JP5038344B2 - Network system - Google Patents

Description

  The present invention relates to a data transfer device, and more particularly to a data transfer device that transmits and receives IP multicast packets.

  With the advancement of communication network infrastructure, in addition to conventional data transfer such as web or e-mail, data transfer such as video or audio is performed on the communication network, and in particular, data transfer by multicast communication is also performed for video. . In addition, with the use of communication networks as infrastructure, the use of communication networks at home is also increasing. In a home communication network, not only wired communication but also wireless communication is widely used for ease of operation.

  Since the state of radio waves used in wireless communication fluctuates, the physical layer cannot ensure reliability as much as wired communication. Therefore, according to the technique described in Non-Patent Document 1, a mechanism for confirming and retransmitting data transfer is defined in wireless communication defined by IEEE 802.11. However, confirmation and retransmission of data transfer in wireless communication are defined only when the wireless communication method is unicast, and are not defined when the wireless communication method is multicast.

  The wireless communication method is associated with the MAC layer of the transfer data, and is the unicast method when the MAC layer destination address is a unicast address, and the multicast method when the MAC layer destination address is a multicast address. It becomes. In multicast communication used for broadcast-type video distribution, since the destination address of the MAC layer is a multicast address, data transfer confirmation and retransmission are not performed in wireless communication, and reliability cannot be ensured.

  Therefore, in Patent Document 1, in multicast communication, in order to ensure reliability using confirmation and retransmission of data transfer in wireless communication, multicast communication is converted into unicast communication in a wireless communication transmission device, and reception is performed. A technique for reconverting unicast communication to multicast communication in an apparatus is described.

  Patent Document 2 describes a technique for converting a MAC layer destination address of multicast communication from a multicast address to a unicast address in a relay device that is a wireless communication device. Since an IP layer process is performed in an application that receives multicast communication, the method of converting multicast communication to unicast communication including the IP layer as in the technique described in Patent Document 1 reconverts to multicast communication. There is a need to. However, as in the technique described in Patent Document 2, there is no need to perform reconversion in a method in which the MAC layer of multicast communication is converted into unicast communication and the IP layer remains in multicast communication.

  Patent Document 3 describes a technique for converting a MAC layer destination address for multicast communication from a multicast address to a unicast address regardless of wireless communication.

JP 2006-333309 A JP 2007-043982 A JP 2004-242063 A

Institute of Electrical and Electronics Engineers, Inc., "ANSI / IEEE Std 802.11, 1999 Edition (R2003)"

  When converting multicast communication to unicast communication in order to check and retransmit data transfer in wireless communication, process multicast communication control protocol, manage multicast communication receiver, and manage multicast communication receiver When there are a plurality of receiving apparatuses according to the information to be transmitted, it is necessary to copy the multicast communication packet and convert the destination address of the multicast communication. The processing necessary for conversion of these multicast communications is a new load processing of the wireless communication device. This is the first problem to be solved by the present invention.

  In addition, when multicast communication is converted in a device different from the wireless communication device, a receiving device that needs to convert multicast communication for wireless communication cannot be determined. This is the second problem to be solved by the present invention.

A typical example of the present invention is as follows. That is, a network system connected to a transmission device that distributes a multicast packet and a reception device that transmits a transfer request packet of the distributed multicast packet and receives the distributed multicast packet, the network system The system includes: a relay device that transfers the multicast packet and the transfer request packet; and a network device that receives the transfer request packet and transfers the distributed multicast packet. The relay device includes a first interface. And at least two interfaces including a second interface, and a transmission / reception unit that receives a transfer request packet of a multicast packet via the first interface and transmits the transfer request packet via the second interface The transmission / reception unit sets a transmission source unicast MAC address of the transfer request packet as a destination MAC address of the multicast packet when transmitting the multicast packet to the receiving device that requires unicast communication. A request for conversion to be transmitted together with the transfer request packet, the network device receiving a multicast packet, a unicast MAC address and a multicast used to transfer the received multicast packet set a holding portion for holding a MAC address, the destination MAC address of the multicast packet, any one unicast MAC address and a multicast MAC address is the holding, the destination MAC address And a transfer unit for transferring the set multicast packets.

  According to an aspect of the present invention, the network device determines whether or not processing for converting multicast communication is necessary for each receiving terminal, and determines the destination address of the MAC layer for multicast communication when conversion of multicast communication is necessary. When an address is converted to a unicast address and multicast communication conversion is not required, the multicast address is not converted to a unicast address.

  Therefore, since multicast communication is not converted by the wireless communication device, it is possible to reduce the load on the wireless communication device. In addition, it is possible to convert the multicast communication to the wirelessly connected receiving terminal, and to ensure the reliability by confirming and retransmitting the data transfer in the wireless communication. Further, it is possible to maintain the broadcast performance and efficiency of multicast communication at a receiving terminal connected by wire.

1 is a configuration diagram of a network according to a first embodiment of this invention. The state in each hierarchy of the IP multicast transmission start request | requirement and IP multicast transmission end request | requirement transmitted / received by each apparatus of FIG. 1 in the 1st Embodiment of this invention is shown. The state in each hierarchy of the IP multicast transmitted / received by each apparatus of FIG. 1 in the 1st Embodiment of this invention is shown. It is a block diagram of the network apparatus of the 1st Embodiment of this invention. The route information table of the 1st Embodiment of this invention is shown. The MAC conversion information table of the 1st Embodiment of this invention is shown. The path information table which added the MAC conversion information table to the path information table of the 1st Embodiment of this invention is shown. It is a block diagram of the radio relay apparatus of the 1st Embodiment of this invention. It is a block diagram of the network apparatus which added the function of the radio relay apparatus to the network apparatus of the 1st Embodiment of this invention. FIG. 5 is a processing sequence diagram of an IP multicast transmission start request and an IP multicast transmission end request from a wireless terminal that requires MAC layer conversion according to the first embodiment of this invention. FIG. 5 is a processing sequence diagram of an IP multicast transmission start request and an IP multicast transmission end request from a wired terminal that does not require MAC layer conversion according to the first embodiment of this invention. 3 shows a flowchart of route control processing of the network device according to the first embodiment of the present invention. 3 is a flowchart of multicast transmission start / end request processing of the network device according to the first embodiment of this invention. 5 shows a flowchart of MAC conversion request addition processing of the wireless relay device of the first embodiment of this invention. It is a block diagram of the network of the 2nd Embodiment of this invention. FIG. 16 shows states at each layer of an IP multicast transmission start request and an IP multicast transmission end request transmitted and received by each device of FIG. 15 according to the second embodiment of the present invention. The state in each hierarchy of IP multicast transmitted / received by each apparatus of FIG. 15 in the 2nd Embodiment of this invention is shown. FIG. 10 is a processing sequence diagram of an IP multicast transmission start request and an IP multicast transmission end request from a receiving terminal that requires individual control of IP multicast according to the second embodiment of this invention. FIG. 10 is a processing sequence diagram of an IP multicast transmission start request and an IP multicast transmission end request from a receiving terminal that does not require IP multicast individual control according to the second embodiment of this invention. It is a block diagram of the network of the 3rd Embodiment of this invention. The state in each hierarchy of the IP multicast transmission start request | requirement and IP multicast transmission end request | requirement transmitted / received by each apparatus of FIG. 20 in the 3rd Embodiment of this invention is shown. The state in each hierarchy of IP multicast transmitted / received by each apparatus of FIG. 20 in the 3rd Embodiment of this invention is shown. It is a block diagram of ONU of the 3rd Embodiment of this invention. It is a block diagram of ONU which added the function of the radio relay apparatus to ONU of the 3rd Embodiment of this invention. It is a block diagram of the network apparatus of the 4th Embodiment of this invention. The conversion implementation condition table of the 4th Embodiment of this invention is shown. The conversion implementation condition table of the 4th Embodiment of this invention is shown. The route information table of the 5th Embodiment of this invention is shown. The MAC conversion information table of the 5th Embodiment of this invention is shown. The path | route information table which added the MAC conversion information table to the path | route information table of the 5th Embodiment of this invention is shown.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<Embodiment 1>
First, a network configuration according to the first embodiment of this invention will be described.

