JP2010212803A - Sdh/sonet transmitter and method of reducing transmission delay - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an SDH/SONET (synchronous digital hierarchy/synchronous optical network) transmitter capable of reducing transmission delay in transmitting client data via an SDH/SONET network by using a virtual concatenation (VCAT). <P>SOLUTION: When an LCAS management section 23 detects that a reception SDH/SONET frame of any one of received VCAT paths has a delay difference of not less than a predetermined delay difference threshold value between itself and another VCAT path, a mapping/demapping section 8a suppresses mapping to the corresponding VCAT path of transmission client data, and a transmission side processing section 26 of the VCAT path transmits a transmission SDH/SONET frame including a control word "DNU". On the contrary, when receiving the control word "DNU", the section 8a suppresses demapping of the reception SDH/SONET frame of the VCAT path, and suppresses phase matching of the reception SDH/SONET frame between the VCAT path and another VCAT path configuring VCG. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to an SDH / SONET transmission apparatus and a transmission delay reduction method, and more particularly, to an SDH / SONET transmission apparatus and transmission delay for transmitting client data via an SDH / SONET network using virtual concatenation (VCAT). It relates to a reduction method.

  2. Description of the Related Art Conventionally, a communication network is mainly composed of telephones, and SDH (Synchronous Digital Hierarchy) is an ITU-T recommendation G.264 standard as an international standard for a multiplex transmission system for telephone lines. As 703, SONET (Synchronous Optical NETwork) is defined as Bellcore standard GR-253-CORE. In recent years, data communication has increased more than voice communication, and voice telephones have been replaced by IP telephones, and data communication such as Ethernet (registered trademark) has come to dominate.

  Technologies such as VCAT (Virtual Concatenation) and LCAS (Link Capacity Adjustment Scheme) have been standardized as techniques for efficiently accommodating data communication in an SDH / SONET line. Note that VCAT is an ITU-T recommendation G.264. 707, and LCAS is an ITU-T recommendation G.700. 7042 is standardized.

  When the data transmission path is set on the SDH / SONET network using VCAT, Japanese Patent Application Laid-Open No. 2004-015173 “Virtual Concatenation Channel Change Method and Transmission Device” and Japanese Patent Application Laid-Open No. 2005-2005. As described in Japanese Patent No. 184301, “Virtually Concatenated Band Automatic Change Method”, there are cases where a VCAT path in which paths are physically distributed is set using empty time slots of an existing SDH / SONET network. Here, when a part of paths is set to a transmission path having a long path length, a large delay difference may occur as compared with a path passing through another path. According to the recommendation of VCAT, the delay difference generated in the VCG (Virtual Concatenation Group) member is determined by demapping client data after matching the phase by waiting for the path with the largest delay on the receiving side. Yes. As a result, there is a problem that if even one path with a large delay exists in the VCG member, the delay amount of the entire VCAT path constituting the VCG becomes large.

  This problem can be avoided by carefully designing the network by humans when setting the path, but in recent years, protocols such as GMPLS (Generalized Multi-Protocol Label Switching) that set paths autonomously have appeared. As a result, an unexpected delay difference may occur on the network. GMPLS is standardized as IETF recommendation REF 3945.

Japanese Patent Laying-Open No. 2004-015173 (page 5-7) Japanese Patent Laying-Open No. 2005-184301 (page 6-8)

  Normally, as shown in FIG. 9, the SDH / SONET transmission apparatuses 2a and 2b relay the SDH / SONET transmission relay apparatus 4a from the client apparatuses 5a and 5b via the client-side data networks 1a and 1b, respectively. When client data is transmitted on the SDH / SONET networks 3a and 3b using VCAT, the following problem occurs. FIG. 9 is a network configuration diagram showing general components constituting the SDH / SONET network.

  That is, for example, on the transmission side of the SDH / SONET transmission apparatus 2a, as shown in FIG. 10, the transmission client data 11a from the client-side data network 1a is mapped to the transmission buffer 7a in the transmission buffer 7a. 12a is temporarily saved. Thereafter, the mapping / demapping unit 8a performs the mapping process 13a with the same phase, and the transmission client data 15a mapped so that the phase is aligned from the SDH / SONET signal processing unit 10a via the multiframe processing unit 9a. Is transmitted as a transmission SDH / SONET frame 14a.

  However, when there are a plurality of physical paths as the VCAT path as in the SDH / SONET networks 3a and 3b, even if the transmission SDH / SONET frame 14a mapped so that the phases are aligned is transmitted, FIG. As shown in FIG. 4, when there are a plurality of physical paths such as the SDH / SONET networks 3a and 3b, the received SDH / SONET frame 14b including the received client data 15b arriving at the receiving side of the SDH / SONET transmission apparatus 2a Causes a time difference (delay difference) 17a due to a difference in a transmission path.

