JP2013239941A - Communication relay system, communication relay method, packet transmission device and packet reception device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication relay system capable of securely relaying a TDM signal.SOLUTION: A communication relay system 1A relays a TDM signal using a pseudo wire emulation in an Ethernet communication network NW equipment. The communication relay system 1A includes a packet transmission device 11 configuring a first TDM communication network NWT1, and a packet reception device 12 configuring a second TDM communication network NWT2. The packet transmission device 11 converts the received TDM signal into a packet, to transmit the packet to the packet reception device 12. The packet reception device 12 converts the received packet into a TDM signal, to transmit the TDM signal. When the packet reception device 12 fails to receive the packet transmitted from the packet transmission device 11 to the packet reception device 12, the communication relay system 1A is configured such that the packet transmission device 11 retransmits the packet to the packet reception device 12.

Description

  The present invention relates to a communication relay system that constitutes an Ethernet communication network and relays a TDM signal.

  2. Description of the Related Art A communication relay system that configures an Ethernet communication network according to the Ethernet (registered trademark) system and relays a TDM (Time Division Multiplex) signal is known.

  As one of this type of communication relay system, the communication relay system described in Patent Document 1 relays a TDM signal by using pseudo wire emulation in an Ethernet communication network. The communication relay system includes a packet transmission device that constitutes a first TDM communication network, and a packet reception device that constitutes a second TDM communication network.

  The packet transmitting device converts a TDM signal received from another device constituting the first TDM communication network into a packet, and transmits the converted packet to the packet receiving device. The packet receiving apparatus converts the received packet into a TDM signal, and transmits the converted TDM signal to another apparatus constituting the second TDM communication network.

JP 2011-10172 A

By the way, in an Ethernet communication network, a packet transmitted by a packet transmission device may not be received by a packet reception device (not reach the packet reception device). In this case, in the communication relay system, the packet receiver cannot restore the TDM signal received by the packet transmitter.
That is, in the communication relay system, there is a possibility that the TDM signal cannot be relayed.

  Therefore, an object of the present invention is to provide a communication relay system capable of solving the above-mentioned problem “the case where a TDM signal cannot be relayed” occurs.

In order to achieve such an object, a communication relay system according to one aspect of the present invention includes:
This is a system that configures an Ethernet communication network according to the Ethernet (registered trademark) system and relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network.

Furthermore, this communication relay system
A packet transmission apparatus constituting a first TDM communication network for communicating the TDM signal;
A packet receiving device constituting a second TDM communication network for communicating the TDM signal;
With
The packet transmission device receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and transmits the converted packet to the packet reception device. Configured to transmit via the Ethernet communication network,
The packet reception device receives a packet transmitted from the packet transmission device, converts the received packet into a TDM signal, and converts the converted TDM signal into another TDM communication network constituting the second TDM communication network. Configured to transmit to the device,
The communication relay system is
When the packet transmitted to the packet receiver by the packet transmitter is not received by the packet receiver, the packet transmitter is configured to transmit the packet again to the packet receiver.

Moreover, the communication relay method according to another aspect of the present invention is as follows.
This is a method of relaying a TDM (Time Division Multiplex) signal by using pseudo wire emulation in an Ethernet communication network according to the Ethernet (registered trademark) system.

Furthermore, this communication relay method is
A packet transmission device constituting the first TDM communication network that communicates the TDM signal receives the TDM signal from another device constituting the first TDM communication network, and converts the received TDM signal into a packet. Converting, and transmitting the converted packet to the packet receiving device constituting the second TDM communication network for communicating the TDM signal via the Ethernet communication network,
The packet reception device receives a packet transmitted from the packet transmission device, converts the received packet into a TDM signal, and converts the converted TDM signal into another TDM communication network constituting the second TDM communication network. To the device,
When the packet transmitted from the packet transmitting apparatus to the packet receiving apparatus is not received by the packet receiving apparatus, the packet transmitting apparatus transmits the packet to the packet receiving apparatus again.

In addition, a packet transmission device according to another aspect of the present invention is
Apparatus for configuring a communication relay system that configures an Ethernet communication network according to the Ethernet (registered trademark) system and relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network It is.

Furthermore, this packet transmission device
Configuring a first TDM communication network for communicating the TDM signal;
A second TDM that receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and communicates the converted packet with the TDM signal; It is configured to transmit via the Ethernet communication network to the packet receiving device constituting the communication network,
When the packet transmitted to the packet receiving device is not received by the packet receiving device, the packet is again transmitted to the packet receiving device.

In addition, a packet transmission device control method according to another aspect of the present invention includes:
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network This is a method applied to a transmission apparatus.

Furthermore,
The packet transmission device constitutes a first TDM communication network for communicating the TDM signal,
The packet transmission device control method is:
A second TDM that receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and communicates the converted packet with the TDM signal; Send to the packet receiver that constitutes the communication network via the Ethernet communication network,
When the packet transmitted to the packet receiving device is not received by the packet receiving device, the packet is transmitted to the packet receiving device again.

In addition, a packet transmission device control program according to another aspect of the present invention is
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network It is a program executed by the transmission device.

Furthermore,
The packet transmission device constitutes a first TDM communication network for communicating the TDM signal,
The packet transmission device control program stores the packet transmission device in the
A second TDM that receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and communicates the converted packet with the TDM signal; Send to the packet receiver that constitutes the communication network via the Ethernet communication network,
When the packet transmitted to the packet receiving device is not received by the packet receiving device, the packet receiving device is again transmitted to the packet receiving device.

In addition, a packet reception device according to another aspect of the present invention is
Apparatus for configuring a communication relay system that configures an Ethernet communication network according to the Ethernet (registered trademark) system and relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network It is.

