JP5452331B2 - Concentration system and concentrator - Google Patents

Description

  The present invention relates to a line concentrator system and a line concentrator in which an access device redundantly belongs to a plurality of line concentrators. Even when one line concentrator causes a failure, another concentrator distributes information to the access device. It is related with the technology which can be delivered immediately.

  In recent years, as the FTTH (Fiber To The Home) service has become widespread, the IPTV (Internet Protocol Television) service has been in increasing demand. In addition, communication services such as FTTH have aspects of social infrastructure and are required to have high reliability.

  When information including IPTV video is distributed, a plurality of access devices often request the same information. Therefore, when the information source distributes to a plurality of access devices by unicast, the use band increases between the information source and the plurality of access devices. However, when the information source distributes to the concentrator by unicast and the concentrator distributes to the plurality of access devices by multicast, the use band decreases between the information source and the concentrator. Non-Patent Document 1 describes a method in which an information source distributes to a concentrator by unicast, and the concentrator distributes to a plurality of access devices by multicast.

  Non-Patent Document 2 describes a specific method in which a concentrator distributes to a plurality of access devices by multicast. First, the concentrator transmits a multicast inquiry message to a plurality of access devices, the plurality of access devices transmit a multicast report message to the concentrator, and the concentrator confirms whether there is an access device desired to be received. . Next, the concentrator distributes to a plurality of access devices in the same manner as broadcast, and the access device that wants to receive acquires the information, and the access device that does not want to receive discards the information. Therefore, band utilization becomes inefficient between the concentrator and the access device that does not desire reception.

  In order to make efficient use of bandwidth between the concentrator and the access device that does not desire reception, Non-Patent Document 3 uses snooping means, and Non-Patent Document 4 uses proxy means. In the snooping means of Non-Patent Document 3, when the line concentrator receives a multicast packet from an information source, the line concentrator distributes the multicast packet only to the access apparatus that desires reception. In the proxy means of Non-Patent Document 4, when the concentrator confirms the access device that it wants to receive, the concentrator requests the multicast packet from the information source and distributes the multicast packet only to the access device that wants to receive it. Therefore, band utilization becomes efficient between the concentrator and the access device that does not desire reception.

  FIG. 1 is a diagram showing a conventional line concentrating system in which non-patent documents 1-4 are merged. The information source 2, the concentrator 1, the access devices 3-1,..., 3-N are arranged from the upstream side toward the downstream side. The information source 2 distributes a multicast stream including all channels to the concentrator 1, and the concentrator 1 distributes a multicast stream including the request channel to the access devices 3-1, ..., 3-N.

  The line concentrator 1 includes a line concentrator 11, a filter 12-1,..., 12-N, a multicast inquiry message issuing unit 13, a multicast report message acquiring unit 14, and a distribution table creating unit 15. The concentrator 11 receives the multicast stream including all channels from the information source 2 and distributes the multicast stream including the request channel to the access devices 3-1 to 3 -N. Further, the line concentrator 11 transmits a multicast inquiry message to the access devices 3-1,..., 3-N, and receives a multicast report message from the access devices 3-1,.

  The filter units 12-1,..., 12-N pass the multicast stream including the request channel among the multicast streams including all channels. The multicast inquiry message issuing unit 13 issues a multicast inquiry message to the concentrator 11. The multicast report message acquisition unit 14 monitors traffic passing through the concentrator 11 by snooping means or proxy means, and acquires a multicast report message from the concentrator 11. The distribution table creation unit 15 creates a distribution table based on the multicast report message. The concentrator 11 distributes the multicast stream including the request channel to the access devices 3-1 to 3 -N based on the distribution table. In the distribution table created by the distribution table creating unit 15, the concentrator 1 distributes the multicast stream including any channel among the multicast streams including all channels to the access devices 3-1, ..., 3-N. Indicates what should be done.