  FIG. 10 is an explanatory diagram showing an example of the operation on the transmission side of the SDH / SONET transmission apparatus 2a in the SDH / SONET network shown in FIG. 9, and FIG. 11 is an SDH in the SDH / SONET network shown in FIG. FIG. 10 is an explanatory diagram illustrating an example of an operation on the receiving side of the / SONET transmission apparatus 2a.

  When the reception SDH / SONET frame 14a accompanied by the delay difference 17a is received, the reception side of the SDH / SONET transmission apparatus 2a receives the reception delay difference absorption buffer 16a from the SDH / SONET signal processing unit 10a via the multiframe processing unit 9a. The delay process 17a (waiting process) is performed to absorb this delay difference 17a, and the phases of the received SDH / SONET frames 14b received by all the VCAT paths constituting the VCG are matched.

  Thereafter, the mapping / demapping unit 8a demaps the received client data 11b 19a and transfers it to the client data processing unit 6a. As described above, the method of detecting and absorbing the delay difference 17a of each VCAT path on the receiving side of the SDH / SONET transmission apparatus 2a and aligning the heads of the received SDH / SONET frames 14b is described in ITU-T Recommendation G.1. 707, and is widely used as a method for transmitting client data using an SDH / SONET network.

  However, in such a delay absorbing operation, when even one VCAT path having a large delay amount exists, an SDH / SONET frame transmitted through a VCAT path with a small delay other than the VCAT path is an SDH / SONET transmission apparatus 2a. By staying in each reception delay difference absorbing buffer 16a in 2b, demapping is performed after the frame arrival of the VCAT path having a large delay amount. In other words, no matter how much the VCG path is configured with the least delay, if one VCAT path with a large delay exists as a VCG member, the delay of the entire SDH / SONET network is matched to the VCAT path with the largest delay. It will become a thing.

  The present invention has been made in view of such circumstances, and it is possible to reduce transmission delay when client data is transmitted via an SDH / SONET network using virtual concatenation (VCAT). An object of the present invention is to provide an SDH / SONET transmission apparatus and a transmission delay reduction method that can cope with an increase in transmission client data.

  In order to solve the above-described problems, the SDH / SONET transmission apparatus according to the present invention employs the following characteristic configuration.

  (1) In an SDH / SONET transmission apparatus that transmits transmission client data transmitted from a client on an SDH (Synchronous Digital Hierarchy) / SONET (Synchronous Optical NETwork) network using virtual concatenation (VCAT). Depending on the traffic volume of the transmission client data, a VCAT path having a large delay amount and a large delay difference from other VCAT paths is automatically deleted from a VCG (Virtual Concatenation Group) member or re-added. SDH / SONET transmission equipment.

  According to the SDH / SONET transmission apparatus and the transmission delay reduction method of the present invention, the following effects can be obtained.

  The first effect is that, in an SDH / SONET transmission apparatus that transmits client data via an SDH / SONET network using VCAT, when the delay of some VCAT paths that make up the VCG is large, the VCAT path is not mapped. Since it is automatically excluded, the delay amount of the entire SDH / SONET network can be reduced without being affected by the delay of the VCAT path.

  The second effect is that even when a VCAT path with a large delay is excluded from the mapping target, if the bandwidth on the SDH / SONET network side is insufficient due to an increase in transmission client data, the excluded VCAT path is excluded. Is automatically added again, so that the burden on the network administrator can be reduced.

It is a block block diagram which shows an example of an internal structure of the SDH / SONET transmission apparatus which concerns on this invention. It is explanatory drawing which shows an example of operation | movement of the transmission side of the SDH / SONET transmission apparatus shown in FIG. It is explanatory drawing which shows the other example of operation | movement of the transmission side of the SDH / SONET transmission apparatus shown in FIG. It is explanatory drawing which shows the further different example of operation | movement of the transmission side of the SDH / SONET transmission apparatus shown in FIG. It is explanatory drawing which shows an example of operation | movement of the receiving side of the SDH / SONET transmission apparatus shown in FIG. It is explanatory drawing which shows the other example of operation | movement of the receiving side of the SDH / SONET transmission apparatus shown in FIG. It is explanatory drawing which shows the further different example of operation | movement of the receiving side of the SDH / SONET transmission apparatus shown in FIG. It is explanatory drawing which shows the further different example of operation | movement of the receiving side of the SDH / SONET transmission apparatus shown in FIG. It is a network block diagram which shows each general component which comprises a SDH / SONET network. It is explanatory drawing which shows an example of operation | movement by the side of the transmission side of the SDH / SONET transmission apparatus in the SDH / SONET network shown in FIG. It is explanatory drawing which shows an example of the operation | movement by the side of the receiver of the SDH / SONET transmission apparatus in the SDH / SONET network shown in FIG.