Furthermore, this packet receiving device
Configuring a second TDM communication network for communicating the TDM signal;
A packet transmitted by a packet transmission device constituting a first TDM communication network that communicates the TDM signal is received via the Ethernet communication network, the received packet is converted into a TDM signal, and the converted Configured to transmit a TDM signal to another device constituting the second TDM communication network;
When the packet transmitted by the packet transmitting apparatus is not received, the packet transmitting apparatus is configured to transmit the packet again.

In addition, a packet receiving device control method according to another aspect of the present invention includes:
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network This is a method applied to a receiving apparatus.

Furthermore,
The packet reception device constitutes a second TDM communication network for communicating the TDM signal,
The packet receiver control method is as follows:
A packet transmitted by a packet transmission device constituting a first TDM communication network that communicates the TDM signal is received via the Ethernet communication network, the received packet is converted into a TDM signal, and the converted Transmitting a TDM signal to another device constituting the second TDM communication network;
When the packet transmitted by the packet transmission device is not received, the packet transmission device transmits the packet again.

In addition, a packet receiver control program according to another embodiment of the present invention,
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network It is a program executed by the receiving device.

Furthermore,
The packet reception device constitutes a second TDM communication network for communicating the TDM signal,
The packet receiving device control program is provided in the packet receiving device.
A packet transmitted by a packet transmission device constituting a first TDM communication network that communicates the TDM signal is received via the Ethernet communication network, the received packet is converted into a TDM signal, and the converted Transmitting a TDM signal to another device constituting the second TDM communication network;
When the packet transmitted by the packet transmitting apparatus is not received, the packet transmitting apparatus is configured to execute a process of transmitting the packet again.

  By configuring as described above, the present invention can reliably relay a TDM signal.

It is a figure showing schematic structure of the communication relay system which concerns on 1st Embodiment of this invention. It is a block diagram showing the structure of the packet transmitter which concerns on 1st Embodiment of this invention. It is explanatory drawing which showed notionally the packet which the packet transmitter which concerns on 1st Embodiment of this invention produces | generates. It is a block diagram showing the structure of the packet receiver which concerns on 1st Embodiment of this invention. It is explanatory drawing which showed notionally the packet resending instruction | indication message which the packet receiver which concerns on 1st Embodiment of this invention produces | generates. It is the flowchart which showed the process which the packet transmission apparatus which concerns on 1st Embodiment of this invention performs. It is the flowchart which showed the process which the packet transmission apparatus which concerns on 1st Embodiment of this invention performs. It is the flowchart which showed the process which the packet transmission apparatus which concerns on 1st Embodiment of this invention performs. It is the flowchart which showed the process which the packet receiver which concerns on 1st Embodiment of this invention performs. It is explanatory drawing which showed notionally the action | operation of the communication relay system which concerns on the modification of 1st Embodiment of this invention. It is a figure showing schematic structure of the communication relay system which concerns on 2nd Embodiment of this invention.

  Hereinafter, according to the present invention, a communication relay system, a communication relay method, a packet transmission device, a packet transmission device control method, a packet transmission device control program, a packet reception device, a packet reception device control method, and a packet reception device control program, Each embodiment will be described with reference to FIGS.

<First Embodiment>
(Constitution)
As shown in FIG. 1, the communication relay system 1 according to the first embodiment includes a packet transmission device 11, a packet reception device 12, and a plurality of transfer devices 21, 22,.

  Each of the packet transmission device 11, the packet reception device 12, and the plurality of transfer devices 21, 22,... Is a communication device that performs communication. The packet transmission device 11, the packet reception device 12, and the plurality of transfer devices 21, 22,... Constitute an Ethernet communication network NWE. The Ethernet communication network NWE is a communication network according to the Ethernet (registered trademark) system.

  The packet transmission device 11 also constitutes a first TDM communication network NWT1 that communicates (transmits) a TDM (Time Division Multiplex (Multiplexing)) signal. In this example, the TDM signal is a signal that is transferred in a synchronous transfer mode (STM: Synchronous Transfer (Transmission, Transport) Mode). Similarly, the packet receiver 12 also constitutes a second TDM communication network NWT2 that communicates TDM signals.

  The packet transmission device 11 receives a TDM signal from another device configuring the first TDM communication network NWT1 via the first TDM communication network NWT1. The packet transmission device 11 converts the received TDM signal into a packet. The packet transmitter 11 transmits the converted packet to the packet receiver 12 via the Ethernet communication network NWE.

  The packet receiver 12 receives the packet transmitted by the packet transmitter 11 via the Ethernet communication network NWE. The packet reception device 12 converts the received packet into a TDM signal so that the packet transmission device 11 restores the TDM signal received via the first TDM communication network NWT1. The packet reception device 12 transmits the converted TDM signal to another device constituting the second TDM communication network NWT2 via the second TDM communication network NWT2.

  The plurality of transfer devices 21, 22,... Transmit (transfer) the packet received from the packet transmission device 11 to the packet reception device 12.

  In this example, the communication relay system 1 is configured to relay a TDM signal by using pseudo wire emulation (PWE) in the Ethernet communication network NWE.

  Further, in the communication relay system 1, when the packet transmitted to the packet receiving device 12 by the packet transmitting device 11 is not received by the packet receiving device 12, the packet transmitting device 11 transmits the packet to the packet receiving device 12 again. Configured as follows.

  More specifically, as shown in FIG. 2, the packet transmission device 11 includes a packet conversion unit 110, a buffer (a part of the packet retransmission unit) 120, and a packet transmission unit (a part of the packet retransmission unit). 130, and an OAM (Operation, Administration and Maintenance) processing unit 140.

  The packet conversion unit 110 receives a TDM signal from another device configuring the first TDM communication network NWT1 via the first TDM communication network NWT1. The packet converter 110 converts the received TDM signal into a packet.

