAN frame via the wireless LAN port 14 (S61), an IP multicast participation message and a source MAC unicast address are extracted from the wireless LAN frame, and a multicast conversion processing unit 16 is extracted. (S62). This IP multicast participation message corresponds to the IP multicast query message from the wide area network 3.

  Next, when receiving the IP multicast participation message from the wireless LAN interface unit 15, the multicast conversion processing unit 16 extracts the IP multicast address of the participation destination (S63), and searches the address table 11 with the IP multicast address of the participation destination. (S64). If there is no entry in the address table 11 (S64, no entry), the process proceeds to step S66 as it is.

  If the entry is in the address table 11 (S64, entry is present), if the timer for the IP multicast address is set, it is deleted (S65), and the process proceeds to step S66.

  In step S66, the multicast conversion processing unit 16 outputs the IP multicast participation message and the source MAC unicast address to the IP processing unit 17, and ends the process. The IP processing unit 17 performs normal processing on the IP multicast participation message, and transmits it to the wide area network 3 via the WAN interface unit 13 and the WAN port 12.

  FIG. 13 is a flowchart for explaining the processing procedure when the timer set by the multicast conversion processing unit 16 of the wireless LAN relay device 1 in the embodiment of the present invention times out. When the timer of the IP multicast address for which the timer is set among the IP multicast addresses registered in the address table 11 times out, the multicast conversion processing unit 16 deletes all entries related to the IP multicast address from the address table 11 (S71), and the process ends.

  The wireless LAN relay device 1 described above can also be realized using a general-purpose computer. In this case, the WAN interface unit 13, the wireless LAN interface unit 15, the multicast conversion processing unit 16, and the IP processing unit 17 have a CPU (Central Processing Unit) in the computer stored in a memory such as a RAM (Random Access Memory). This can be realized by executing a program. The address table 11 is arranged in a memory such as a RAM. Even when the wireless LAN relay device is realized by a computer, the processing procedure is the same as that shown in FIGS. 6, 8, 9 and 11-13.

  As described above, according to the wireless LAN relay device of the present embodiment, even if the wireless LAN is used as part of the multicast communication path, the multicast packet is converted into a unicast packet and the terminal Thus, it is possible to prevent the packet loss rate of the entire network system from being affected by the high packet loss rate in the multicast transfer of the wireless LAN.

  In addition, since an error correction function such as FEC is not used, it is possible to prevent extra bandwidth from being consumed or packet loss from being recovered.

  In addition, since registration / deletion of entries in the address table 11 is dynamically performed while snooping IP join / leave messages of IP multicast protocols and IP multicast query messages, it is possible to save the administrator from having to register. It has become possible.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a figure which shows the structural example of the network system in embodiment of this invention. It is a figure which shows the protocol stack in each part of the network system in embodiment of this invention shown in FIG. It is a figure which shows typically the relay method of the IP multicast packet of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a figure which shows an example of the registration / deletion method of the entry of the address table 11 of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a block diagram which shows schematic structure of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a flowchart for demonstrating the process sequence of the IP multicast packet relay of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a figure which shows typically an example of the registration / deletion method of the entry of the address table 11 of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a flowchart for demonstrating an example of the process sequence of the entry registration of the address table 11 of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a flowchart for demonstrating an example of the process procedure of the entry deletion of the address table 11 of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a figure which shows typically another example of the registration / deletion method of the entry of the address table 11 of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a flowchart for demonstrating another example of the process procedure of the entry deletion of the address table 11 of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a flowchart for demonstrating an example of the process sequence of the response reception with respect to IP multicast query message of the wireless LAN relay apparatus 1 in embodiment of this invention. It is a flowchart for demonstrating a process sequence when the timer set by the multicast conversion process part 16 of the wireless LAN relay apparatus 1 in embodiment of this invention times out. It is a figure which shows an example of the conventional network system with which the wireless LAN relay apparatus was connected to the wide area network. It is a figure which shows the protocol stack in each part of the network system shown in FIG.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1,101 Wireless LAN relay apparatus, 2,102 Audio video multicast transmission apparatus, 3,103 Wide area network, 4-1 to 4-2, 104-1 to 104-2 Terminal, 11 Address table, 12 WAN port, 13 WAN Interface unit, 14 wireless LAN port, 15 wireless LAN interface unit, 16 multicast conversion processing unit, 17 IP processing unit.

Claims (7)

A wireless relay device connected to a wide area network and wirelessly transmitting and receiving packets to and from a terminal,
First receiving means for receiving packets via the wide area network;
Conversion means for converting a multicast packet received by the first reception means into a unicast packet;
A wireless relay device, comprising: a transmission means for wirelessly transmitting the unicast packet converted by the conversion means to terminals participating in the multicast group of the multicast packet. The wireless relay device further includes storage means for storing a unicast address of a terminal participating in the multicast group in association with the multicast address,
The radio relay apparatus according to claim 1, wherein the conversion unit converts the multicast packet into a unicast packet with reference to the storage unit. The wireless relay device further includes second receiving means for receiving a packet wirelessly from a terminal,
The radio relay apparatus according to claim 2, wherein the conversion means refers to the multicast participation message received by the second reception means and stores the unicast address of the terminal participating in the multicast group in the storage means.   The radio relay apparatus according to claim 3, wherein the converting means refers to the multicast withdrawal message received by the second receiving means and deletes the unicast address of the terminal participating in the multicast group from the storage means.   In response to the multicast query message received by the first receiving means, the converting means, when the second receiving means does not receive a multicast participation message from the terminal for a predetermined time, of the terminals participating in the multicast group The radio relay apparatus according to claim 3, wherein a unicast address is deleted from the storage unit. A wireless relay method for wirelessly transmitting a multicast packet received via a wide area network to a terminal,
Converting the received multicast packet into a unicast packet;
Wirelessly transmitting the converted unicast packet to terminals participating in the multicast group of the multicast packet. A computer program for causing a computer to execute a wireless relay method for wirelessly transmitting a multicast packet received via a wide area network to a terminal,
The wireless relay method refers to an address table that stores a unicast address of a terminal participating in a multicast group in association with a multicast address, and converts the received multicast packet into a unicast packet;
And wirelessly transmitting the converted unicast packet to terminals participating in the multicast group of the multicast packet.

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