  FIG. 1 is a configuration diagram of a network according to the first embodiment of this invention.

  The network includes a transmission device 101, a network device 102, a wireless relay device 103, a wireless terminal 104, a wired relay device 105, and a wired terminal 106.

  The transmission device 101 transmits an IP multicast to the network device 102.

  The network device 102 receives an IP multicast transmission start request and an IP multicast transmission end request with a MAC conversion request from the wireless relay device 103. The MAC conversion request is a request for the network device 102 to set the source unicast MAC address of the IP multicast transmission start request and the IP multicast transmission end request as the IP multicast destination MAC address. “With MAC conversion request” means that a MAC conversion request is included in a request to be transferred. In addition, the network device 102 receives an IP multicast transmission start request and an IP multicast transmission end request without a MAC conversion request from the wired relay device 105. “No MAC conversion request” means that the MAC conversion request is not included in the request to be transferred. Further, the network device 102 converts the IP multicast received from the transmission device 101 into a MAC address of the wireless terminal 104 that is the IP multicast destination IP address, and the IP multicast with the converted destination MAC address is a wireless relay device 103. The network apparatus 102 transmits the IP multicast received from the transmission apparatus 101 to the wired relay apparatus 105 without converting the IP multicast destination MAC address.

  The wireless relay device 103 transmits the IP multicast transmission start request and the IP multicast transmission end request received from the wireless terminal 104 to the network device 102 with a MAC conversion request. In addition, the wireless relay device 103 transmits the IP multicast received from the network device 102 to the wireless terminal 104.

  The wireless terminal 104 transmits an IP multicast transmission start request and an IP multicast transmission end request to the wireless relay device 103. Further, the wireless terminal 104 receives the IP multicast from the wireless relay device 103.

  The wired relay device 105 transmits the IP multicast transmission start request and the IP multicast transmission end request received from the wired terminal 106 to the network device 102 without a MAC conversion request. Also, the wired relay device 105 transmits the IP multicast received from the network device 102 to the wired terminal 106.

  The wired terminal 106 transmits an IP multicast transmission start request and an IP multicast transmission end request to the wired relay device 105. Further, the wired terminal 106 receives the IP multicast from the wired relay device 105.

  FIG. 2 shows the status of each layer of an IP multicast transmission start request and an IP multicast transmission end request transmitted and received by each device according to the first embodiment of the present invention.

  The state of the physical layer includes wired and wireless. The state of the MAC layer includes multicast and unicast. The state of the IP layer includes multicast.

  In the IP multicast transmission start request and the IP multicast transmission end request, the destination addresses of the MAC layer and the IP layer are usually multicast. By converting the destination address of the MAC layer to unicast and distinguishing it from a normal request, the presence / absence of a MAC conversion request in the IP multicast transmission start request and the IP multicast transmission end request is indicated.

  When the wireless relay device 103 receives the IP multicast transmission start request and the IP multicast transmission end request from the wireless terminal 104, the wireless relay device 103 sets the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request to the unicast MAC of the network device 102. It is converted into an address and transmitted to the network device 102.

  Further, when receiving the IP multicast transmission start request and the IP multicast transmission end request from the wired terminal 106, the wired relay device 105 transmits the destination address of the MAC layer to the network device 102 without converting it as the multicast MAC address.

  The network device 102 determines whether the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request is a unicast address or a multicast address. As shown in FIG. 3, when the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request is a unicast address, the received IP multicast MAC layer is converted to unicast, and the multicast address In this case, the received IP multicast MAC layer is relayed without being converted into the multicast.

  FIG. 3 shows the state of each layer of IP multicast transmitted and received by each device of the first embodiment of the present invention.

  The state of the physical layer includes wired and wireless. The state of the MAC layer includes multicast and unicast. The state of the IP layer includes multicast.

  The transmission apparatus 101 transmits an IP multicast of a physical layer (wired), a MAC layer (multicast), and an IP layer (multicast) to the network apparatus 102.

  The network device 102 converts the IP multicast MAC layer received from the transmission device 101 into the MAC address of the wireless terminal 104, and performs IP multicast of the physical layer (wired), MAC layer (unicast), and IP layer (multicast). Transmit to the wireless relay device 103. Further, the network device 102 converts the IP multicast of the physical layer (wired), MAC layer (multicast), and IP layer (multicast) to the wired relay device 105 without converting the MAC layer of the IP multicast received from the transmission device 101. Send.

  The wireless relay device 103 receives the MAC layer (unicast) IP multicast from the network device 102, converts the physical layer and the MAC layer to wireless, and converts the physical layer (wireless), MAC layer (wireless, unicast), and IP The layer (multicast) IP multicast is transmitted to the wireless terminal 104.

  The wireless terminal 104 receives the IP multicast of the physical layer (wireless), MAC layer (wireless, unicast), and IP layer (multicast) from the wireless relay device 103.

  The wired relay device 105 receives an IP multicast of the MAC layer (multicast) from the network device 102, and transmits an IP multicast of the physical layer (wired), MAC layer (multicast), and IP layer (multicast) to the wired device 106.

  The wired terminal 106 receives the IP multicast of the physical layer (wired), the MAC layer (multicast), and the IP layer (multicast) from the wired relay device 105.

  FIG. 4 is a configuration diagram of the network device according to the first embodiment of this invention.

  The network device 1101 includes a control unit 1102 and interfaces 1103 (1103A, 1103B, 1103C). Note that the network device 1101 corresponds to the network device 102 in FIG.

  The control unit 1102 includes a control memory 1104 and a control processor 1105. The control memory 1104 stores a multicast transmission start / end request processing program 1106, a route control processing program 1107, a MAC conversion information table 1108, and a route information table 1109.

  The multicast transmission start / end request processing program 1106 creates IP multicast relay information. Specifically, the MAC conversion information table 1108 and the route information table 1109 are created or deleted based on the IP multicast transmission start request or the IP multicast transmission end request received from the wireless relay device 103 or the wired relay device 105.

  The path control processing program 1107 performs IP multicast path control using the MAC conversion information table 1108 and the path control table 1109 in order to transfer the IP multicast received from the transmission apparatus 101.

  The MAC conversion information table 1108 holds information on a destination MAC address to which IP multicast is transferred.

  The route information table 1109 holds information on interfaces that transmit and receive IP multicast.

  The control processor 1105 executes a program stored in the control memory 1104.

  The interface 1103 is connected to the control unit 1102 and transmits / receives data to / from the outside. Although three interfaces are illustrated in FIG. 4, a plurality of interfaces other than three may be provided.

  FIG. 5 shows a route information table according to the first embodiment of this invention.

  The route information table 1109 includes an IP multicast group address 2101, an input interface 2102, and an output interface 2103.

  The IP multicast group address 2101 is a destination address of the IP layer used at the time of IP multicast distribution. The input interface 2102 is an interface through which the network device 102 receives an IP multicast from the transmission device 101. The output interface 2103 is an interface through which the network device 102 transmits IP multicast.

  FIG. 6 shows a MAC conversion information table according to the first embodiment of this invention.

  The MAC translation information table 1108 includes an IP multicast group address 2201, an output interface 2202, and a destination MAC address 2203.

  The IP multicast group address 2201 is a destination address of the IP layer used at the time of IP multicast distribution. The output interface 2202 is an interface through which the network device 102 transmits IP multicast. The destination MAC address 2203 is a MAC address set as the IP multicast destination MAC address transmitted by the network device 102.