  At this time, the packet conversion unit 110 inserts packet-specific information that changes according to a predetermined rule and is unique to the packet into the packet. In this example, the packet specific information is information indicating the order of packets. Specifically, the packet specific information is information representing a sequence number. The sequence number is an integer that is incremented by a preset increment (1 in this example) each time a packet is generated.

  In this example, the packet conversion unit 110 generates a packet in accordance with RFC (Request for Comments) 5086 by IETF (Internet Engineering Task Force) as shown in FIG. The packet conversion unit 110 stores the packet specific information in a control word (CWS) having 16 bits.

  The packet conversion unit 110 outputs the generated packet (converted packet) to the buffer 120.

  The buffer 120 stores the packet output from the packet conversion unit 110. The capacity of the storage area of the buffer 120 is based on the data amount of the TDM signal received by the packet transmission device 11 per unit time and the data amount that can be transmitted via the Ethernet communication network NWE per unit time. It is preferable to set the capacity sufficiently large.

  When a packet is output by the packet conversion unit 110, the buffer 120, when there is no storage area capable of storing the packet, is the earliest order of packets already stored (in this example, the minimum The packet including the packet unique information indicating the sequence number) is updated to the output packet (that is, overwritten).

  The packet transmission unit 130 is configured to be able to set an arbitrary reading position for the buffer 120. The packet transmitter 130 reads the packet stored in the buffer 120 at the set read position, and transmits the read packet to the packet receiver 12 via the Ethernet communication network NWE.

  Each time a packet transmission unit 130 transmits a packet, the packet transmission unit 130 sets a reading position at a position where a packet including packet specific information representing the next order of the order represented by the packet specific information included in the packet is stored.

  The OAM processing unit 140 receives OAM information (in this example, an OAM frame). The OAM information is information communicated for realizing the Ethernet OAM function. The Ethernet OAM function is a function for maintaining and managing the communication relay system 1. For example, the Ethernet OAM function is a function for confirming a connection between communication devices.

  The Ethernet OAM function is, for example, ITU-T (International Telecommunication Union Telecommunication Standardization Sector). 1731 and IEEE (Institute of Electrical and Electronics Engineers) 802.1ag.

  The OAM processing unit 140 executes processing for realizing the Ethernet OAM function based on the received OAM information.

  Furthermore, the OAM processing unit 140 includes a packet retransmission unit (a part of packet retransmission unit) 141. The packet retransmission unit 141 determines whether the received OAM information is a packet retransmission instruction message. The packet retransmission instruction message includes missing packet specifying information. The missing packet specifying information is information for specifying a missing packet that is a packet that has not been received by the packet receiving device 12. In this example, the missing packet specifying information is packet specific information included in the missing packet.

  When the received OAM information is a packet retransmission instruction message, the packet retransmission unit 141 acquires missing packet specifying information included in the packet retransmission instruction message. The packet retransmission unit 141 outputs a packet retransmission instruction including the acquired missing packet specifying information to the packet transmission unit 130. The packet retransmission instruction is information instructing that the packet is transmitted again.

  When a packet retransmission instruction is output from the packet retransmission unit 141, the packet transmission unit 130 sets a reading position at a position where a packet including the same packet unique information as the missing packet specifying information included in the packet retransmission instruction is stored To do.

  With such a configuration, the packet transmission unit 130 has packet unique information indicating an order after the order represented by the same packet unique information (that is, packet unique information included in the missing packet) as the missing packet specifying information included in the packet retransmission instruction. Is again transmitted to the packet receiver 12.

  For example, when the missing packet includes packet unique information representing 3 as a sequence number, the packet transmission unit 130 again transmits a packet including packet unique information representing a sequence number of 3 or more to the packet receiving device 12.

  Further, as illustrated in FIG. 4, the packet reception device 12 includes a retransmission determination unit 210, a TDM signal conversion unit 220, and an OAM frame transmission unit (missing packet specifying information transmission unit) 230.

  The retransmission determination unit 210 includes a packet specific information acquisition unit 211, a packet control unit 212, and a missing packet identification unit (missing packet identification unit) 213.

  The packet specific information acquisition unit 211 receives the packet transmitted by the packet transmission device 11 via the Ethernet communication network NWE. The packet specific information acquisition unit 211 outputs the received packet to the packet control unit 212. Further, the packet specific information acquisition unit 211 acquires packet specific information included in the received packet. The packet specific information acquisition unit 211 outputs the acquired packet specific information to the missing packet specification unit 213.

  The packet control unit 212 holds the packet output by the packet specific information acquisition unit 211. When the packet control unit 212 receives an output instruction output from the missing packet specifying unit 213, the packet control unit 212 outputs the held packet to the TDM signal conversion unit 220. On the other hand, when receiving a discard instruction output from the missing packet specifying unit 213, the packet control unit 212 discards the held packet.

  The missing packet specifying unit 213 holds the packet unique information that is the basis for outputting the output instruction last time. The missing packet specifying unit 213 receives the packet specific information output by the packet specific information acquisition unit 211. The missing packet specifying unit 213 determines whether or not there is a missing packet based on the received packet unique information and the packet unique information that is held.

  Specifically, the missing packet specifying unit 213 does not have a missing packet when the information obtained by changing the held packet unique information according to the above rules matches the received packet unique information. Is determined. In this example, the missing packet specifying unit 213 includes a value obtained by adding the above increment (1 in this example) to the sequence number represented by the held packet unique information, the sequence number represented by the received packet unique information, If they match, it is determined that there is no missing packet.

  On the other hand, the missing packet specifying unit 213 determines that there is a missing packet when the information obtained by changing the held packet unique information in accordance with the above rule is different from the received packet unique information.

  If it is determined that there is no missing packet, the missing packet specifying unit 213 updates the held packet unique information to the received packet unique information. In this case, the missing packet specifying unit 213 further outputs an output instruction to the packet control unit 212.