  Hereinafter, preferred embodiments of an SDH / SONET transmission apparatus and a transmission delay reduction method according to the present invention will be described with reference to the accompanying drawings.

(Features of the present invention)
Prior to the description of the embodiments of the present invention, an outline of the features of the present invention will be described first. The present invention relates to ITU-T Recommendation G.264. In the data transmission technology on the SDH (Synchronous Digital Hierarchy) / SONET (Synchronous Optical NETwork) network using VCAT (Virtual Concatenation) defined in 707, the delay difference of the VCAT path generated due to the difference in the transmitted route is If it is large, a VCAT path with a large delay amount and a large delay difference from other VCAT paths is automatically deleted from a VCG (Virtual Concatenation Group) member automatically according to the amount of traffic received from the client side interface, or again. The transmission path delay of the entire SDH / SONET network can be efficiently reduced by adding it again.

  In other words, in the present invention, the transmission side of the SDH / SONET transmission apparatus has a large delay for any VCAT path among the VCAT paths forming the set VCG, and it is previously compared with the other VCAT paths. When a delay difference equal to or greater than a predetermined delay difference threshold is detected, ITU-T Recommendation G. Using the control word “DNU (Do Not Use)” transmission sequence used in the LCAS (Link Capacity Adjustment Scheme) technology standardized in 7042, the delay amount is large and is greater than the delay difference threshold value. Control is performed so as not to autonomously use the VCAT path in which the delay difference occurs. As a result, the VCG is configured using only the remaining VCAT path with a small delay amount, and unnecessary wait processing (waiting processing) by the reception delay difference absorbing buffer 16a on the receiving side of the SDH / SONET transmission apparatus is omitted, and SDH / It is possible to reduce the delay amount of the entire SONET network.

  In addition, when the VCAT path having a large delay amount is not used, the data amount of the transmission client data from the client-side data network increases rapidly, and only in the band of the VCAT path of the SDH / SONET network being used, When the client data can no longer be transmitted, such a congestion situation is detected, and the control word on the transmission side of the SDH / SONET transmission apparatus is changed from the control word “DNU” to the control word “phase alignment” newly defined in the present invention. After switching to “Start” and transmitting, by using the sequence set in the control word “NORM (Normal)”, the VCAT path having a large delay amount that has been unused is used again as a VCG member for data transmission. , Autonomously return and bandwidth Large and makes it possible to transmit the client data.

  As the usage state of the transmission network, the bandwidth on the SDH / SONET network side is normally set with a margin with respect to the bandwidth actually used by the client side, so the bandwidth used during operation is the set bandwidth. In many cases, it is small. The present invention pays attention to the current state of the SDH / SONET network, and automatically deletes a VCAT path having a large delay amount when the transmission amount of client data is small with respect to the set bandwidth on the SDH / SONET network side, The object is to reduce the delay amount of the entire VCAT path. However, if a large amount of transmission client data is transmitted from the client side, the VCAT path with a large delay amount that has been automatically deleted on the SDH / SONET network side is restored and the bandwidth according to the set value is secured. It is also necessary. In order to cope with such a situation, the present invention monitors the data amount of the transmission buffer temporarily stored while waiting for mapping to the SDH / SONET frame, and the data amount sets a predetermined transmission buffer threshold value. In the case of exceeding the state, a sequence for re-adding the VCAT path that has been temporarily deleted as a path with a large delay amount and restoring the band to the original set band is also prepared.

(Configuration of the embodiment)
A configuration example of the SDH / SONET transmission apparatus according to the present invention will be described with reference to FIG. FIG. 1 is a block diagram showing an example of an internal configuration of an SDH / SONET transmission apparatus according to the present invention. The SDH / SONET transmission apparatus 2 shown in FIG. 1 stores the transmission accumulated in the transmission buffer 7a for waiting for mapping to the SDH / SONET frame for transmission with respect to the conventional SDH / SONET transmission apparatus 2a shown in FIG. A transmission buffer threshold value excess signal transmission unit 20 and a transmission buffer threshold value excess signal transmission circuit 21 that transmit a signal to that effect when the amount of client data exceeds a predetermined transmission buffer threshold value are added. Yes.