RFC 1112 “Host extensions for IP multicasting”, [online], [March 31, 2010 search], Internet <URL: http: // www. ietf. org / rfc / rfc1112. txt> RFC 2710 “Multicast Listener Discovery (MLD) for IPv6”, [online], [March 31, 2010 search], Internet <URL: http: // www. ietf. org / rfc / rfc2710. txt> RFC 4541 “Considerations for Internet Group Management Protocol (IGMP) and Multilist Listener Discovery (MLD)“ Snooping Switches ”, [online], [March 31, 2010 w] ietf. org / rfc / rfc4541. txt> RFC 4605 “Internet Group Management Protocol (IGMP) / Multicast Listener Discovery (MLD) -Based Multicast Forwarding” (“IGMP / MLD Proxing”), [Internet, Month, 2010] http: // www. ietf. org / rfc / rfc4605. txt>

JP 2009-284179 A

  Here, in the concentrator shown in FIG. 1, when a fault occurs in the concentrator 1, the multicast stream including the request channel is not distributed to the access devices 3-1, ..., 3-N. However, in the line concentrator shown in FIG. 2, since a plurality of line concentrators are arranged redundantly, even if a failure occurs in one line concentrator, distribution processing from one wiring apparatus to another line concentrator , 3-N is distributed to the access devices 3-1,..., 3-N.

  FIG. 2 is a diagram showing a conventional line concentrator system in which a plurality of line concentrators are redundantly arranged. As it goes from the upstream side to the downstream side, the information source 2, the concentrators 1-1, 1-2, the access devices 3-1, ..., 3-L, 3-M, ..., 3-N Has been placed. The information source 2 distributes a multicast stream including all channels to the concentrators 1-1 and 1-2, and the concentrator 1-1 includes the request channels in the access devices 3-1, ..., 3-L. The multicast stream is distributed, and the concentrator 1-2 distributes the multicast stream including the request channel to the access devices 3-M,..., 3-N.

  The concentrator 1-1 includes a concentrator 11-1, filter units 12-11, ..., 12-1L, 12-1M, ..., 12-1N, a multicast inquiry message issuing unit 13-1, and a multicast. It consists of a report message acquisition unit 14-1, a distribution table creation unit 15-1, and a failure information recognition unit 16-1. The concentrator 1-2 includes a concentrator 11-2, filter units 12-21, ..., 12-2L, 12-2M, ..., 12-2N, a multicast inquiry message issuing unit 13-2, and multicast. It consists of a report message acquisition unit 14-2, a distribution table creation unit 15-2, and a failure information recognition unit 16-2. The parts of the line concentrating system shown in FIG. 2 different from the line concentrating system shown in FIG. 1 will be described.

  In the following, the processing when a failure occurs in the concentrator 1-1 will be described, but the processing when a failure occurs in the concentrator 1-1 and the processing when a failure occurs in the concentrator 1-2 are the same. It is. The failure information recognition unit 16-2 recognizes that a failure has occurred in the concentrator 1-1, and notifies the concentrator 11-2 of the failure information of the concentrator 1-1. The concentrator 11-2 can start communication with the access devices 3-1, ..., 3-L instead of the concentrator 11-1.

  However, the delivery table creation unit 15-2 does not store the delivery table created by the delivery table creation unit 15-1. Therefore, the concentrator 11-2 can distribute the multicast stream including the request channel to the access devices 3-1, ..., 3-L based on the distribution table created by the distribution table creator 15-1. Can not. Then, the concentrator 11-2 transmits a multicast inquiry message to the access devices 3-1,..., 3-L, and then sends a multicast report message from the access devices 3-1,. Until a multicast stream including a request channel cannot be distributed to the access devices 3-1,..., 3-L.

  Therefore, in order to solve the above-described problem, the present invention provides a concentrator system and a concentrator in which the access device redundantly belongs to a plurality of concentrators, even when one concentrator causes a failure. It is an object of the present invention to provide a technology that allows another line concentrator to quickly distribute distribution information to an access device.

  In order to achieve the above object, in a line concentrator system comprising a first concentrator, a second concentrator, and a plurality of access devices that communicate with the first concentrator at the normal time of the first concentrator, the second concentrator comprises: A distribution table created by the first line concentrator from one line concentrator is acquired, and each access apparatus requests each access apparatus based on the distribution table created by the first line concentrator when a failure occurs in the first line concentrator. Information was distributed.

  Specifically, the present invention includes a plurality of access devices that transmit access information that designates distribution information for requesting access among distribution information of an information source, and that receives the distribution information corresponding to the access information, and the information Distribution indicating which distribution information held by the source is received from the information source and which distribution information among the distribution information held by the information source is distributed to which access device based on the access information received from each access device A first concentrator that creates a table, delivers delivery information corresponding to the access information reflected in the created delivery table to each access device, and receives delivery information of the information source from the information source; A distribution table created by the first line concentrator is acquired from the first line concentrator, and when a failure occurs in the first line concentrator, A second concentrator for distributing the acquired distribution information corresponding to the access information reflected in the distribution tables in each access device, a line concentration system, characterized in that it comprises a.