  On the other hand, the missing packet specifying unit 213 outputs a discard instruction to the packet control unit 212 when it is determined that there is a missing packet. In this case, the missing packet specifying unit 213 further specifies the missing packet. Specifically, the missing packet specifying unit 213 specifies a packet including the same packet specific information as the information obtained by changing the held packet specific information according to the above rule as a lost packet.

  Then, the missing packet specifying unit 213 outputs missing packet specifying information (in this example, packet specific information) for specifying the specified missing packet to the OAM frame transmitting unit 230.

  The TDM signal conversion unit 220 converts the packet output from the packet control unit 212 into a TDM signal so that the packet transmission apparatus 11 restores the TDM signal received via the first TDM communication network NWT1. Specifically, the TDM signal converter 220 converts the packet into a TDM signal based on the packet specific information included in the packet.

  The TDM signal conversion unit 220 transmits the converted TDM signal to other devices constituting the second TDM communication network NWT2 via the second TDM communication network NWT2.

  By the way, as described above, the missing packet specifying unit 213 determines that the packet specific information that is the basis for outputting the output instruction last time is changed according to the above rules and the received packet specific information is different. The discard instruction is output. Thereafter, the missing packet specifying unit 213 outputs the output instruction again by receiving the missing packet.

  Therefore, when the missing packet is specified (the missing packet is present), the packet reception device 12 includes packet unique information indicating an order after the order represented by the packet unique information included in the missing packet, and the missing packet It can be said that it is configured not to convert a packet received before the time when is received into a TDM signal.

In addition, when a missing packet is received, the packet reception device 12 includes packet unique information indicating an order after the order represented by the packet unique information included in the missing packet, and after the time when the missing packet is received. It can be said that the received packet is configured to be converted into a TDM signal.
According to this, the TDM signal can be reliably relayed.

  The OAM frame transmission unit 230 generates OAM information (in this example, an OAM frame), and transmits the generated OAM information via the Ethernet communication network NWE. For example, the OAM frame is a CC (Continuity Check) message, a VS (Vendor Specific) message, an LL (Loss Measurement) message, or the like.

  Further, the OAM frame transmission unit 230 includes a packet retransmission instruction message generation unit 231. The packet retransmission instruction message generation unit 231 generates a packet retransmission instruction message including the missing packet identification information when the missing packet identification information is output by the missing packet identification unit 213. In this example, the packet retransmission instruction message generation unit 231 generates a packet retransmission instruction message as OAM information.

  That is, it can be said that the packet retransmission instruction message generation unit 231 is configured to insert missing packet specifying information into OAM information communicated to realize the Ethernet OAM function.

  Specifically, the packet retransmission instruction message generation unit 231, as shown in FIG. A packet retransmission instruction message is generated as a VS message specified in 1731. The packet retransmission instruction message generation unit 231 stores the missing packet specifying information in the Sequence Number (SN).

  The packet retransmission unit 141 determines whether the received OAM information is a packet retransmission instruction message based on OpCode (OC) and SubOpCode (SOC).

  The OAM frame transmission unit 230 transmits the packet retransmission instruction message generated by the packet retransmission instruction message generation unit 231 to the packet transmission device 11 via the Ethernet communication network NWE.

(Operation)
Next, the operation of the above-described communication relay system 1 will be described with reference to the flowcharts shown in FIGS.

The packet transmission device 11 is configured to execute the processing shown in FIG.
Specifically, the packet transmission device 11 waits until a TDM signal is received over a preset reception period (step S101). Note that the packet transmission device 11 may be configured to wait until the data size of the received TDM signal reaches a preset reception size.

  Then, the packet transmission device 11 converts the TDM signal into a packet (step S102). At this time, the packet transmission device 11 inserts packet specific information into the packet. Next, the packet transmission device 11 stores the converted packet in the buffer 120 (step S103). Then, the packet transmitting apparatus 11 returns to step S101, and repeatedly executes the processes of steps S101 to S103.

Further, the packet transmission device 11 is configured to execute the processing shown in FIG.
Specifically, the packet transmission device 11 updates (sets) the reading position to the position where the packet including the packet specific information representing the next order of the order represented by the packet specific information included in the previously transmitted packet is stored. (Step S201).

  For example, when the sequence number represented by the packet unique information included in the previously transmitted packet is 3, the packet transmitting apparatus 11 reads the read position at the position where the packet including the packet unique information representing 4 as the sequence number is stored. Set.

  Next, the packet transmission device 11 reads the packet stored in the buffer 120 at the updated reading position (step S202). Then, the packet transmitter 11 transmits the read packet to the packet receiver 12 via the Ethernet communication network NWE (step S203). Next, the packet transmitting apparatus 11 returns to step S201, and repeatedly executes the processes of steps S201 to S203.

Further, the packet transmission device 11 is configured to execute the processing shown in FIG.
More specifically, the packet transmission device 11 stands by until it receives OAM information (step S301). Then, when receiving the OAM information, the packet transmission device 11 determines whether or not the received OAM information is a packet retransmission instruction message (step S302).

  If the received OAM information is not a packet retransmission instruction message, the packet transmission device 11 executes processing for realizing the Ethernet OAM function based on the received OAM information (step S303). Next, the packet transmitting apparatus 11 returns to step S301, and repeatedly executes the processes of steps S301 to S306.

  On the other hand, when the received OAM information is a packet retransmission instruction message, the packet transmission device 11 reads the packet containing the same packet specific information as the missing packet specifying information included in the packet retransmission instruction message. A position is set (step S304).

  Then, the packet transmission device 11 reads the packet (that is, the missing packet) stored in the buffer 120 at the read position after setting (step S305). Then, the packet transmitter 11 transmits the read packet to the packet receiver 12 via the Ethernet communication network NWE (step S306). Next, the packet transmitting apparatus 11 returns to step S301, and repeatedly executes the processes of steps S301 to S306.