  For example, the column 2211 is information set when it is not necessary to convert the IP multicast destination MAC address to unicast. In this case, the MAC address 01: 00: 5e: 7f: 01: 01 corresponding to the IP multicast group address 239.255.1.1 is set as the destination MAC address 2203. The MAC address corresponding to this IP multicast group address matches the MAC address set in the IP multicast destination MAC address that does not convert the destination MAC address. Columns 2212 to 2215 are information set when it is necessary to convert the IP multicast destination MAC address to unicast. In this case, the MAC address of the receiving terminal that has requested IP multicast transmission is set as the destination MAC address 2203.

  Note that the network device 102 according to the first embodiment of this invention stores the route information table 1109 and the MAC conversion information table 1108 separately. However, as shown in FIG. Information of the information table 1108 may be added.

  FIG. 7 illustrates an example of a route information table in which a MAC conversion information table is added to the route information table according to the first embodiment of this invention.

  The path information table shown in FIG. 7 includes an IP multicast group address 2301, an input interface 2302, an output interface 2303, and a destination MAC address 2304.

  Details of each configuration shown in FIG. 7 are the same as those in FIGS. The IP multicast group address 2301 corresponds to the IP multicast group address 2101, the input interface 2302 corresponds to the input interface 2102, the output interface 2303 corresponds to the output interface 2103, and the destination MAC address 2304 corresponds to the destination MAC address 2203. To do.

  As described above, the network device 102 can realize the present invention by holding only the route information table to which the MAC conversion information table is added.

  FIG. 8 is a configuration diagram of the radio relay device according to the first embodiment of this invention.

  The wireless relay device 1201 includes a control unit 1202, a wireless processing unit 1203, and an interface 1204. The wireless relay device 1201 corresponds to the wireless relay device 103 in FIG.

  The control unit 1202 includes a control memory 1205 and a control processor 1206.

  The control memory 1205 stores a MAC conversion request addition processing program 1207, a multicast transmission start / end request processing program 1208, and a wired / wireless MAC processing program 1209.

  The MAC conversion request addition processing program 1207 adds a MAC conversion request to the IP multicast transmission start request or IP multicast transmission end request received from the wireless terminal 104.

  The multicast transmission start / end request processing program 1208 transfers the IP multicast transmission start request or the IP multicast transmission end request received from the wireless terminal 104 to the network device 102.

  The wired / wireless MAC processing program 1209 converts the state of data to be transmitted / received in the physical layer from wired to wireless, or from wireless to wired.

  The control processor 1206 is a processor that executes a program stored in the control memory 1205.

  The wireless processing unit 1203 includes a wireless processing processor 1210 and a wireless unit 1211.

  The wireless processing processor 1210 is a processor that performs mutual conversion between a data signal and a wireless signal and retransmission control of wireless communication. The wireless unit 1211 transmits and receives wireless signals.

  The interface 1204 is connected to the control unit 1202 and transmits / receives data to / from the outside. Although one interface is shown in FIG. 8, a plurality of interfaces may be provided.

  Note that the network configuration of the first exemplary embodiment of the present invention includes the network device 102 and the wireless relay device 103 separately, but the network device 102 has the function of the wireless relay device 103 as shown in FIG. It may be added.

  FIG. 9 is a configuration diagram of a network device in which the function of the wireless relay device is added to the network device according to the first embodiment of this invention.

  A network device 1301 illustrated in FIG. 9 is a modification in which the configuration of the wireless relay device 103 is combined with the configuration of the network device 102 according to the first embodiment. Note that a network can be configured by using the network device 1301 instead of the network device 102 and the wireless relay device 103 in FIG.

  A network device 1301 illustrated in FIG. 9 includes a control unit 1302, a wireless processing unit 1303, and interfaces 1304 (1304A and 1304B).

  The control unit 1302 includes a control memory 1305 and a control processor 1306. The control memory 1305 stores a multicast transmission start / end request processing program 1307, a route control processing program 1308, a wired / wireless MAC processing program 1309, a MAC conversion information table 1310, and a route information table 1311.

  The wireless processing unit 1303 includes a wireless processing processor 1312 and a wireless unit 1313.

  Details of each configuration are the same as those in FIGS. 4 and 8, and a description thereof will be omitted. The multicast transmission start / end request processing program 1307 corresponds to the multicast transmission start / end request processing program 1106, the route control processing program 1308 corresponds to the route control processing program 1107, and the wired / wireless MAC processing program 1309 is wired / wireless. Corresponding to the wireless MAC processing program 1209, the control processor 1306 corresponds to the control processor 1105. The MAC conversion information table 1310 corresponds to the MAC conversion information table 1108, and the path information table 1311 corresponds to the path information table 1109. The wireless processing processor 1312 corresponds to the wireless processing processor 1210, the wireless unit 1313 corresponds to the wireless unit 1211, and the interface 1304 corresponds to the interface 1103.

  Further, since the network device 1301 shown in FIG. 9 does not need to add a MAC conversion request, the MAC conversion request addition processing program 1207 of FIG. 8 is not necessary.

  As described above, by adding the function of the wireless relay device to the network device, the functions of the network device and the wireless relay device can be realized by a single device.

  FIG. 10 is a processing sequence diagram of an IP multicast transmission start request and an IP multicast transmission end request from a wireless terminal that requires MAC address conversion in the MAC layer according to the first embodiment of this invention.

  First, the wireless terminal 104 transmits an IP multicast transmission start request to the wireless relay device 103. When receiving the IP multicast transmission start request from the wireless terminal 104, the wireless relay device 103 transmits an IP multicast transmission start request with a MAC conversion request to the network device 102.

  Next, when receiving an IP multicast transmission start request with a MAC conversion request from the wireless relay device 103, the network device 102 creates IP multicast relay information including information on the MAC conversion.

  Next, the network apparatus 102 converts the IP multicast destination MAC address received from the transmission apparatus 101 into the unicast MAC address of the wireless terminal 104 based on the created IP multicast relay information, and converts the converted IP multicast Is transmitted to the wireless relay device 103. The wireless relay device 103 transmits the IP multicast received from the network device 102 to the wireless terminal 104.

  Next, the wireless terminal 104 transmits an IP multicast transmission end request to the wireless relay device 103. When receiving the IP multicast transmission end request from the wireless terminal 104, the wireless relay device 103 transmits an IP multicast transmission end request with a MAC conversion request to the network device 102.

  Next, when receiving an IP multicast transmission end request with a MAC conversion request from the wireless relay device 103, the network device 102 deletes the created IP multicast relay information including the MAC conversion information.

  FIG. 11 is a processing sequence diagram of an IP multicast transmission start request and an IP multicast transmission end request from a wired terminal that does not require MAC layer conversion according to the first embodiment of this invention.

  First, the wired terminal 106 transmits an IP multicast transmission start request to the wired relay device 105. When receiving the IP multicast transmission start request from the wired terminal 106, the wired relay device 105 transmits an IP multicast transmission start request without a MAC conversion request to the network device 102.

  Next, when the network apparatus 102 receives an IP multicast transmission start request without a MAC conversion request from the wired relay apparatus 105, the network apparatus 102 creates IP multicast relay information that does not include MAC conversion information.

  Next, the network device 102 transmits the IP multicast received from the transmission device 101 to the wired relay device 105 based on the created IP multicast relay information. The wired relay device 105 transmits the IP multicast received from the network device 102 to the wired terminal 106.

  Next, the wired terminal 106 transmits an IP multicast transmission end request to the wired relay device 105. When receiving the IP multicast transmission end request from the wired terminal 106, the wired relay device 105 transmits an IP multicast transmission end request without a MAC conversion request to the network device 102.

  Next, when receiving an IP multicast transmission end request without a MAC conversion request from the wired relay device 105, the network device 102 transmits an IP multicast end confirmation to the wired relay device 105. The wired relay device 105 transmits the IP multicast completion confirmation received from the network device 102 to the wired terminal 106.