  According to this configuration, even when the first concentrator causes a failure, the second concentrator connects each access device that communicates with the first concentrator during normal operation of the first concentrator. The distribution information requested by can be distributed immediately.

  Further, the present invention is the line concentrator system, wherein the second line concentrator constantly acquires the distribution table created by the first line concentrator from the first line concentrator.

  According to this configuration, even when the first concentrator causes a failure, the second concentrator connects each access device that communicates with the first concentrator during normal operation of the first concentrator. The distribution information requested by can be quickly and reliably distributed.

  Further, according to the present invention, the second concentrator updates the acquired distribution table by overwriting based on the access information received from each access device when the first concentrator fails, and the overwritten update distribution table. The distribution system is characterized in that distribution information corresponding to the access information reflected in is distributed to each access device.

  The first concentrator updates the distribution table after the second concentrator acquires the distribution table created by the first concentrator lastly and before the first concentrator generates a failure. There can be. According to this configuration, even in such a case, the second concentrator promptly sends the distribution information requested by each access device to each access device that communicates with the first concentrator during normal operation of the first concentrator. And can be delivered reliably.

  In addition, the present invention provides any one of the distribution information of the information source based on the access information that specifies the distribution information that requests access among the distribution information of the information source. A distribution table creation unit that creates a delivery table indicating whether to deliver to an access device, and an access that receives the delivery information of the information source from the information source and is reflected in the delivery table created by the delivery table creation unit A distribution information distribution unit that distributes distribution information corresponding to the information to each access device; and a distribution table provision unit that provides the distribution table created by the distribution table creation unit to another line concentrator. It is a concentrator.

  According to this configuration, even when the concentrator causes a failure, the other concentrators send the distribution information requested by each access device to each access device that communicates with the concentrator during normal operation of the concentrator. Can be delivered as soon as possible.

  Further, the present invention is the concentrator, wherein the distribution table providing unit steadily provides the distribution table created by the distribution table creating unit to the other concentrator.

  According to this configuration, even when the concentrator causes a failure, the other concentrators send the distribution information requested by each access device to each access device that communicates with the concentrator during normal operation of the concentrator. It can be delivered quickly and reliably.

  Further, the present invention provides any of the distribution information of the information source created based on the access information that designates the distribution information for requesting access among the distribution information of the information source by the plurality of access devices. Distribution table acquisition unit for acquiring a distribution table indicating to which access device the distribution table is acquired from another line concentrator, and a distribution table creation unit for storing the distribution table acquired by the distribution table acquisition unit as an initial value; The distribution information corresponding to the access information reflected in the distribution table received as the initial value by the distribution table creation unit when the distribution information of the information source is received from the information source and the other concentrator fails A distribution information distribution unit that distributes the information to each access device.

  According to this configuration, even when another concentrator causes a failure, the concentrator requests each access device that communicates with the other concentrator during normal operation of the other concentrator. The distribution information to be delivered can be delivered immediately.

  Further, the present invention is the concentrator, wherein the distribution table acquisition unit constantly acquires the distribution table created by the other concentrator from the other concentrator.

  According to this configuration, even when another concentrator causes a failure, the concentrator requests each access device that communicates with the other concentrator during normal operation of the other concentrator. The distribution information to be delivered can be delivered promptly and reliably.

  Further, according to the present invention, the distribution table creation unit overwrites and updates the distribution table stored as an initial value based on the access information received from each access device when the other concentrator fails, and distributes the distribution information The distribution unit is configured to distribute distribution information corresponding to the access information reflected in the distribution table overwritten and updated by the distribution table creation unit to each access device in the event of a failure of the other concentrator. is there.

  The other concentrator may update the distribution table after the concentrator finally acquires the distribution table created by the other concentrator and before the other concentrator causes a failure. obtain. According to this configuration, even in such a case, the concentrator can promptly send distribution information requested by each access device to each access device that communicates with the other concentrator during normal operation of the other concentrator. Can be delivered reliably.

  The present invention relates to a line concentrator system and a line concentrator in which an access device redundantly belongs to a plurality of line concentrators. Even when one line concentrator causes a failure, another concentrator distributes information to the access device. Can be provided as soon as possible.