  Further, the packet transmission device 11 sequentially executes the processing shown in FIG. 7 after transmitting the missing packet, thereby sequentially including packets including packet specific information indicating the order after the order indicated by the packet specific information included in the lost packet. ,Send.

Further, the packet reception device 12 is configured to execute the processing shown in FIG.
Specifically, the packet receiver 12 waits until a packet is received (step S401).

  When the packet receiving device 12 receives the packet, the packet specific information included in the received packet, the packet specific information held (that is, the packet specific information included in the previously received packet), Based on the above, it is determined whether or not there is a missing packet (step S402).

  When there is a missing packet, the packet receiving device 12 identifies the missing packet and sends a packet retransmission instruction message including missing packet identifying information for identifying the missing packet via the Ethernet communication network NWE. (Step S403).

  Next, the packet reception device 12 discards the packet including the packet unique information representing the order after the order represented by the packet unique information included in the identified missing packet among the received packets (step S404).

  Then, the packet reception device 12 determines whether or not a missing packet has been received (step S405). The packet receiving device 12 repeatedly executes the process of step S404 until a missing packet is received. Then, when receiving the missing packet, the packet receiving device 12 finishes discarding the packet.

  On the other hand, when there is no missing packet, the packet reception device 12 proceeds to step S406 without executing the processing of steps S403 to S405.

  Next, the packet reception device 12 converts a packet that has not been discarded among the received packets into a TDM signal (step S406). At this time, the packet reception device 12 converts the packet into a TDM signal according to the order represented by the packet specific information included in the packet.

  Then, the packet reception device 12 transmits the converted TDM signal to another device constituting the second TDM communication network NWT2 via the second TDM communication network NWT2 (step S407). Next, the packet reception device 12 returns to step S401 and repeatedly executes the processing of steps S401 to S407.

  As described above, according to the communication relay system 1 according to the first embodiment, when a packet transmitted by the packet transmission device 11 is not received by the packet reception device 12, the packet transmission device 11 transmits the packet. Send again. Thereby, all the packets can be reliably transmitted from the packet transmission device 11 to the packet reception device 12. As a result, the TDM signal can be reliably relayed.

  Furthermore, the communication relay system 1 according to the first embodiment is configured to insert missing packet specifying information into OAM information communicated to realize the Ethernet OAM function.

  According to this, the missing packet specifying information for specifying the missing packet can be easily transmitted from the packet receiving device 12 to the packet transmitting device 11.

  The communication relay system 1 according to the first embodiment is configured to relay the TDM signal only in the direction from the first TDM communication network NWT1 to the second TDM communication network NWT2. In the first direction from the TDM communication network NWT1 to the second TDM communication network NWT2 and in the second direction from the second TDM communication network NWT2 to the first TDM communication network NWT1 (ie, (Both directions) may be configured to relay TDM signals.

  In this case, the communication relay system 1 is preferably configured such that the packet transmission device 11 also has the function of the packet reception device 12 and the packet reception device 12 also has the function of the packet transmission device 11. According to this, the lost packet can be retransmitted in both directions.

  In this case, the communication relay system 1 may be configured to mix and transmit the packet retransmission instruction message, traffic including the OAM frame, and traffic including the user data.

  The communication relay system 1 according to the first embodiment is configured to transmit the packet retransmission instruction message as an LM message. However, the packet retransmission instruction message is a message other than the VS message (CC message or LM message). ) May be configured to transmit.

  The communication relay system 1 according to the modification of the first embodiment may be configured to transmit a plurality of missing packets. For example, as conceptually shown in FIG. 10, when the packet transmission apparatus 11 receives a packet retransmission instruction message, the packet transmission apparatus 11 transmits the missing packet specified by the missing packet identification information included in the packet retransmission instruction message three times. , May be configured to repeat. Accordingly, it is possible to sufficiently reduce the possibility that a lost packet that is transmitted (retransmitted) again is not received by the packet reception device 12.

Second Embodiment
Next, a communication relay system according to a second embodiment of the present invention will be described with reference to FIG.
A communication relay system 1A according to the second embodiment
This is a system that configures an Ethernet communication network NWE in accordance with the Ethernet (registered trademark) system and relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network NWE.

Furthermore, this communication relay system 1A
A packet transmission device 11 constituting the first TDM communication network NWT1 for communicating the TDM signal;
A packet receiver 12 constituting the second TDM communication network NWT2 for communicating the TDM signal;
Is provided.

  The packet transmission device 11 receives the TDM signal from another device constituting the first TDM communication network NWT1, converts the received TDM signal into a packet, and receives the converted packet as the packet It is configured to transmit to the device 12 via the Ethernet communication network NWE.

  The packet receiving device 12 receives the packet transmitted by the packet transmitting device 11, converts the received packet into a TDM signal, and configures the converted TDM signal in the second TDM communication network NWT2. Configured to transmit to other devices.

The communication relay system 1A is
The packet transmission device 11 is configured to transmit the packet to the packet reception device 12 again when the packet transmission device 11 does not receive the packet transmitted to the packet reception device 12. Is done.

  According to this, when the packet transmitted by the packet transmitting apparatus 11 is not received by the packet receiving apparatus 12, the packet transmitting apparatus 11 transmits the packet again. Thereby, all the packets can be reliably transmitted from the packet transmission device 11 to the packet reception device 12. As a result, the TDM signal can be reliably relayed.

  Although the present invention has been described with reference to the above embodiment, the present invention is not limited to the above-described embodiment. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

  In each of the above embodiments, each function of the communication relay system is realized by hardware such as a circuit. Meanwhile, each of the packet transmission device and the packet reception device includes a processing device and a storage device that stores a program (software), and each function is realized by the processing device executing the program. It may be configured as follows. In this case, the program may be stored in a computer-readable recording medium. For example, the recording medium is a portable medium such as a flexible disk, an optical disk, a magneto-optical disk, and a semiconductor memory.