  Next, when there is no response to the IP multicast transmission completion confirmation from the wired terminal 106 for a certain time, the network device 102 deletes the created IP multicast relay information without a MAC conversion request.

  FIG. 12 is a flowchart of route control processing of the network device according to the first embodiment of this invention.

  First, the network device 102 receives an IP multicast from the transmission device 101 (3102).

  Next, the network device 102 refers to the path information table 1109 to determine whether or not the received IP multicast relay information exists (3103). If it is determined in step 3103 that the output interface 2103 corresponding to the IP multicast group address 2101 of the IP multicast exists in the route information table 1109, the process proceeds to step 3104. On the other hand, if it does not exist in the route information table 1109, the received IP multicast is discarded and the process is terminated.

  In step 3104, the network device 102 refers to the route information table 1109 and acquires the interface indicated by the output interface 2103 corresponding to the IP multicast group address 2101 of the IP multicast (3104).

  Next, the network device 102 refers to the MAC conversion information table 1108 and acquires the MAC address indicated by the destination MAC address 2203 corresponding to the IP multicast group address 2201 of the IP multicast (3105).

  Next, the network device 102 copies the number of IP multicasts necessary for relaying (3106). Specifically, the network device 102 duplicates the IP multicast as many times as the number of destination MAC addresses 2203 corresponding to the IP multicast group address 2201 exists.

  Next, the network device 102 converts the IP multicast destination MAC address (3107). Specifically, the network device 102 sets the destination MAC address acquired in step 3105 to the destination MAC address of each IP multicast copied in step 3106. When the IP multicast destination MAC address matches the destination MAC address acquired in step 3105, the IP multicast destination MAC address does not have to be converted.

  Next, the network device 102 transmits the IP multicast from the output interface (3108). Specifically, the network device 102 transmits an IP multicast from the output interface acquired in Step 3104. Then, the network device 102 ends the process (3109).

  FIG. 13 is a flowchart of multicast transmission start / end request processing of the network device according to the first embodiment of this invention.

  First, the network device 102 receives data from a relay device (wireless relay device 103 or wired relay device 105) (3202).

  Next, the network device 102 determines whether the received data is an IP multicast transmission start request (3203). If it is determined in step 3203 that the received data is an IP multicast transmission start request, the process proceeds to step 3204. On the other hand, if the received data is not an IP multicast transmission start request, the process proceeds to step 3207.

  In step 3204, the network device 102 determines whether or not the received data includes a MAC conversion request (3204). If it is determined in step 3204 that the received data includes a MAC conversion request, the process proceeds to step 3205. On the other hand, if the received data does not include a MAC conversion request, the process proceeds to step 3206.

  In step 3205, the network apparatus 102 creates IP multicast relay information based on the unicast MAC information to be converted (3205). Specifically, the network device 102 creates the route information table 1109 shown in FIG. 5 based on the received IP multicast transmission start request, and stores it in the information on the transmission source unicast MAC address of the received IP multicast transmission start request. Based on this, the MAC conversion information table 1108 shown in FIG. 6 is created. Then, the process ends.

  In step 3206, the network apparatus 102 creates IP multicast relay information based on multicast MAC information corresponding to IP multicast (3206). Specifically, the network device 102 creates the route information table 1109 shown in FIG. 5 based on the received IP multicast transmission start request, and based on the information of the multicast MAC address corresponding to the IP multicast, the network device 102 creates the route information table 1109 shown in FIG. The indicated MAC conversion information table 1108 is created. Then, the process ends.

  In step 3207, the network device 102 determines whether or not the received data is an IP multicast transmission end request (3207). If it is determined in step 3207 that the received data is an IP multicast transmission end request, the process proceeds to step 3208. On the other hand, if the received data is not an IP multicast transmission end request, normal data processing is executed in step 3211 and the processing ends.

  In step 3208, the network device 102 determines whether or not a MAC conversion request is added to the received data (3208). If it is determined in step 3208 that a MAC conversion request is added to the received data, the process advances to step 3209. On the other hand, if no MAC conversion request is added to the received data, the process proceeds to step 3210.

  In step 3209, the network device 102 deletes the IP multicast relay information of the unicast MAC to be converted (3209). Then, the process ends.

  In step 3210, the network device 102 confirms whether there is a receiving terminal that does not need the IP multicast MAC conversion that has received the transmission end request (3210). Then, the process ends.

  FIG. 14 is a flowchart of the MAC conversion request addition process of the wireless relay device according to the first embodiment of this invention.

  First, the wireless relay device 103 receives data from the wireless terminal 104 (3302).

  Next, the wireless relay apparatus 103 determines whether the received data is an IP multicast transmission start request (3303). If it is determined in step 3303 that the received data is not an IP multicast transmission start request, the process proceeds to step 3304. On the other hand, if the received data is an IP multicast transmission start request, the process proceeds to step 3305.

  In step 3304, the wireless relay apparatus 103 determines whether the received data is an IP multicast transmission end request (3304). If it is determined in step 3304 that the received data is an IP multicast transmission end request, the process proceeds to step 3305. On the other hand, if the received data is not an IP multicast transmission start request, the process proceeds to step 3306, where normal data processing is executed, and the process ends.

  In step 3305, the wireless relay device 103 adds the MAC conversion request and transfers it to the network device 102 (3305). Specifically, the wireless relay device 103 adds a MAC conversion request to the IP multicast transmission start request or the IP multicast transmission end request, and sends the IP multicast transmission start request or the IP multicast transmission end request with the MAC conversion request to the network device 102. Send to. Then, the wireless relay device 103 ends the process.

<Embodiment 2>
The second embodiment of the present invention is an example when it is necessary to individually control wired terminals that request transmission of IP multicast. The case where the wired terminal needs to be individually controlled is, for example, the case where the quality of transmitting the IP multicast to the individual wired terminal needs to be controlled.

  FIG. 15 is a configuration diagram of a network according to the second embodiment of this invention.

  The network includes a transmission device 101, a network device 102, a relay device 107, a receiving terminal (with individual control) 108, a relay device 109, and a receiving terminal (without individual control) 110.

  The difference from the first embodiment is that the receiving terminals 108 and 110 connected to the relay device are both wired connection, and the relay device cannot determine the necessity of individual control from the connection method. .

  The transmission device 101 transmits an IP multicast to the network device 102.

  The network device 102 receives an IP multicast transmission start request and an IP multicast transmission end request with a MAC conversion request from the relay device 107. Further, the network device 102 receives an IP multicast transmission start request and an IP multicast transmission end request without a MAC conversion request from the relay device 109. Further, the network device 102 converts the IP multicast received from the transmission device 101 into an IP multicast destination MAC address converted to the MAC address of the transmission destination receiving terminal (with individual control) 108, and the destination MAC address is converted to the IP multicast. Is transmitted to the relay device 107. The network apparatus 102 transmits the IP multicast received from the transmission apparatus 101 to the relay apparatus 109 without converting the IP multicast destination MAC address.

  The relay apparatus 107 transmits the IP multicast transmission start request with the MAC conversion request and the IP multicast transmission end request received from the receiving terminal (with individual control) 108 to the network apparatus 102. Further, the relay device 107 transmits the IP multicast received from the network device 102 to the receiving terminal (with individual control) 108.

  The receiving terminal (with individual control) 108 requires individual control of IP multicast, and transmits an IP multicast transmission start request and an IP multicast transmission end request with a MAC conversion request to the relay apparatus 107. The receiving terminal (with individual control) 108 receives the IP multicast from the relay device 107.

  The relay device 109 transmits the IP multicast transmission start request and the IP multicast transmission end request without the MAC conversion request received from the receiving terminal (without individual control) 110 to the network device 102. Further, the relay device 109 transmits the IP multicast received from the network device 102 to the receiving terminal (without individual control) 110.