In addition, unlike the conventional SDH / SONET transmission apparatus 2a shown in FIG. 10, the LCAS management unit 23 in FIG. 1 stores a delay difference equal to or greater than a predetermined delay difference threshold in the multiframe processing unit 9a. When detected by the reception side processing unit 27, a DNU transmission instruction signal, which is an instruction to transmit the control word “DNU”, is transmitted via the transmission side control signal transmission circuit 24 to the transmission side processing unit in the multiframe processing unit 9a. 26 is provided.

  Further, the LCAS management unit 23 in FIG. 1 transmits a transmission buffer threshold value excess signal indicating that the transmission client data temporarily stored as mapping waiting data in the transmission buffer 7a has exceeded a predetermined transmission buffer threshold value. After receiving via the transmission buffer threshold excess signal transmission circuit 21, after stopping the transmission instruction of “DNU” to the transmission side processing unit 26 in the multiframe processing unit 9a via the transmission side control signal transmission circuit 24 Then, a “phase alignment start” signal is transmitted to the transmission side processing unit 26 in the multiframe processing unit 9a via the transmission side control signal transmission circuit 24, and mapping to an unused VCAT path by the LCAS sequence procedure is performed. A function to resume is added to the conventional SDH / SONET transmission apparatus 2a shown in FIG.

(Description of operation of embodiment)
Next, the operation of the SDH / SONET transmission apparatus 2 shown as one embodiment according to the present invention in FIG. 1 will be described separately for the transmission side and the reception side. First, the operation on the transmission side will be described with reference to FIG. FIG. 2 is an explanatory diagram showing an example of the operation on the transmission side of the SDH / SONET transmission apparatus 2 shown in FIG. In FIG. 2, there are a plurality of SDH / SONET networks 3a and 3b, and a delay difference 17a equal to or greater than a predetermined delay difference threshold is detected due to a delay in any particular VCAT path constituting the VCG. An example of the operation on the transmission side in this case is shown.

In a normal LCAS operation, the LCAS management unit 23 monitors the delay difference 17a detected by the reception side processing unit 27 in the multiframe processing unit 9a for all VCAT paths registered as VCG members. Here, for example, a received SDH / SONET frame 14b ₁ via the SDH / SONET network 3a has a delay difference 17a greater than a predetermined delay difference threshold with respect to the received SDH / SONET frame 14b ₂ via the SDH / SONET network 3b. When the LCAS management unit 23 detects that the delay difference 17a is greater than or equal to the delay difference threshold value, the LCAS management unit 23 transmits a DNU transmission to the VCAT path transmission side processing unit 26 via the transmission side control signal transmission circuit 24. An instruction signal 29 is transmitted. Note that the predetermined delay difference threshold is a value that can be freely set by the network administrator.

Upon receiving the DNU transmission instruction signal 29 from the LCAS management unit 23, the transmission side processing unit 26 starts processing for inserting the control word “DNU” 30 into the transmission SDH / SONET frame 14a ₁ transmitted to the opposite device. . At this time, for the mapping process 13a in the mapping / demapping unit 8a, the client data processing unit 6a receives the mapping stop signal 28 from the LCAS management unit 23 via the mapping / demapping control circuit 22. The mapping waiting data 12a in the transmission buffer 7a is switched to an operation in which the mapping of the transmission client data 11a is not performed for the VCAT path in which the control word “DNU” 30 is transmitted. Here, the stop of the mapping operation for the VCAT path that transmitted the control word “DNU” in the mapping / demapping unit 8a is the ITU-T recommendation G.1. The operation procedure specified in 7042 is used.

  Next, in the state of FIG. 2 in which the mapping operation of the VCAT path in which the delay difference 17a equal to or larger than the predetermined delay difference threshold has occurred, the transmission client data 11a from the client side data network 1a increases. The operation when the transmission client data 11a temporarily stored as the mapping waiting data 12a in the transmission buffer 7a exceeds a predetermined transmission buffer threshold will be described with reference to FIG. FIG. 3 is an explanatory view showing another example of the operation on the transmission side of the SDH / SONET transmission apparatus 2 shown in FIG. 1, and the SDH when the transmission client data 11a exceeding the predetermined transmission buffer threshold occurs is generated. The operation on the transmission side of the / SONET transmission apparatus is shown.

  In FIG. 3, the transmission client data 11a transmitted from the client side data network 1a is temporarily stored in the transmission buffer 7a in the client data processing unit 6a in order to wait until it is mapped by the mapping / demapping unit 8a. Saved. Here, when the total bandwidth of all members constituting the VCG is smaller than the data rate of the transmission client data 11a transmitted from the client side data network 1a, the data amount of the mapping waiting data 12a accumulated in the transmission buffer 7a is as follows. Will increase. When the data amount of the mapping waiting data 12a exceeds a predetermined transmission buffer threshold value 31, a transmission buffer threshold value excess signal transmission unit 21 sends a transmission buffer threshold value excess signal 32 from the transmission buffer threshold value excess signal transmission circuit 21. Is transmitted to the LCAS management unit 23.