  In addition, as another modified example of the above-described embodiment, any combination of the above-described embodiments and modified examples may be employed.

<Appendix>
A part or all of the above embodiment can be described as the following supplementary notes, but is not limited thereto.

(Appendix 1)
A communication relay system that configures an Ethernet communication network according to the Ethernet (registered trademark) system and relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network,
A packet transmission apparatus constituting a first TDM communication network for communicating the TDM signal;
A packet receiving device constituting a second TDM communication network for communicating the TDM signal;
With
The packet transmission device receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and transmits the converted packet to the packet reception device. Configured to transmit via the Ethernet communication network,
The packet reception device receives a packet transmitted by the packet transmission device, converts the received packet into a TDM signal, and converts the converted TDM signal into another TDM communication network that constitutes the second TDM communication network. Configured to transmit to the device,
The communication relay system includes:
A communication relay system configured such that, when a packet transmitted from the packet transmission device to the packet reception device is not received by the packet reception device, the packet transmission device transmits the packet to the packet reception device again. .

  According to this, when the packet transmitted by the packet transmitting device is not received by the packet receiving device, the packet transmitting device transmits the packet again. Thereby, all the packets can be reliably transmitted from the packet transmission device to the packet reception device. As a result, the TDM signal can be reliably relayed.

(Appendix 2)
The communication relay system according to attachment 1, wherein
The packet transmission device includes:
The packet is changed according to a predetermined rule, and is configured to insert packet-specific information unique to the packet,
The packet receiver is
A missing packet identifying means for identifying a missing packet that is a packet that has not been received based on the packet-specific information included in the received packet and the rule;
When the missing packet is specified, missing packet specifying information transmitting means for transmitting the missing packet specifying information for specifying the missing packet to the packet transmitting device;
With
The packet transmission device includes:
A communication relay system comprising packet retransmission means for transmitting again a packet specified by the received missing packet specifying information to the packet receiving device when the missing packet specifying information is received from the packet receiving device.

(Appendix 3)
The communication relay system according to attachment 2, wherein
The missing packet specifying information transmitting means includes:
A communication relay system configured to insert the missing packet specifying information into OAM information communicated to realize an Ethernet OAM (Operation, Administration and Maintenance) function.

  According to this, the missing packet specifying information for specifying the missing packet can be easily transmitted from the packet receiving apparatus to the packet transmitting apparatus.

(Appendix 4)
The communication relay system according to Supplementary Note 2 or Supplementary Note 3, wherein
The packet specific information is information indicating the order of packets,
The packet receiver is
When the missing packet is specified, it includes packet unique information indicating an order after the order represented by the packet unique information included in the missing packet, and the packet received before the time when the missing packet is received. , Configured not to convert to the TDM signal,
The packet retransmission means includes:
A packet including packet specific information indicating an order subsequent to the order expressed by the packet specific information included in the missing packet is transmitted to the packet receiving device again.
The packet receiver is
When the missing packet is received, it includes packet unique information indicating an order after the order represented by the packet unique information included in the missing packet, and the packet received after the time when the missing packet is received, A communication relay system configured to perform conversion into a TDM signal.

  According to this, the TDM signal can be reliably relayed.

(Appendix 5)
The communication relay system according to attachment 4, wherein
The packet transmission device includes:
The packet is stored in the buffer, and the packet stored in the buffer is transmitted to the packet receiving device at a set reading position; and
When the packet is transmitted, the read position is configured to be set at a position where the packet including the packet specific information representing the next order of the order represented by the packet specific information included in the packet is stored,
The packet retransmission means includes:
A communication relay system configured to set the reading position at a position where a packet specified by the received missing packet specifying information is stored when the missing packet specifying information is received from the packet receiving device.

(Appendix 6)
The communication relay system according to any one of appendix 1 to appendix 5,
The TDM signal is a communication relay system that is a signal that is transferred in a synchronous transfer mode (STM: Synchronous Transfer (Transmission, Transport) Mode).

(Appendix 7)
A communication relay method for relaying a TDM (Time Division Multiplex) signal by using pseudo wire emulation in an Ethernet communication network according to the Ethernet (registered trademark) system,
A packet transmission device constituting the first TDM communication network for communicating the TDM signal receives the TDM signal from another device constituting the first TDM communication network, and converts the received TDM signal into a packet. Converting, and transmitting the converted packet to the packet receiving device constituting the second TDM communication network for communicating the TDM signal via the Ethernet communication network,
The packet reception device receives a packet transmitted by the packet transmission device, converts the received packet into a TDM signal, and converts the converted TDM signal into another TDM communication network that constitutes the second TDM communication network. To the device,
A communication relay method in which, when a packet transmitted from the packet transmission device to the packet reception device is not received by the packet reception device, the packet transmission device transmits the packet to the packet reception device again.

(Appendix 8)
The communication relay method according to appendix 7,
The packet transmission device changes packet according to a predetermined rule and inserts packet-specific information unique to the packet into the packet,
The packet reception device identifies a missing packet that is a packet that has not been received, based on the packet-specific information included in the received packet and the rule.
When the missing packet is identified, the packet receiving device transmits missing packet specifying information for identifying the missing packet to the packet transmitting device,
When the packet transmission device receives the missing packet specification information from the packet reception device, the packet transmission device transmits the packet specified by the received missing packet specification information to the packet reception device again.

(Appendix 9)
The communication relay method according to attachment 8, wherein
A communication relay method, wherein the missing packet specifying information is inserted into OAM information communicated in order to realize an Ethernet OAM (Operation, Administration and Maintenance) function.