It is a figure which shows the concentrating system in a prior art. It is a figure which shows the concentrating system in a prior art. It is a figure which shows the concentrating system in Embodiment 1. FIG. It is a figure which shows the concentrating system in Embodiment 1. FIG. It is a figure which shows the concentrating system in Embodiment 2. FIG. It is a figure which shows the concentrating system in Embodiment 2. FIG. It is a figure which shows the structure of PON in Embodiment 3, 4. FIG. It is a figure which shows the relationship between L2SW and OSU in Embodiment 3. It is a figure which shows the relationship between OSU and ONU in Embodiment 4. It is a figure which shows the switching apparatus in Embodiment 4.

  Embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments described below are examples of the present invention, and the present invention is not limited to the following embodiments. In the present specification and drawings, the same reference numerals denote the same components.

(Embodiment 1)
3 and 4 are diagrams showing the line concentrating system according to the first embodiment. As it goes from the upstream side to the downstream side, the information source 2, the concentrators 1-1, 1-2, the access devices 3-1, ..., 3-L, 3-M, ..., 3-N Has been placed. The line concentrators 1-1 and 1-2 are connected via the distribution table synchronization device 4. The information source 2 distributes multicast streams including all channels to the concentrators 1-1 and 1-2 as distribution information, and the concentrator 1-1 requests the access devices 3-1, ..., 3-L. The multicast stream including the channel is distributed as distribution information, and the concentrator 1-2 distributes the multicast stream including the request channel as distribution information to the access devices 3-M,..., 3-N.

  The concentrator 1-1 includes a concentrator 11-1, filter units 12-11, ..., 12-1L, 12-1M, ..., 12-1N, a multicast inquiry message issuing unit 13-1, and a multicast. It consists of a report message acquisition unit 14-1, a distribution table creation unit 15-1, and a failure information recognition unit 16-1. The concentrator 1-2 includes a concentrator 11-2, filter units 12-21, ..., 12-2L, 12-2M, ..., 12-2N, a multicast inquiry message issuing unit 13-2, and multicast. It consists of a report message acquisition unit 14-2, a distribution table creation unit 15-2, and a failure information recognition unit 16-2. Hereinafter, the processing contents of the components of the concentrator 1-1 will be described, but the processing contents of the components of the concentrator 1-1 are the same as the processing contents of the components of the concentrator 1-2.

  As the distribution information distribution unit, the concentrator 11-1 receives a multicast stream including all channels from the information source 2, and distributes the multicast stream including the request channel to the access devices 3-1, ..., 3-L. . Further, the concentrator 11-1 transmits a multicast inquiry message to the access devices 3-1,..., 3-L, and accesses the multicast report message from the access devices 3-1,. Receive as information.

  The filter units 12-11,..., 12-1L, 12-1M,..., 12-1N pass the multicast stream including the request channel among the multicast streams including all channels. The filter units 12-11,..., 12-1L communicate with the access devices 3-1,. The filter units 12-1M, ..., 12-1N communicate with the access devices 3-M, ..., 3-N, respectively, when a failure occurs in the line concentrator 1-2. -2 is not redundantly communicated with the access devices 3-1,..., 3-N.

  The multicast inquiry message issuing unit 13-1 issues a multicast inquiry message to the concentrator 11-1. The multicast report message acquisition unit 14-1 monitors traffic passing through the concentrator 11-1 by snooping means or proxy means, and acquires a multicast report message from the concentrator 11-1.

  The distribution table creation unit 15-1 creates a distribution table based on the multicast report message. The concentrator 11-1 distributes the multicast stream including the request channel to the access devices 3-1, ..., 3-L based on the distribution table. The distribution table created by the distribution table creation unit 15-1 is a multicast table including any channel among the multicast streams including all channels in the access device 3-1,..., 3-L. Indicates whether the stream should be delivered.

  The failure information recognition unit 16-1 recognizes that a failure has occurred in the concentrator 1-2, and notifies the concentrator 11-1 of the failure information of the concentrator 1-2. The concentrator 11-1 can start communication with the access devices 3-M, ..., 3-N instead of the concentrator 11-2.