  The receiving terminal (without individual control) 110 does not require individual control of IP multicast, and transmits an IP multicast transmission start request and an IP multicast transmission end request without a MAC conversion request to the relay apparatus 109. Further, the receiving terminal (without individual control) 110 receives the IP multicast from the relay device 109.

  FIG. 16 shows the state of each layer of an IP multicast transmission start request and an IP multicast transmission end request transmitted and received by each device according to the second embodiment of the present invention.

  The state of the physical layer includes wired. The state of the MAC layer includes multicast and unicast. The state of the IP layer includes multicast.

  The receiving terminal (with individual control) 108 sets the unicast MAC address of the network device 102 as the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request, and transmits the unicast MAC address to the network device 102.

  The receiving terminal (without individual control) 110 sets the multicast MAC address as the destination address of the MAC layer in the IP multicast transmission start request and the IP multicast transmission end request, and transmits the multicast MAC address to the network device 102.

  The network device 102 determines whether the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request is a unicast address or a multicast address. If the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request is a unicast address, the received IP multicast MAC layer is converted to unicast, and if it is a multicast address, it is received. The MAC layer of the IP multicast is relayed without conversion without changing the multicast.

  FIG. 17 shows the state of each layer of IP multicast transmitted and received by each device of FIG. 15 in the second embodiment of the present invention.

  The transmission apparatus 101 transmits an IP multicast of a physical layer (wired), a MAC layer (multicast), and an IP layer (multicast) to the network apparatus 102.

  The network apparatus 102 converts the MAC layer of the IP multicast received from the transmission apparatus 101 into the MAC address of the receiving terminal (with individual control) 108, and performs physical layer (wired), MAC layer (unicast), and IP layer (multicast). ) Is transmitted to the relay device 107. The network device 102 transmits the IP multicast of the physical layer (wired), the MAC layer (multicast), and the IP layer (multicast) to the relay device 109 without converting the MAC layer of the IP multicast received from the transmission device 101. To do.

  The relay device 107 receives a MAC layer (unicast) IP multicast from the network device 102, and receives physical layer (wired), MAC layer (unicast), and IP layer (multicast) IP multicast as receiving terminals (individual control). Yes) to 108.

  The receiving terminal (with individual control) 108 receives IP multicast of the physical layer (wired), MAC layer (unicast), and IP layer (multicast) from the relay device 107.

  The relay device 109 receives an IP multicast of the MAC layer (multicast) from the network device 102, and receives IP multicasts of the physical layer (wired), MAC layer (multicast), and IP layer (multicast) 110 (no individual control). Send to.

  The receiving terminal (without individual control) 110 receives the IP multicast of the physical layer (wired), MAC layer (multicast), and IP layer (multicast) from the relay device 109.

  FIG. 18 is a processing sequence diagram of an IP multicast transmission start request and an IP multicast transmission end request from a receiving terminal that requires individual control of IP multicast according to the second embodiment of this invention.

  First, the receiving terminal (with individual control) 108 transmits an IP multicast transmission start request with a MAC conversion request to the relay apparatus 107. When receiving the IP multicast transmission start request with the MAC conversion request from the receiving terminal (with individual control) 108, the relay device 107 transmits the IP multicast transmission start request with the MAC conversion request to the network device 102.

  Next, when receiving an IP multicast transmission start request with a MAC conversion request from the relay apparatus 107, the network apparatus 102 creates IP multicast relay information including information on the MAC conversion.

  Next, the network device 102 converts the IP multicast destination MAC address received from the transmission device 101 into the unicast MAC address of the receiving terminal (with individual control) 108 based on the created IP multicast relay information, The converted IP multicast is transmitted to the relay device 107. The relay device 107 transmits the IP multicast received from the network device 102 to the receiving terminal (with individual control) 108.

  Next, the receiving terminal (with individual control) 108 transmits an IP multicast transmission end request with a MAC conversion request to the relay apparatus 107. When the relay apparatus 107 receives an IP multicast transmission end request with a MAC conversion request from the receiving terminal (with individual control) 108, the relay apparatus 107 transmits an IP multicast transmission end request with a MAC conversion request to the network apparatus 102.

  Next, when receiving an IP multicast transmission end request with a MAC conversion request from the relay apparatus 107, the network apparatus 102 deletes the created IP multicast relay information including the MAC conversion information.

  FIG. 19 is a processing sequence diagram of an IP multicast transmission start request and an IP multicast transmission end request from a receiving terminal that does not require IP multicast individual control according to the second embodiment of this invention.

  First, the receiving terminal (without individual control) 110 transmits an IP multicast transmission start request without a MAC conversion request to the relay apparatus 109. When receiving an IP multicast transmission start request without a MAC conversion request from a receiving terminal (without individual control), the relay device 109 transmits an IP multicast transmission start request without a MAC conversion request to the network device 102.

  Next, when receiving an IP multicast transmission start request without a MAC conversion request from the relay device 109, the network device 102 creates IP multicast relay information that does not include MAC conversion information.

  Next, the network device 102 transmits the IP multicast received from the transmission device 101 to the relay device 109 based on the created IP multicast relay information. The relay device 109 transmits the IP multicast received from the network device 102 to the receiving terminal (without individual control) 110.

  Next, the receiving terminal (without individual control) 110 transmits an IP multicast transmission end request without a MAC conversion request to the relay apparatus 109. When the relay device 109 receives an IP multicast transmission end request without a MAC conversion request from the receiving terminal (without individual control) 110, the relay device 109 transmits an IP multicast transmission end request without a MAC conversion request to the network device 102.

  Next, when receiving an IP multicast transmission end request without a MAC conversion request from the relay device 109, the network device 102 transmits an IP multicast end confirmation to the relay device 109. The relay device 109 transmits the IP multicast end confirmation received from the network device 102 to the receiving terminal (without individual control) 110.

  Next, when there is no response to the IP multicast transmission completion confirmation from the receiving terminal (without individual control) 110 for a certain period of time, the network device 102 deletes the created IP multicast relay information without a MAC conversion request.

<Embodiment 3>
The third embodiment of the present invention is an example of an apparatus in which the function of the network apparatus of the first embodiment is added to an ONU of a PON (Passive Optical Network) system.

  The difference from the first embodiment is that the network is a PON device (OLT: Optical Line Terminal) and a PON device (ONU (home)) instead of the network device, the wireless relay device, and the wired relay device. Inner terminal device): an optical network unit).

  FIG. 20 is a configuration diagram of a network according to the third embodiment of this invention.

  The network according to the third embodiment includes a transmission apparatus 101, an OLT 111, an ONU 112, an ONU 113, an optical splitter 114, a reception terminal (with individual control) 108, and a reception terminal (without individual control) 110. The presence / absence of individual control means, for example, whether or not the transmission quality of IP multicast needs to be controlled for individual wired terminals, as in the second embodiment described above.

  The transmission device 101 transmits an IP multicast to the OLT 111.

  The OLT 111 receives an IP multicast transmission start request and an IP multicast transmission end request from the ONU 112. The OLT 111 receives an IP multicast transmission start request and an IP multicast transmission end request from the ONU 113. Further, the OLT 111 transmits the IP multicast received from the transmission device 101 to the optical splitter 114. The optical splitter 114 distributes the IP multicast received from the OLT 111 to the plurality of ONUs 112 and 113.

  The ONU 112 transmits the IP multicast transmission start request and the IP multicast transmission end request received from the receiving terminal (with individual control) 108 to the OLT 111. Further, the ONU 112 converts the IP multicast received from the OLT 111 into the MAC address of the receiving terminal (with individual control) 108 of the IP multicast destination MAC address, and receives the IP multicast with the converted destination MAC address as the receiving terminal (individual control). Yes) to 108.