The LCAS management unit 23 that has received the transmission buffer threshold excess signal 32 transmits the DNU transmission instruction signal that has been transmitted to the VCAT path transmission side processing unit 26 in which the delay difference 17a equal to or greater than the delay difference threshold has occurred. 29 is stopped, and instead, a phase matching start transmission instruction signal 35 is transmitted via the transmission side control signal transmission circuit 24. The transmission side processing unit 26 that has received the phase alignment start transmission instruction signal 35 starts processing for inserting the control word “phase alignment start” 36 into the transmission SDH / SONET frame 14a ₁ transmitted to the opposite apparatus.

  Here, the control word “phase alignment start” 36 is an ITU-T recommendation G.264. It does not exist in the definition of the LCAS control word specified in 7042, In the LCAS recommendation of 7042, a reserved value such as “1110” is newly defined as the control word “phase alignment start”. However, the handling of the control word “phase alignment start” 36 on the LCAS sequence is exactly the same as the control word “DNU” 30 defined in the LCAS recommendation.

The control word “phase alignment start” 36 is exactly the same as the control word “DNU” 30 on the LCAS sequence. However, as will be described later with reference to FIG. Used as. After transmitting to the opposite apparatus and insert a control word "phasing start" 36 to the transmitting SDH / SONET frames 14a _1, LCAS management unit 23, a mapping start signal 33 via the mapping / de-mapping control circuit 22 The mapping process 13a is transmitted to the mapping / demapping unit 8a and the mapping process 13a related to the VCAT path for which the mapping operation has been stopped is resumed.

Incidentally, when resuming the mapping to transmit SDH / SONET frame 14a ₁ of VCAT path has stopped mapping operation until now, the transmission SDH / SONET frame 14a ₁ is control word "NORM (Normal)" 34 value Is inserted. The control word “NORM” 34 is used as it is defined in the LCAS recommendation of the ITU recommendation.

  After resuming the mapping operation for the VCAT path passing through the SDH / SONET network 3a, the mapping waiting data 12a temporarily stored in the transmission buffer 7a is sent until the data amount becomes less than the transmission buffer threshold 31. The trusted buffer threshold value excess signal transmission unit 20 continues to transmit the transmission buffer threshold value excess signal 32 to the LCAS management unit 23. The operation at this time is shown in FIG. FIG. 4 is an explanatory view showing a further different example of the operation on the transmission side of the SDH / SONET transmission apparatus 2 shown in FIG. 1, and the mapping waiting data 12a temporarily stored in the transmission buffer 7a is used for the predetermined transmission. As long as the buffer threshold value 31 is exceeded, the transmission buffer threshold value excess signal transmission unit 20 describes the operation of continuing to transmit the transmission buffer threshold value excess signal 32 to the LCAS management unit 23.

That is, as shown in FIG. 4, as long as the LCAS management unit 23 receives the transmission buffer threshold excess signal 32 from the transmission buffer threshold excess signal transmission unit 20, for example, the LCAS management unit 23 receives it from the SDH / SONET network 3a. delay difference 17a of VCAT path for the received SDH / SONET frame 14b ₁ even though they become more delay difference threshold predetermined transmits the DNU transmission instruction signal 29 to the transmission side processing unit 26 corresponding to the VCAT path Never do. When the LCAS manager 23 no longer receives the transmission buffer threshold excess signal 32 from the transmission buffer threshold excess signal transmitter 20, the operation returns to the operation shown in FIG. Thereafter, when a VCAT path in which the delay difference 17a is greater than or equal to a predetermined delay difference threshold is detected, the DNU is notified to the transmission side processing unit 26 corresponding to the VCAT path that is greater than or equal to the delay difference threshold. By transmitting the transmission instruction signal 29, the control word “DNU” 30 is inserted into the VCAT path, and the operation is switched to the operation not using the VCAT path for transmitting the main signal.

  In a conventional LCAS sequence, a limit value that can be absorbed by an SDH / SONET device or a limit value of a delay that a communication carrier can accept as an SDH / SONET network is usually set as a threshold value for the delay amount. A VCAT path in which a delay exceeding the limit value is detected is determined to be a failure and is automatically deleted. Thereafter, until the delay is resolved for some reason (for example, network redesign). The VCAT path where the delay is detected is not used for conducting the main signal.