  Examples of the method by which the failure information recognition unit 16-1 recognizes that a failure has occurred in the concentrator 1-2 include the following methods. In the first method, the failure information recognition unit 16-1 monitors the signal of the interface of the line concentrator 1-2 and recognizes that a normal signal has not been received for a certain period of time, thereby collecting the line concentrator 1-. 2. Recognize that a failure has occurred. In the second method, the concentrators 1-1 and 1-2 are connected via the backplane, and link information is periodically exchanged between them, and the fault information recognition unit 16-1 includes the concentrator 1- By monitoring the link information from No. 2, it is recognized that a failure has occurred in the concentrator 1-2.

  The distribution table synchronization device 4 synchronizes the distribution tables created by the distribution table creation units 15-1 and 15-2. Here, synchronizing the distribution tables created by the distribution table creation units 15-1 and 15-2 makes the contents of the distribution tables stored in the distribution table creation units 15-1 and 15-2 the same content. That means. That is, the distribution table synchronization device 4 imports the distribution table created by the distribution table creation unit 15-1 from the distribution table creation unit 15-1 to the distribution table creation unit 15-2. As a result, the distribution table creation unit 15-2 not only stores the distribution table created by itself, but also stores the distribution table created by the distribution table creation unit 15-1. Then, the distribution table synchronization device 4 imports the distribution table created by the distribution table creation unit 15-2 from the distribution table creation unit 15-2 to the distribution table creation unit 15-1. As a result, the distribution table creation unit 15-1 not only stores the distribution table created by itself, but also stores the distribution table created by the distribution table creation unit 15-2.

  As a method for synchronizing the distribution tables created by the distribution table creating units 15-1 and 15-2, the following methods can be cited in addition to the method using the distribution table synchronization means 4. That is, the line concentrator 1-1 includes a first distribution table providing unit and a first distribution table acquiring unit, and the first distribution table providing unit converts the distribution table created by the distribution table creating unit 15-1 into the distribution table. The first distribution table acquisition unit provides the generation table 15-2, and acquires the distribution table generated by the distribution table generation unit 15-2 from the distribution table generation unit 15-2. The line concentrator 1-2 includes a second distribution table providing unit and a second distribution table acquiring unit, and the second distribution table providing unit converts the distribution table created by the distribution table creating unit 15-2 into the distribution table. The second delivery table acquisition unit provides the creation table 15-1 and the delivery table created by the delivery table creation unit 15-1 from the delivery table creation unit 15-1. Here, the distribution table synchronization means 4 is not used.

  The following timings are given as timings for synchronizing the distribution tables created by the distribution table creating units 15-1 and 15-2. If the first timing is used, the distribution table is constantly synchronized every time the distribution table is updated. If the second timing is used, the distribution table is steadily synchronized every time a predetermined time elapses. If the third timing is used, the distribution table is always synchronized. If the above timing is used, the delivery table can be reliably synchronized.

  Next, a process before a failure occurs in the line concentrator 1-1 will be described with reference to FIG. Hereinafter, the processing contents of the components of the concentrator 1-1 will be described, but the processing contents of the components of the concentrator 1-1 are the same as the processing contents of the components of the concentrator 1-2.

  The multicast inquiry message issuing unit 13-1 issues a multicast inquiry message to the concentrator 11-1, and the concentrator 11-1 sends a multicast inquiry message to the access devices 3-1, ..., 3-L. Send. The concentrator 11-1 receives the multicast report message from the access devices 3-1,..., 3-L, and the multicast report message acquisition unit 14-1 acquires the multicast report message from the concentrator 11-1. .

  The distribution table creation unit 15-1 creates a distribution table based on the multicast report message. The concentrator 11-1 receives the multicast stream including all channels from the information source 2, and distributes the multicast stream including the requested channel to the access devices 3-1, ..., 3-L based on the distribution table. . The filter units 12-11,..., 12-1L pass the multicast streams including the request channels of the access devices 3-1,. The distribution table synchronization device 4 synchronizes the distribution tables created by the distribution table creation units 15-1 and 15-2.

  Next, processing after a failure occurs in the concentrator 1-1 will be described with reference to FIG. In the following, the processing after a failure has occurred in the concentrator 1-1 will be described, but the processing after a failure has occurred in the concentrator 1-1 and the processing after a failure has occurred in the concentrator 1-2 are the same. It is.

  The failure information recognition unit 16-2 recognizes that a failure has occurred in the concentrator 1-1, and notifies the concentrator 11-2 of the failure information of the concentrator 1-1. The concentrator 11-2 receives a multicast stream including all channels from the information source 2, and based on the distribution table created by the distribution table creator 15-1 and imported by the distribution table synchronization means 4, the access device 3- A multicast stream including the request channel is distributed to 1,..., 3-L. The filter units 12-21,..., 12-2L pass the multicast streams including the request channels of the access devices 3-1,.