  The receiving terminal (with individual control) 108 needs IP multicast individual control, and transmits an IP multicast transmission start request and an IP multicast transmission end request with a MAC conversion request to the ONU 112. The receiving terminal (with individual control) 108 receives the IP multicast from the ONU 112.

  The ONU 113 transmits the IP multicast transmission start request and the IP multicast transmission end request received from the receiving terminal (without individual control) 110 to the OLT 111. The ONU 113 transmits the IP multicast received from the OLT 111 to the receiving terminal (without individual control) 110 without converting the IP multicast destination MAC address.

  The receiving terminal (without individual control) 110 does not require individual control of IP multicast, and transmits an IP multicast transmission start request and an IP multicast transmission end request without a MAC conversion request to the ONU 113. Further, the receiving terminal (without individual control) 110 receives the IP multicast from the ONU 113.

  FIG. 21 shows the status of each layer of an IP multicast transmission / reception start request and an IP multicast transmission end request transmitted / received by each device of the third embodiment of the present invention.

  The receiving terminal (with individual control) 108 sets the unicast MAC address of the ONU 112 as the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request, and transmits it to the ONU 112.

  The receiving terminal (without individual control) 110 sets the multicast MAC address as the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request, and transmits the multicast MAC address to the ONU 113.

  The ONU 112 and the ONU 113 determine whether the destination address of the MAC layer in the IP multicast transmission start request and the IP multicast transmission end request is a unicast address or a multicast address. If the destination address of the MAC layer of the IP multicast transmission start request and the IP multicast transmission end request is a unicast address, the received IP multicast MAC layer is converted to unicast, and if it is a multicast address, it is received. The MAC layer of the IP multicast is relayed without conversion without changing the multicast.

  FIG. 22 shows a state in each layer of IP multicast transmitted and received by each device of FIG. 20 in the third embodiment of the present invention.

  The transmission apparatus 101 transmits an IP multicast of a physical layer (wired), a MAC layer (multicast), and an IP layer (multicast) to the OLT 111.

  The OLT 111 configures the MAC layer part of the IP multicast received from the transmission apparatus 101 in the PON frame format, and distributes the IP multicast of the physical layer (wired), the PON layer, and the IP layer (multicast) by the optical splitter 114. To the ONU 112 and the ONU 113.

  The ONU 112 reconfigures the PON layer of the IP multicast received from the OLT 111 using the unicast MAC address of the receiving terminal (with individual control) 108, and performs physical layer (wired), MAC layer (unicast), and IP layer (multicast). ) Is transmitted to the receiving terminal (with individual control) 108.

  The receiving terminal (with individual control) 108 receives the IP multicast of the physical layer (wired), MAC layer (unicast), and IP layer (multicast) from the ONU 112.

  The ONU 113 reconfigures the PON layer of the IP multicast received from the OLT 111 using a multicast MAC address corresponding to the IP multicast address, and performs IP multicast of the physical layer (wired), MAC layer (multicast), and IP layer (multicast). Is transmitted to the receiving terminal (without individual control) 110.

  The receiving terminal (without individual control) 110 receives the IP multicast of the physical layer (wired), the MAC layer (multicast), and the IP layer (multicast) from the ONU 113.

  FIG. 23 is a configuration diagram of an ONU according to the third embodiment of this invention.

  The ONU 1401 includes a control unit 1402, an interface 1403 (1403A, 1403B), an electrical / optical conversion unit 1404, and an optical transmission / reception unit 1405.

  Since the control unit 1402 and the interface 1403 are the same as those of the network device according to the first embodiment, description thereof is omitted. The control memory 1406 corresponds to the control memory 1104, the multicast transmission start / end request processing program 1408 corresponds to the multicast transmission start / end request processing program 1106, and the path control processing program 1409 corresponds to the path control processing program 1107. Correspondingly, the MAC conversion information table 1410 corresponds to the MAC conversion information table 1108, and the path information table 1411 corresponds to the path information table 1109. The control processor 1407 corresponds to the control processor 1105, and the interface 1403 corresponds to the interface 1103.

  The electrical / optical conversion unit 1404 converts a data signal to be transmitted / received from electricity to light, or from light to electricity.

  The optical transmission / reception unit 1405 is an interface that transmits and receives data signals by light.

  Further, as shown in FIG. 24, the function of the wireless relay device of the first embodiment may be added to the ONU 1401 shown in FIG.

  FIG. 24 is a configuration diagram of an ONU in which a function of a wireless relay device is added to the ONU according to the third embodiment of this invention.

  An ONU 1501 shown in FIG. 24 is a modification in which the configuration of the wireless relay device 103 of the first embodiment is combined with the configuration of the ONU 1401 of the third embodiment. A network can be configured by using the ONU 1501 instead of the ONU 112 and the ONU 113 in FIG. In this case, the ONU 1501 and the receiving terminal 108 are connected by a wireless line.

  The ONU 1501 includes a control unit 1502, a wireless processing unit 1503, an interface 1504, an electrical / optical conversion unit 1505, and an optical transmission / reception unit 1506.

  The control unit 1502 includes a control memory 1507 and a control processor 1508. The control memory 1507 stores a multicast transmission start / end request processing program 1509, a route control processing program 1510, a wired / wireless MAC processing program 1511, a MAC conversion information table 1512, and a route information table 1513.

  The wireless processing unit 1503 includes a wireless processing processor 1514 and a wireless unit 1515.

  Details of each configuration are the same as those in FIGS. The multicast transmission start / end request processing program 1509 corresponds to the multicast transmission start / end request processing program 1408, the route control processing program 1510 corresponds to the route control processing program 1409, and the wired / wireless MAC processing program 1511 corresponds to the wired / wireless MAC processing program 1511. This corresponds to the wireless MAC processing program 1209. The MAC conversion information table 1512 corresponds to the MAC conversion information table 1410, and the path information table 1513 corresponds to the path information table 1411. The control processor 1508 corresponds to the control processor 1407, the interface 1504 corresponds to the interface 1403, the electrical / optical conversion unit 1505 corresponds to the electrical / optical conversion unit 1404, and the optical transmission / reception unit 1506 corresponds to the optical transmission / reception unit 1405. Corresponding to

  In this way, it is possible to provide functions of a network device and a wireless relay device in an ONU that includes a PON system.

<Embodiment 4>
The fourth embodiment of the present invention is an example in which the network device distinguishes whether or not to convert the MAC layer from multicast to unicast by a method different from the first embodiment when relaying IP multicast. is there.

  FIG. 25 is a configuration diagram of a network device according to the fourth embodiment of this invention.

  The difference from the first embodiment is that the control memory 1104 includes a conversion execution condition table 1110.

  The conversion implementation condition table 1110 holds conditions used for determining whether the IP multicast transmission start request and the IP multicast transmission end request received by the network device 102 require unicast conversion of the MAC layer. .

  FIG. 26 is a conversion execution condition table according to the fourth embodiment of this invention.

  The conversion execution condition table 1110 shown in FIG. 26 includes the source IP addresses of the IP multicast transmission start request and the IP multicast transmission end request as conditions for determining whether or not unicast conversion of the MAC layer is necessary. It is an example in the case of using.

  The conversion execution condition table 1110 in FIG. 26 includes the source IP address 2401 of the multicast transmission start request and the IP multicast transmission end request.

  A unicast IP address is registered in the conversion execution condition table 1110. Also, if the source IP address of the IP multicast transmission start request and the IP multicast transmission end request matches the registered unicast IP address, the MAC layer is converted to unicast when relaying the IP multicast, or Set the condition to not convert.