(Appendix 10)
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network A transmitting device,
Configuring a first TDM communication network for communicating the TDM signal;
A second TDM that receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and communicates the converted packet with the TDM signal; Configured to transmit via the Ethernet communication network to the packet receiving device constituting the communication network,
A packet transmitting device configured to transmit the packet to the packet receiving device again when the packet transmitted to the packet receiving device is not received by the packet receiving device.

(Appendix 11)
The packet transmission device according to attachment 10, wherein
The packet is changed according to a predetermined rule, and is configured to insert packet-specific information unique to the packet,
When missing packet specifying information for specifying a missing packet that is a packet that has not been received by the packet receiving device is received from the packet receiving device, the packet specified by the received missing packet specifying information is again designated as the packet. A packet transmission device comprising packet retransmission means for transmitting to a reception device.

(Appendix 12)
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network A packet transmission device control method applied to a transmission device,
The packet transmission device constitutes a first TDM communication network for communicating the TDM signal,
The packet transmission device control method includes:
A second TDM that receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and communicates the converted packet with the TDM signal; Sending to the packet receiver constituting the communication network via the Ethernet communication network,
A method for controlling a packet transmission device, wherein, when a packet transmitted to the packet reception device is not received by the packet reception device, the packet is transmitted again to the packet reception device.

(Appendix 13)
The packet transmission device control method according to attachment 12, wherein
In the packet, it changes according to a predetermined rule and inserts packet-specific information unique to the packet,
When missing packet specifying information for specifying a missing packet that is a packet that has not been received by the packet receiving device is received from the packet receiving device, the packet specified by the received missing packet specifying information is again designated as the packet. A packet transmitting device control method for transmitting to a receiving device.

(Appendix 14)
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network A packet transmission device control program executed by a transmission device,
The packet transmission device constitutes a first TDM communication network for communicating the TDM signal,
The packet transmission device control program is provided to the packet transmission device.
A second TDM that receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and communicates the converted packet with the TDM signal; Sending to the packet receiver constituting the communication network via the Ethernet communication network,
A packet transmission device control program configured to execute a process of transmitting a packet to the packet reception device again when the packet transmitted to the packet reception device is not received by the packet reception device.

(Appendix 15)
The packet transmission device control program according to attachment 14, wherein
In the packet transmission device,
In the packet, it changes according to a predetermined rule and inserts packet-specific information unique to the packet,
When missing packet specifying information for specifying a missing packet that is a packet that has not been received by the packet receiving device is received from the packet receiving device, the packet specified by the received missing packet specifying information is again designated as the packet. A packet transmission device control program configured to execute processing to be transmitted to a reception device.

(Appendix 16)
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network A receiving device,
Configuring a second TDM communication network for communicating the TDM signal;
A packet transmitted by a packet transmission apparatus constituting a first TDM communication network that communicates the TDM signal is received via the Ethernet communication network, the received packet is converted into a TDM signal, and the converted Configured to transmit a TDM signal to another device constituting the second TDM communication network;
A packet reception device configured to cause the packet transmission device to transmit the packet again when the packet transmitted by the packet transmission device is not received.

(Appendix 17)
The packet receiver according to appendix 16, wherein
A missing packet that is included in the received packet, changes according to a predetermined rule, and is not received based on packet-specific information unique to the packet and the rule is specified. A missing packet identification means to
When the missing packet is specified, missing packet specifying information transmitting means for transmitting the missing packet specifying information for specifying the missing packet to the packet transmitting device;
A packet receiving device.

(Appendix 18)
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network A packet receiving device control method applied to a receiving device,
The packet reception device constitutes a second TDM communication network for communicating the TDM signal,
The packet receiver control method includes:
A packet transmitted by a packet transmission apparatus constituting a first TDM communication network that communicates the TDM signal is received via the Ethernet communication network, the received packet is converted into a TDM signal, and the converted Transmitting a TDM signal to another device constituting the second TDM communication network;
A method for controlling a packet receiving apparatus, wherein when a packet transmitted by the packet transmitting apparatus is not received, the packet transmitting apparatus transmits the packet again.

(Appendix 19)
The packet receiver control method according to appendix 18, wherein
A missing packet that is included in the received packet, changes according to a predetermined rule, and is not received based on packet-specific information unique to the packet and the rule is specified. And
A packet receiving apparatus control method, wherein when the missing packet is identified, missing packet identifying information for identifying the missing packet is transmitted to the packet transmitting apparatus.

(Appendix 20)
Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network A packet receiving device control program executed by the receiving device,
The packet reception device constitutes a second TDM communication network for communicating the TDM signal,
The packet receiver control program is provided in the packet receiver.
A packet transmitted by a packet transmission apparatus constituting a first TDM communication network that communicates the TDM signal is received via the Ethernet communication network, the received packet is converted into a TDM signal, and the converted Transmitting a TDM signal to another device constituting the second TDM communication network;
A packet receiving device control program configured to cause the packet transmitting device to transmit the packet again when the packet transmitted by the packet transmitting device is not received.

(Appendix 21)
The packet receiver control program according to attachment 20, wherein
In the packet receiving device,
A missing packet that is included in the received packet, changes according to a predetermined rule, and is not received based on packet-specific information unique to the packet and the rule is specified. And
A packet receiving device control program configured to execute a process of transmitting, to the packet transmitting device, missing packet specifying information for specifying the missing packet when the missing packet is specified.

  The present invention is applicable to a communication relay system that constitutes an Ethernet communication network and relays a TDM signal.