  Even before a fault occurs in the concentrator 1-1, or after a fault occurs in the concentrator 1-1, the concentrator 11-2 receives the access devices 3-M,. -N Communicating with N. The concentrator 11-2 receives a multicast stream including all channels from the information source 2, and based on the distribution table created by the distribution table creator 15-2, the access devices 3-M, ..., 3- A multicast stream including a request channel is distributed to N. Filter units 12-2M,..., 12-2N pass multicast streams including request channels of access devices 3-M,.

  As described above, the line concentrator system includes a plurality of line concentrators and a plurality of access devices that communicate with one line concentrator during normal operation of the single line concentrator. Another concentrator acquires a distribution table created by one concentrator from one concentrator. Other concentrators can quickly distribute a multicast stream including a request channel to each access device based on a distribution table created by the one concentrator when a single concentrator fails.

(Embodiment 2)
5 and 6 are diagrams showing a line concentrating system according to the second embodiment. In the following, the parts of the second embodiment different from the first embodiment will be mainly described.

  First, a process before a failure occurs in the concentrator 1-1 will be described with reference to FIG. Hereinafter, the processing contents of the components of the concentrator 1-1 will be described, but the processing contents of the components of the concentrator 1-1 are the same as the processing contents of the components of the concentrator 1-2.

  The second embodiment is the same as the first embodiment with respect to the processing before a failure occurs in the concentrator 1-1. However, the distribution table is synchronized between the time when the distribution table synchronization device 4 last synchronizes the distribution table created by the distribution table creation units 15-1 and 15-2 and the time when the concentrator 1-1 generates a failure. The creation unit 15-1 may update the distribution table. Therefore, the distribution table creation unit 15-2 stores the distribution table that has already been created by the distribution table creation unit 15-1 at the time of the last synchronization, but is newly updated by the distribution table creation unit 15-1. It is possible that no distribution table is stored.

  Next, processing after a failure occurs in the concentrator 1-1 will be described with reference to FIG. In the following, the processing after a failure has occurred in the concentrator 1-1 will be described, but the processing after a failure has occurred in the concentrator 1-1 and the processing after a failure has occurred in the concentrator 1-2 are the same. It is.

  The failure information recognition unit 16-2 recognizes that a failure has occurred in the concentrator 1-1, notifies the concentrator 11-2 of the failure information of the concentrator 1-1, and sends a multicast inquiry message issuing unit 13. -2 is notified of the failure information of the concentrator 1-1.

  The multicast inquiry message issuing unit 13-2 issues a multicast inquiry message to the concentrator 11-2, and the concentrator 11-2 sends a multicast inquiry message to the access devices 3-1, ..., 3-L. Send. The concentrator 11-2 receives the multicast report message from the access devices 3-1, ..., 3-L, and the multicast report message acquisition unit 14-2 acquires the multicast report message from the concentrator 11-2. .

  The distribution table creation unit 15-2 stores the distribution table related to the access devices 3-1,..., 3-L stored as initial values at the time of the last synchronization, related to the access devices 3-1,. Overwrite update based on multicast report message. The concentrator 11-2 receives a multicast stream including all channels from the information source 2, and based on the distribution table overwritten and updated by the distribution table creator 15-2, the access devices 3-1,. -Deliver a multicast stream including the request channel to L. The filter units 12-21,..., 12-2L pass the multicast streams including the request channels of the access devices 3-1,.

  As described above, the line concentrator system includes a plurality of line concentrators and a plurality of access devices that communicate with one line concentrator during normal operation of the single line concentrator. Other concentrators overwrite and update the distribution table created by one concentrator acquired from one concentrator during the last synchronization based on the multicast report message acquired from each access device when one concentrator fails To do. Other concentrators can quickly and reliably deliver a multicast stream including a request channel to each access device based on the distribution table updated in this way when one concentrator fails.

(Embodiment 3)
FIG. 7 is a diagram illustrating a configuration of a PON (Passive Optical Network). The PON is a P2MP (Point To Multi Point) network, and includes an L2SW (Layer 2 Switch) 5, an OSU (Optical Subscriber Unit) 6-1, ..., 6-m, an ONU (Optical Network Unit) 7-1. , 7-1n,..., 7-m1,..., 7-mn, and optical power splitters 8-1,.