  The conversion execution condition table 1110 is referred to when an IP multicast transmission start request or an IP multicast transmission end request is received. Specifically, when it is determined in step 3204 or step 3208 in FIG. 13 whether a MAC conversion request is added to the received IP multicast transmission start request or IP multicast transmission start request, the conversion execution condition table 1110 is referred to. The If it is determined to convert the MAC layer to unicast, the process proceeds to step 3205 or step 3209, respectively. On the other hand, if it is determined not to convert the MAC layer to unicast, the process proceeds to step 3206 or step 3210, respectively.

  FIG. 27 is another conversion execution condition table according to the fourth embodiment of this invention.

  The conversion execution condition table 1110 shown in FIG. 27 shows the source MAC addresses of the IP multicast transmission start request and the IP multicast transmission end request as conditions for determining whether or not unicast conversion of the MAC layer is necessary. It is an example in the case of using.

  The conversion execution condition table 1110 in FIG. 27 includes a source MAC address 2501 of a multicast transmission start request and an IP multicast transmission end request.

  A unicast MAC address is registered in the conversion execution condition table. Further, when the source MAC address of the IP multicast transmission start request and the IP multicast transmission end request matches the registered unicast MAC address, the MAC layer is converted to unicast at the time of relaying the IP multicast, or Set the condition not to convert.

  Similarly to the conversion execution condition table 1110 of FIG. 26, the conversion execution condition table 1110 of FIG. 27 is referred to when an IP multicast transmission start request or an IP multicast transmission end request is received.

<Embodiment 5>
In the fifth embodiment of the present invention, when the network device controls the IP multicast distribution using the IP multicast group address and the IP address of the transmission device, the transmission of the transmission device to the path information table and the MAC conversion information table This is an example in which information of the original IP address is added.

  FIG. 28 illustrates a route information table according to the fifth embodiment of this invention.

  The path information table shown in FIG. 28 includes an IP multicast group address 2101, a transmission source IP address 2104, an input interface 2102, and an output interface 2103.

  The difference from the first embodiment is that the route information table includes the source IP address 2104.

  The transmission source IP address 2104 is an IP address of a transmission device that distributes IP multicast.

  FIG. 29 is a MAC conversion information table according to the fifth embodiment of this invention.

  The MAC conversion information table shown in FIG. 29 includes an IP multicast group address 2201, a transmission source IP address 2204, an output interface 2202, and a destination MAC address 2203.

  The difference from the first embodiment is that the MAC conversion information table includes a source IP address 2204.

  For example, the column 2221 is information set when it is not necessary to convert the IP multicast destination MAC address to unicast. In this case, the MAC address 01: 00: 5e: 7f: 01: 01 corresponding to the IP multicast group address 239.255.1.1 is set as the destination MAC address 2203. Further, columns 2222 to 2225 are information set when it is necessary to convert the IP multicast destination MAC address to unicast. In this case, the MAC address of the receiving terminal that has requested IP multicast transmission is set as the destination MAC address 2203.

  FIG. 30 is a path information table in which the MAC conversion information table is added to the path information table according to the fifth embodiment of this invention.

  The path information table shown in FIG. 30 includes an IP multicast group address 2301, a transmission source IP address 2305, an input interface 2302, an output interface 2303, and a destination MAC address 2304.

  Details of each component are the same as those in FIGS. Note that the IP multicast group address 2301 corresponds to the IP multicast group address 2101, and the transmission source IP address 2305 corresponds to the transmission source IP address 2104. The input interface 2302 corresponds to the input interface 2102, and the output interface 2303 corresponds to the output interface 2103. A destination MAC address 2304 corresponds to the destination MAC address 2203.

  The following are typical examples of aspects of the present invention other than those described in the claims.

(1) A network system connected to a transmitting device that distributes a multicast packet and a receiving device that transmits a transfer request packet of the distributed multicast packet and receives the distributed multicast packet,
The network system includes:
A relay device for transferring the multicast packet and the transfer request packet;
A network device that receives the transfer request packet and transfers the distributed multicast packet;
With
The relay device is
At least two interfaces including a first interface and a second interface;
A transmission / reception unit that receives a transfer request packet of a multicast packet via the first interface and transmits the transfer request packet via the second interface;
The transmission / reception unit requests to set a transmission source unicast MAC address of the transfer request packet as a destination MAC address of the multicast packet when transmitting the multicast packet to the receiving device that requires unicast communication. A conversion request to be transmitted together with the transfer request packet;
The network device is:
A receiving unit for receiving the multicast packet;
A holding unit that holds a unicast MAC address and a multicast MAC address used when transferring the received multicast packet;
A duplicating unit that duplicates the multicast packet to the same number as the number of the unicast MAC address and multicast MAC address held;
A transfer unit that sets one of the held unicast MAC address and multicast MAC address to the destination MAC address of each duplicated multicast packet and transfers the multicast packet in which the destination MAC address is set A network system comprising:

(2) The receiving unit receives the transfer request packet from the relay device,
The holding part is
When requested to set the source unicast MAC address of the received transfer request packet as the destination MAC address of the multicast packet, register the source unicast MAC address of the received transfer request packet;
Registering a multicast MAC address corresponding to the destination IP address of the multicast packet when the source unicast MAC address of the received transfer request packet is not requested to be set as the destination MAC address of the multicast packet; The network system according to (1), which is characterized.

(3) When the transmission / reception unit transfers the transfer request packet, the transmission / reception unit sets a unicast MAC address of the transfer destination network device to a destination MAC address of the transfer request packet of the multicast packet,
When the destination MAC address of the received transfer request packet is a unicast MAC address of the network device, the holding unit registers a transmission source unicast MAC address of the received transfer request packet ( The network system according to 2).

(4) When the transmission / reception unit transfers the transfer request packet, the transmission / reception unit sets a unicast IP address of the relay device as a transmission source IP address of the transfer request packet;
The holding part is
Further holding the unicast IP address of the relay device;
If the source IP address of the received transfer request packet is the unicast IP address of the held relay device, the source unicast MAC address of the received transfer request packet is registered (2) ) Network system.

(5) The holding part
Further holding a unicast IP address of the receiving device;
If the source IP address of the received transfer request packet is the unicast IP address of the held receiving device, the source unicast MAC address of the received transfer request packet is registered (2) ) Network system.

(6) The holding part is
Further holding a unicast MAC address of the receiving device;
If the destination MAC address of the received transfer request packet is the unicast MAC address of the held receiving device, the source unicast MAC address of the received transfer request packet is registered (2) The network system described in 1.

(7) The network device further includes a PON interface that receives a PON frame including a multicast packet,
The transfer unit sets the held unicast MAC address and multicast MAC address to a destination MAC address of a multicast packet included in the PON interface, and transfers the multicast packet in which the MAC address is set. The network system according to (1).

(8) A network device that holds route information used to transfer a multicast packet,
A receiving unit for receiving the multicast packet;
A holding unit for holding a unicast MAC address and a multicast MAC address used when transferring the received multicast packet;
A duplicating unit that duplicates the multicast packet by the same number as the number of the retained unicast MAC address and multicast MAC address;
A transfer unit that sets one of the held unicast MAC address and multicast MAC address to the destination MAC address of each duplicated multicast packet and transfers the multicast packet in which the destination MAC address is set And a network device.

(9) The receiving unit receives the transfer request packet from a relay device connected to the network device,
The holding part is
When requested to set the source unicast MAC address of the received transfer request packet as the destination MAC address of the multicast packet, register the source unicast MAC address of the received transfer request packet;
Registering a multicast MAC address corresponding to the destination IP address of the multicast packet when the source unicast MAC address of the received transfer request packet is not requested to be set as the destination MAC address of the multicast packet; The network device according to (8), which is characterized.

  (10) When the destination MAC address of the received transfer request packet is a unicast MAC address of the network device, the holding unit registers a transmission source unicast MAC address of the received transfer request packet. The network device according to (9).