  On the other hand, the delay difference threshold in the present embodiment assumes that the delay amount immediately before being determined as a failure occurs in a specific VCAT path, as described above, and the delay difference threshold. Even if the delay amount exceeds the delay amount, the delay amount is allowed for the SDH / SONET device 2 and the SDH / SONET networks 3a and 3b. In this state, the delay amount generated in a specific VCAT path is VCG. A case is assumed in which the delay of all the VCAT paths to be configured is caused.

  For this reason, in this embodiment, as described above, the delay amount is large so that the delay of one or several specific VCAT paths does not affect all the paths constituting the VCG. By deleting a VCAT path having a delay difference equal to or greater than the difference threshold from the target of VCG by the method unique to this embodiment applying the “DNU (Do Not Use)” transmission sequence as described above, the delay amount of the entire network It is possible to suppress this. Furthermore, when the traffic volume of client data sent from the client thereafter becomes larger than the bandwidth of the entire SDH / SONET network, the target “phase alignment” operation is automatically performed by automatically executing this embodiment. It is also possible to restore the bandwidth by immediately adding again the VCAT path that has been deleted from VCG to the VCG again.

Next, the operation on the receiving side will be described with reference to FIG. FIG. 5 is an explanatory diagram showing an example of the operation on the receiving side of the SDH / SONET transmission apparatus 2 shown in FIG. FIG. 5 shows an operation when the received SDH / SONET frame 14b ₁ into which the control word “DNU” 30 is inserted is received from the opposite apparatus in the normal state.

When the control word “DNU” 30 inserted in the reception SDH / SONET frame 14b ₁ is received from the opposite device side by the reception side processing unit 27 in the multi-frame processing unit 9a, the LCAS management unit 23 receives the control word “DNU”. By transmitting a DNU reception notification 38 via the side control signal transmission circuit 25, it is notified that the control word “DNU” 30 has been received from the opposite device.

The LCAS management unit 23 that has received the DNU reception notification 38 transmits a demapping stop signal 37 to the mapping / demapping unit 8 a via the mapping / demapping control circuit 22, thereby controlling the control word “DNU”. "controls 30 receive SDH / SONET frames 14b ₁ received by VCAT path receives so as not to subject the demapping process 19a.

The above operation when receiving the control word “DNU” 30 is performed using a sequence defined in the LCAS recommendation. In addition, the VCAT path that received the control word “DNU” 30 is associated with the operation that the received SDH / SONET frame 14b ₁ received by the VCAT path that received the control word “DNU” 30 is not subject to the demapping process 19a. Is excluded from the VCG phasing target in the reception delay difference absorbing buffer 16a.

  The operation of excluding the DNU transmission state and the VCAT path having a large delay difference from the mapping target on the transmission side of the SDH / SONET transmission apparatus 2 described above in FIG. 2, and the DNU on the reception side of the SDH / SONET transmission apparatus 2 shown in FIG. The sequence for reducing the delay of the SDH / SONET network is completed by completing the operation of excluding the reception path from the demapping and VCG phasing target.

Next, the control word inserted in the received SDH / SONET frame 14b ₁ received from the opposite device is received from the “DNU” 30 to the “phase matching start” 36 by the receiving side processing unit 27 in the multi-frame processing unit 9a. The operation when changed to will be described with reference to FIG. FIG. 6 is an explanatory diagram showing another example of the operation on the receiving side of the SDH / SONET transmission apparatus shown in FIG. 1. The control word inserted in the received SDH / SONET frame 14b ₁ is changed from “DNU” 30 to “ The operation on the receiving side when the phase is changed to “start phase matching” 36 is shown.

In FIG. 6, when the control word “phase alignment start” 36 inserted in the reception SDH / SONET frame 14b ₁ is received from the opposite device side by the reception side processing unit 27 in the multiframe processing unit 9a, the LCAS management unit 23 is notified that the control word “phase alignment start” 36 has been received from the opposite apparatus by transmitting a phase alignment start notification 40 via the reception-side control signal transmission circuit 25.

  The LCAS management unit 23 that has received the phase alignment start notification 40 transmits a phase alignment start signal 39 to the mapping / demapping unit 8 a via the mapping / demapping control circuit 22, thereby controlling the control word “ It is instructed to start the phase alignment between the reception client data of the VCAT path that has received the “phase alignment start” 36 and the reception client data of the other VCAT paths constituting the VCG.

The mapping / demapping unit 8a that has received the phase alignment start signal 39 from the LCAS management unit 23 performs the control word “phase” by the wait process 18a (waiting process) in the reception delay difference absorbing buffer 16a as shown in FIG. Phase matching is performed between the received SDH / SONET frame 14b _{1 of} the VCAT path that has received the “alignment start” 36 and the received SDH / SONET frame 14b ₂ of the other VCAT path that constitutes the VCG. FIG. 7 is an explanatory diagram showing still another example of the operation on the receiving side of the SDH / SONET transmission apparatus shown in FIG. 1, and the mapping / demapping unit 8a when the phase alignment start signal 39 is received from the LCAS management unit 23 Shows the operation.