  In the third embodiment, the concentrator and the access device are L2SW and OSU, respectively, and the invention described in the second embodiment is applied. FIG. 8 is a diagram illustrating the relationship between the L2SW and the OSU in the third embodiment. L2SW5-1, 5-2, OSU6-1, ..., 6-8, 6-9, ..., 6-16 are arranged from the upstream side toward the downstream side. The L2SWs 5-1 and 5-2 are connected via the distribution table synchronization device 4.

  The OSUs 6-1,..., 6-8 use L2SW5-1 as a main system and L2SW5-2 as a subsystem. The OSUs 6-9,..., 6-16 use L2SW5-2 as the main system and L2SW5-1 as the sub system. The OSU 6 receives a multicast stream from the primary L2SW 5 when the primary L2SW 5 has not failed, but receives a multicast stream from the secondary L2SW 5 when the primary L2SW 5 has failed. To do.

  The processing content of each component of the L2SW 5 is the same as the processing content of each component of the line concentrator 1. Therefore, one L2SW 5 can quickly distribute the multicast stream to the OSU 6 whose main system is the other L2SW 5 based on the distribution table created by the other L2SW 5 when the other L2SW 5 fails. Furthermore, one L2SW 5 is a distribution created by another L2SW 5 acquired from the other L2SW 5 at the time of the last synchronization based on the multicast report message acquired from the OSU 6 whose main system is the other L2SW 5 when the other L2SW 5 fails. Update the table by overwriting. Then, one L2SW 5 can quickly and surely distribute the multicast stream to the OSU 6 whose main system is the other L2SW 5 based on the distribution table updated in this way when the other L2SW 5 fails. .

(Embodiment 4)
In the fourth embodiment, the concentrator and the access device are OSU and ONU, respectively, and the invention described in the second embodiment is applied. FIG. 9 is a diagram illustrating the relationship between the OSU and the ONU in the fourth embodiment. As it goes from the upstream side to the downstream side, the OSUs 6-1 and 6-2, the switching device 9, the optical power splitters 8-1 and 8-2, the ONUs 7-1, ..., 7-32, 7-33,. .., 7-64 are arranged. The ONUs 7-1, ..., 7-32 are connected to the optical power splitter 8-1 and the ONUs 7-33, ..., 7-64 are connected to the optical power splitter 8-2. The OSUs 6-1 and 6-2 are connected via the distribution table synchronization device 4.

  The ONUs 7-1,..., 7-32 have the OSU 6-1 as the main system and the OSU 6-2 as the sub system. The ONUs 7-33,..., 7-64 have the OSU 6-2 as the main system and the OSU 6-1 as the sub system. The ONU 7 receives a multicast stream from the primary OSU 6 when the primary OSU 6 has not failed, but receives a multicast stream from the secondary OSU 6 when the primary OSU 6 has failed. To do.

  The switching device 9 is disclosed in Patent Document 1, and performs switching from the main system to the sub system or switching from the sub system to the main system. FIG. 10 is a diagram illustrating the switching device 9. The switching device 9 includes optical transmission / reception units 91-1 and 91-2, an upstream signal 2 × 2 electrical circuit 92, and a downstream signal 2 × 2 electrical circuit 93.

  The optical transmission / reception unit 91-1 is connected to the optical power splitter 8-1, outputs an upstream signal to the upstream signal 2 × 2 electrical circuit 92, and inputs a downstream signal from the downstream signal 2 × 2 electrical circuit 93. To do. The optical transmission / reception unit 91-2 is connected to the optical power splitter 8-2, outputs an upstream signal to the upstream signal 2 × 2 electrical circuit 92, and inputs a downstream signal from the downstream signal 2 × 2 electrical circuit 93. To do.

  The upstream signal 2 × 2 electric circuit 92 includes branching means and selection means. The branching unit and the selection unit direct the upstream signal from the optical power splitters 8-1 and 8-2 to either one of the OSUs 6-1 and 6-2 in accordance with the switching command from the concentrators 61-1 and 61-2 Output.

  The downstream signal 2 × 2 electric circuit 93 includes branching means, selection means, and filter means. The branching unit and the selection unit direct the downstream signal from the OSUs 6-1 and 6-2 to either one of the optical power splitters 8-1 and 8-2 in accordance with the switching instruction by the concentrators 61-1 and 61-2. Output. Based on the switching command by the concentrators 61-1 and 61-2 and the distribution table created by the distribution table creators 64-1 and 64-2, the filter means Pass the multicast stream that contains it.