(11) The holding part
Further holding a unicast IP address of a relay device that transfers the transfer request packet;
If the source IP address of the received transfer request packet is the unicast IP address of the held relay device, the source unicast MAC address of the received transfer request packet is registered (9) ) Network device.

(12) The holding part
Further holding a unicast IP address of the receiving device;
If the source IP address of the received transfer request packet is the unicast IP address of the held receiving device, the source unicast MAC address of the received transfer request packet is registered (9) ) Network device.

(13) The holding portion is
Further holding a unicast MAC address of the receiving device;
When the transmission source MAC address of the received transfer request packet is the held unicast MAC address of the receiving device, the transmission source unicast MAC address of the received transfer request packet is registered (9) ) Network device.

(14) A relay device for transferring a multicast packet and a transfer request packet of the multicast packet,
Comprising at least two interfaces including a first interface and a second interface;
A transmission / reception unit that receives a transfer request packet of a multicast packet via the first interface and transmits the transfer request packet via a second interface;
The transmission / reception unit requests to set a transmission source unicast MAC address of the transfer request packet as a destination MAC address of the multicast packet when transmitting the multicast packet to the receiving device that requires unicast communication. A relay apparatus that transmits a conversion request packet to be transmitted together with the transfer request packet.

  (15) The transmission / reception unit sets a unicast MAC address of a transfer destination network device as a destination MAC address of the transfer request packet when transferring the transfer request packet. Relay device.

  (16) The transmission / reception unit sets a unicast IP address of the relay device as a transmission source IP address of the transfer request packet when transferring the transfer request packet. Relay device.

  (17) The relay device according to (14), wherein the first interface is a wireless communication interface.

DESCRIPTION OF SYMBOLS 101 Transmitting device 102 Network device 103 Wireless relay device 104 Wireless terminal 105 Wired relay device 106 Wired terminal 107 Relay device 108 Receiving terminal 109 that requires individual control of received IP multicast Relay device 110 No individual control of received IP multicast is required Receiving terminal 111 PON device (OLT)
112, 113 PON equipment (ONU)
114 Optical splitter 1101 Network device 1102 Control unit 1103A, 1103B, 1103C Interface 1104 Control memory 1105 Control processor 1106 Multicast transmission start / end request processing program 1107 Route control processing program 1108 MAC conversion information table 1109 Route information table 1110 Conversion execution condition Table 1201 Wireless relay device 1202 Control unit 1203 Wireless processing unit 1204 Interface 1205 Control memory 1206 Control processor 1207 MAC conversion request addition processing program 1208 Multicast transmission start / end request processing program 1209 Wired / wireless MAC processing program 1210 Wireless processing processor 1211 Wireless unit 1301 Functions of wireless relay device and network device Device 1302 Control unit 1303 Wireless processing unit 1304A, 1304B Interface 1305 Control memory 1306 Control processor 1307 Multicast transmission start / end request processing program 1308 Route control processing program 1309 Wired / wireless MAC processing program 1310 MAC conversion information table 1311 Route information Table 1312 Wireless processing processor 1313 Wireless unit 1401 Device in which network device function is added to ONU of PON system 1402 Control unit 1403A, 1403B interface 1404 Electric / optical conversion unit 1405 Optical transmission / reception unit 1406 Control memory 1407 Control processor 1408 Multicast Transmission start / end request processing program 1409 Path control processing program 1410 MAC conversion information table Table 1411 Route information table 1501 A device in which the functions of a wireless relay device and a network device are added to the ONU of the PON system 1502 Control unit 1503 Wireless processing unit 1504 Interface 1505 Electric / optical conversion unit 1506 Optical transceiver 1507 Control memory 1508 Control processor 1509 multicast transmission start / end request processing program 1510 route control processing program 1511 wired / wireless MAC processing program 1512 MAC conversion information table 1513 route information table 1514 wireless processing processor 1515 wireless unit

Claims (11)

A network system connected to a transmission device that distributes a multicast packet, and a reception device that transmits a transfer request packet of the distributed multicast packet and receives the distributed multicast packet,
The network system includes:
A relay device for transferring the multicast packet and the transfer request packet;
A network device that receives the transfer request packet and transfers the distributed multicast packet;
The relay device is
At least two interfaces including a first interface and a second interface;
A transmission / reception unit that receives a transfer request packet of a multicast packet via the first interface and transmits the transfer request packet via the second interface;
The transmission / reception unit requests to set a transmission source unicast MAC address of the transfer request packet as a destination MAC address of the multicast packet when transmitting the multicast packet to the receiving device that requires unicast communication. A conversion request to be transmitted together with the transfer request packet;
The network device is:
A receiving unit for receiving the multicast packet;
A holding unit that holds a unicast MAC address and a multicast MAC address used when transferring the received multicast packet ;
The destination MAC address of the multicast packet, and set any one unicast MAC address and a multicast MAC address being the holding, and a transfer unit for transferring the multicast packet to the destination MAC address is set A network system characterized by this.   The receiving unit receives the transfer request packet from the relay device;
  The holding part is
  When requested to set the source unicast MAC address of the received transfer request packet as the destination MAC address of the multicast packet, register the source unicast MAC address of the received transfer request packet;
  Registering a multicast MAC address corresponding to the destination IP address of the multicast packet when the source unicast MAC address of the received transfer request packet is not requested to be set as the destination MAC address of the multicast packet; The network system according to claim 1, wherein:   The transmission / reception unit, when transferring the transfer request packet, sets the unicast MAC address of the transfer destination network device to the destination MAC address of the transfer request packet of the multicast packet,
  The holding unit registers a transmission source unicast MAC address of the received transfer request packet when a destination MAC address of the received transfer request packet is a unicast MAC address of the network device. Item 3. The network system according to Item 2.   When the transmission / reception unit transfers the transfer request packet, the transmission / reception unit sets the unicast IP address of the relay device as a transmission source IP address of the transfer request packet;
  The holding part is
  Further holding the unicast IP address of the relay device;
  The transmission source unicast MAC address of the received transfer request packet is registered when the transmission source IP address of the received transfer request packet is a unicast IP address of the held relay apparatus. 2. The network system according to 2.   The holding part is
  Further holding a unicast IP address of the receiving device;
  The transmission source unicast MAC address of the received transfer request packet is registered when the transmission source IP address of the received transfer request packet is a unicast IP address of the held receiving apparatus. 2. The network system according to 2.   The holding part is
  Further holding a unicast MAC address of the receiving device;
  The transmission source unicast MAC address of the received transfer request packet is registered when the transmission source MAC address of the received transfer request packet is the held unicast MAC address of the receiving device. 2. The network system according to 2.   The network device further includes a PON interface that receives a PON frame including a multicast packet,
  The transfer unit sets the held unicast MAC address and multicast MAC address to a destination MAC address of a multicast packet included in the PON interface, and transfers the multicast packet in which the MAC address is set. The network system according to claim 1.   A relay device for forwarding a multicast packet and a multicast packet transfer request packet,
  Comprising at least two interfaces including a first interface and a second interface;
  A transmission / reception unit that receives a transfer request packet of a multicast packet via the first interface and transmits the transfer request packet via a second interface;
The transmission / reception unit requests to set a transmission source unicast MAC address of the transfer request packet as a destination MAC address of the multicast packet when transmitting the multicast packet to the receiving device that requires unicast communication. A relay apparatus that transmits a conversion request packet to be transmitted together with the transfer request packet.   9. The relay apparatus according to claim 8, wherein the transmission / reception unit sets a unicast MAC address of a transfer destination network apparatus as a destination MAC address of the transfer request packet when transferring the transfer request packet. .   The relay apparatus according to claim 8, wherein the transmission / reception unit sets a unicast IP address of the relay apparatus as a transmission source IP address of the transfer request packet when transferring the transfer request packet.   The relay apparatus according to claim 8, wherein the first interface is a wireless communication interface.

Images