In FIG. 7, the mapping / demapping unit 8 a that has received the phase alignment start signal 39 from the LCAS management unit 23 configures the VCG path received SDH / SONET frame 14 b ₁ and VCG that has received the control word “phase alignment start” 36. to so as to match the phase between the received SDH / SONET frame 14b ₂ other VCAT path, performing the Wait processing 18a with respect to the reception delay difference absorbing buffers 16a other VCAT path. The operation for adjusting the phase is described in ITU-T recommendation G.264. The phase matching operation when the VCAT multi-frame defined in 707 is used is used as it is. As a result of the phase matching operation as described above, the phases of the received SDH / SONET frames are aligned in all the VCAT paths constituting the VCG including the received SDH / SONET frame 14b ₁ including the control word “phase matching start” 36, and the mapping / In the demapping unit 8a, the demapping process 19a can be performed on the received client data of all VCAT paths.

The operation of FIG. 7, including receiving SDH / SONET frame 14b ₁ that contains the control word "phasing start" 36, the phase is aligned in all VCAT path constituting the VCG, the mapping / de-mapping unit 8a, of the total VCAT path When the demapping process 19a is performed on the received client data, the operation is the same as the VCAT path delay absorbing operation on the conventional SDH / SONET network described above with reference to FIG. 11, as shown in FIG. FIG. 8 is an explanatory view showing still another example of the operation on the receiving side of the SDH / SONET transmission apparatus shown in FIG. 1, and shows the operation after phase matching.

  In a state where the phase matching operation of all the VCAT paths constituting the VCG of FIG. 8 is being performed, when receiving the received SDH / SONET frame in which the control word “DNU” is inserted for the specific VCAT path from the opposite device, The operation shown in FIG. 5 is performed, and the operation of excluding the VCAT path from the target of the demapping process 19a is performed.

  The operation of re-adding the VCAT path on the transmission side of the SDH / SONET transmission apparatus 2 described above with reference to FIGS. 3 and 4 to the mapping target, and the VCG on the reception side of the SDH / SONET transmission apparatus 2 shown in FIGS. By completing the phase alignment and the re-adding operation to the demapping target of the VCAT path, the automatic re-adding sequence of the VCAT path having a large delay when the transmission client data amount is increased is completed.

(Explanation of effect of embodiment)
As described in detail above, in the present embodiment, the following effects can be obtained.

  The first effect is that, in the SDH / SONET transmission apparatus 2 that transmits client data by VCAT through the SDH / SONET network, when the delay of some VCAT paths constituting the VCG is large, the VCAT path is mapped. Therefore, the delay amount of the entire SDH / SONET network can be reduced without being affected by the delay of the VCAT path.

  The second effect is that even when a VCAT path with a large delay is excluded from the mapping target, if the bandwidth on the SDH / SONET network side is insufficient due to an increase in transmission client data, the excluded VCAT path is excluded. Is automatically added again, so that the burden on the network administrator can be reduced.