DESCRIPTION OF SYMBOLS 1 Communication relay system 1A Communication relay system 11 Packet transmission device 12 Packet reception device 21, 22, ... Transfer device 110 Packet conversion unit 120 Buffer 130 Packet transmission unit 140 OAM processing unit 141 Packet retransmission unit 210 Retransmission judgment unit 211 Acquisition of packet specific information Unit 212 packet control unit 213 missing packet identification unit 220 TDM signal conversion unit 230 OAM frame transmission unit 231 packet retransmission instruction message generation unit NWE Ethernet communication network NWT1 first TDM communication network NWT2 second TDM communication network

Claims (10)

A communication relay system that configures an Ethernet communication network according to the Ethernet (registered trademark) system and relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network,
A packet transmission apparatus constituting a first TDM communication network for communicating the TDM signal;
A packet receiving device constituting a second TDM communication network for communicating the TDM signal;
With
The packet transmission device receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and transmits the converted packet to the packet reception device. Configured to transmit via the Ethernet communication network,
The packet reception device receives a packet transmitted by the packet transmission device, converts the received packet into a TDM signal, and converts the converted TDM signal into another TDM communication network that constitutes the second TDM communication network. Configured to transmit to the device,
The communication relay system includes:
A communication relay system configured such that, when a packet transmitted from the packet transmission device to the packet reception device is not received by the packet reception device, the packet transmission device transmits the packet to the packet reception device again. . The communication relay system according to claim 1,
The packet transmission device includes:
The packet is changed according to a predetermined rule, and is configured to insert packet-specific information unique to the packet,
The packet receiver is
A missing packet identifying means for identifying a missing packet that is a packet that has not been received based on the packet-specific information included in the received packet and the rule;
When the missing packet is specified, missing packet specifying information transmitting means for transmitting the missing packet specifying information for specifying the missing packet to the packet transmitting device;
With
The packet transmission device includes:
A communication relay system comprising packet retransmission means for transmitting again a packet specified by the received missing packet specifying information to the packet receiving device when the missing packet specifying information is received from the packet receiving device. The communication relay system according to claim 2,
The missing packet specifying information transmitting means includes:
A communication relay system configured to insert the missing packet specifying information into OAM information communicated to realize an Ethernet OAM (Operation, Administration and Maintenance) function. The communication relay system according to claim 2 or claim 3,
The packet specific information is information indicating the order of packets,
The packet receiver is
When the missing packet is specified, it includes packet unique information indicating an order after the order represented by the packet unique information included in the missing packet, and the packet received before the time when the missing packet is received. , Configured not to convert to the TDM signal,
The packet retransmission means includes:
A packet including packet specific information indicating an order subsequent to the order expressed by the packet specific information included in the missing packet is transmitted to the packet receiving device again.
The packet receiver is
When the missing packet is received, it includes packet unique information indicating an order after the order represented by the packet unique information included in the missing packet, and the packet received after the time when the missing packet is received, A communication relay system configured to perform conversion into a TDM signal. The communication relay system according to claim 4,
The packet transmission device includes:
The packet is stored in the buffer, and the packet stored in the buffer is transmitted to the packet receiving device at a set reading position; and
When the packet is transmitted, the read position is configured to be set at a position where the packet including the packet specific information representing the next order of the order represented by the packet specific information included in the packet is stored,
The packet retransmission means includes:
A communication relay system configured to set the reading position at a position where a packet specified by the received missing packet specifying information is stored when the missing packet specifying information is received from the packet receiving device. A communication relay system according to any one of claims 1 to 5,
The TDM signal is a communication relay system that is a signal that is transferred in a synchronous transfer mode (STM: Synchronous Transfer (Transmission, Transport) Mode). A communication relay method for relaying a TDM (Time Division Multiplex) signal by using pseudo wire emulation in an Ethernet communication network according to the Ethernet (registered trademark) system,
A packet transmission device constituting the first TDM communication network for communicating the TDM signal receives the TDM signal from another device constituting the first TDM communication network, and converts the received TDM signal into a packet. Converting, and transmitting the converted packet to the packet receiving device constituting the second TDM communication network for communicating the TDM signal via the Ethernet communication network,
The packet reception device receives a packet transmitted by the packet transmission device, converts the received packet into a TDM signal, and converts the converted TDM signal into another TDM communication network that constitutes the second TDM communication network. To the device,
A communication relay method in which, when a packet transmitted from the packet transmission device to the packet reception device is not received by the packet reception device, the packet transmission device transmits the packet to the packet reception device again. The communication relay method according to claim 7,
The packet transmission device changes packet according to a predetermined rule and inserts packet-specific information unique to the packet into the packet,
The packet reception device identifies a missing packet that is a packet that has not been received, based on the packet-specific information included in the received packet and the rule.
When the missing packet is identified, the packet receiving device transmits missing packet specifying information for identifying the missing packet to the packet transmitting device,
When the packet transmission device receives the missing packet specification information from the packet reception device, the packet transmission device transmits the packet specified by the received missing packet specification information to the packet reception device again. Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network A transmitting device,
Configuring a first TDM communication network for communicating the TDM signal;
A second TDM that receives the TDM signal from another device constituting the first TDM communication network, converts the received TDM signal into a packet, and communicates the converted packet with the TDM signal; Configured to transmit via the Ethernet communication network to the packet receiving device constituting the communication network,
A packet transmitting device configured to transmit the packet to the packet receiving device again when the packet transmitted to the packet receiving device is not received by the packet receiving device. Packets that configure an Ethernet communication network that conforms to the Ethernet (registered trademark) system and that configure a communication relay system that relays a TDM (Time Division Multiplex) signal by using pseudo wire emulation in the Ethernet communication network A receiving device,
Configuring a second TDM communication network for communicating the TDM signal;
A packet transmitted by a packet transmission apparatus constituting a first TDM communication network that communicates the TDM signal is received via the Ethernet communication network, the received packet is converted into a TDM signal, and the converted Configured to transmit a TDM signal to another device constituting the second TDM communication network;
A packet reception device configured to cause the packet transmission device to transmit the packet again when the packet transmitted by the packet transmission device is not received.

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