  The processing content of each component of the OSU 6 is substantially the same as the processing content of each component of the line concentrator 1. Therefore, one OSU 6 can quickly distribute the multicast stream to the ONU 7 whose main system is the other OSU 6 based on the distribution table created by the other OSU 6 when another OSU 6 fails. Furthermore, one OSU 6 is based on a multicast report message acquired from the ONU 7 whose main system is another OSU 6 when another OSU 6 fails, and the distribution created by the other OSU 6 acquired from the other OSU 6 during the last synchronization. Update the table by overwriting. Then, one OSU 6 can quickly and reliably deliver the multicast stream to the ONU 7 whose main system is the other OSU 6 on the basis of the delivery table updated in this way when another OSU 6 fails. .

  The concentrator system and concentrator according to the present invention can be used for a network having a hierarchical structure. In any hierarchy of the hierarchical structure, the present invention can be implemented with the upper device as the concentrator 1 and the lower device as the access device 3.

  The concentrator system and the concentrator according to the present invention can be used in a communication system in which a communication medium is not limited, such as an optical communication system and a wireless communication system.

1: Concentrator 2: Information source 3: Access device 4: Distribution table synchronizer 5: L2SW
6: OSU
7: ONU
8: Optical power splitter 9: Switching devices 11, 51, 61: Concentrator 12, 52: Filters 13, 53, 62: Multicast inquiry message issuing units 14, 54, 63: Multicast report message acquisition units 15, 55, 64: Distribution table creation units 16, 56, 65: Fault information recognition unit 91: Optical transmission / reception unit 92: 2 × 2 electrical circuit for upstream signal 93: 2 × 2 electrical circuit for downstream signal

Claims (4)

A plurality of access devices that transmit access information that specifies distribution information for requesting access among distribution information possessed by an information source, and receive distribution information corresponding to the access information;
The distribution information of the information source is received from the information source, and which distribution information of the distribution information of the information source is distributed to which access device based on the access information received from each access device A first concentrator and a second concentrator for generating a distribution table to be distributed and distributing distribution information corresponding to the access information reflected in the generated distribution table to each access device ;
With
The first concentrator receives the distribution information of the information source from the information source, regularly acquires the distribution table created by the second concentrator from the second concentrator, and the second concentrator. Distributing distribution information corresponding to access information reflected in the created distribution table and the acquired distribution table to each access device at the time of a device failure,
The second concentrator receives the distribution information of the information source from the information source, constantly acquires the distribution table created by the first concentrator from the first concentrator, and the first concentrator. failure of the apparatus, it delivers the distribution information corresponding to the created delivery table and the acquired access information reflected in the distribution tables in each access device,
Concentration system characterized by that. One of the first line concentrator and the second line concentrator updates the acquired distribution table by overwriting based on the access information received from each access apparatus and reflects it in the overwritten distribution table when the other fault occurs 2. The line concentrating system according to claim 1 , wherein distribution information corresponding to the access information is distributed to each access device. Which distribution information of the distribution information of the information source is distributed to which access device based on the access information that designates the distribution information that requests access among the distribution information of the information source of the plurality of access devices A delivery table creation unit for creating a delivery table indicating
A distribution information distribution unit that receives distribution information of the information source from the information source and distributes distribution information corresponding to the access information reflected in the distribution table created by the distribution table creation unit;
A distribution table providing unit that regularly provides the distribution table created by the distribution table creating unit to other line concentrators;
A distribution table acquisition unit that regularly acquires the distribution table created by the distribution table creation unit of the other line concentrator;
Equipped with a,
The distribution information distribution unit stores distribution information corresponding to the distribution table created by the distribution table creation unit and the access information reflected in the distribution table acquired by the distribution table acquisition unit when the other concentrator fails. concentrator device according to claim that you delivered to each access device. The distribution table creation unit overwrites and updates the distribution table acquired from the other concentrator stored as an initial value based on the access information received from each access device when the other concentrator fails .
The distribution information distribution unit distributes distribution information corresponding to the access information reflected in the distribution table overwritten and updated by the distribution table creation unit to each access device when the other concentrator fails. The line concentrator according to claim 3 .

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