The configuration of the preferred embodiment of the present invention has been described above. However, it should be noted that such examples are merely illustrative of the invention and do not limit the invention in any way. Those skilled in the art will readily understand that various modifications and changes can be made according to a specific application without departing from the gist of the present invention. For example, the embodiment of the present invention can be expressed as the following configuration in addition to the configuration (1) in the means for solving the problems.
(2) The delay amount of the received SDH / SONET frame of any VCAT path received from the opposite device is large, and the delay is equal to or greater than a predetermined delay difference threshold compared to the delay amount of the received SDH / SONET frame of the other VCAT path. If it is a difference, the control word “DNU (Do Not Use)” defined in the ITU recommendation is inserted into the transmission SDH / SONET frame of the VCAT path, and transmitted to the opposite device, and the transmission to the VCAT path is performed. The SDH / SONET transmission apparatus according to (1), wherein the VCAT path is temporarily deleted from the VCG on the transmission side of the SDH / SONET apparatus by suppressing the operation of mapping client data.
(3) When receiving the received SDH / SONET frame with the control word “DNU” inserted from the opposite device on any VCAT path, the operation of demapping the received SDH / SONET frame of the VCAT path is suppressed. By suppressing the operation of phase matching between the received SDH / SONET frame of the VCAT path and the received SDH / SONET frame of the other VCAT path constituting the VCG, the receiving side of the SDH / SONET apparatus sets the VCAT path. The SDH / SONET transmission apparatus according to (2), which is temporarily deleted from the VCG.
(4) When the data amount of the transmission buffer temporarily stored for mapping the transmission client data exceeds a predetermined transmission buffer threshold value, the VCAT path temporarily deleted in the SDH / SONET apparatus on the transmission side By inserting a control word “phase alignment start” instructing the start of phase alignment into the transmission SDH / SONET frame, transmitting to the opposite device, and resuming the operation of mapping the transmission client data to the VCAT path The SDH / SONET transmission apparatus according to (2) or (3), wherein the VCAT path is added again to the VCG on the transmission side of the SDH / SONET apparatus.
(5) When resuming the operation of mapping the transmission client data to the temporarily deleted VCAT path, a control word to be inserted into the transmission SDH / SONET frame of the VCAT path is recommended by the ITU from the control word “phase alignment start”. The SDH / SONET transmission apparatus according to (4), wherein the control word is switched to the control word “NORM (Normal)” defined in (1) and transmitted to the opposite apparatus.
(6) When a received SDH / SONET frame with the control word “phase alignment” inserted from the opposite device is received via any VCAT path, the received SDH / SONET frame of the VCAT path and another VCAT path constituting the VCG The operation for performing phase alignment with the received SDH / SONET frame is resumed, and the operation for demapping the received SDH / SONET frame of the VCAT path is resumed, so that the VCAT path on the receiving side of the SDH / SONET device is resumed. The SDH / SONET transmission apparatus according to (4) or (5) above, which is re-added to the VCG.
(7) In an SDH / SONET transmission apparatus that transmits transmission client data transmitted from a client on an SDH (Synchronous Digital Hierarchy) / SONET (Synchronous Optical NETwork) network using virtual concatenation (VCAT). A transmission delay reduction method, in which a VCAT path having a large delay amount and a large delay difference from another VCAT path is automatically deleted from a VCG (Virtual Concatenation Group) member in accordance with the traffic amount of the transmission client data. Or transmission delay reduction method.
(8) The delay amount of the received SDH / SONET frame of one of the VCAT paths received from the opposite device is large, and the delay is equal to or greater than a predetermined delay difference threshold compared to the delay amount of the received SDH / SONET frame of the other VCAT path. If it is a difference, the control word “DNU (Do Not Use)” defined in the ITU recommendation is inserted into the transmission SDH / SONET frame of the VCAT path, and transmitted to the opposite device, and the transmission to the VCAT path is performed. (7) The transmission delay reduction method according to (7), wherein the VCAT path is temporarily deleted from the VCG on the transmission side of the SDH / SONET device by suppressing the operation of mapping the client data.
(9) When a received SDH / SONET frame with the control word “DNU” inserted from the opposite device is received on any VCAT path, the operation of demapping the received SDH / SONET frame of the VCAT path is suppressed. By suppressing the operation of performing phase alignment between the received SDH / SONET frame of the VCAT path and the received SDH / SONET frame of the other VCAT path constituting the VCG, the VCAT path is set to VCG on the receiving side of the SDH / SONET device. (8) The transmission delay reducing method according to (8), wherein the transmission delay is temporarily deleted from the network.
(10) When the data amount of the transmission buffer temporarily stored for mapping the transmission client data exceeds a predetermined transmission buffer threshold value, the VCAT path temporarily deleted in the SDH / SONET apparatus on the transmission side By inserting a control word “phase alignment start” instructing the start of phase alignment into the transmission SDH / SONET frame, transmitting to the opposite device, and resuming the operation of mapping the transmission client data to the VCAT path The transmission delay reduction method according to (8) or (9), wherein the transmission side of the SDH / SONET device re-adds the VCAT path to the VCG again.
(11) When resuming the operation of mapping the transmission client data to the temporarily deleted VCAT path, the control word to be inserted into the transmission SDH / SONET frame of the VCAT path is recommended from the control word “phase alignment start” to the ITU recommendation. (10) The transmission delay reduction method according to (10), wherein the control word is switched to the control word “NORM (Normal)” defined in the above and transmitted to the opposite device.
(12) When a received SDH / SONET frame in which the control word “phase alignment” is inserted from the opposite device is received through any VCAT path, the received SDH / SONET frame of the VCAT path and another VCAT path constituting the VCG The phase matching with the received SDH / SONET frame is resumed, and the operation for demapping the received SDH / SONET frame of the VCAT path is resumed, so that the VCAT path is set on the receiving side of the SDH / SONET device. The transmission delay reduction method according to (10) or (11) above, which is added again to the VCG.

1a, 1b Client-side data network 2a. 2b SDH / SONET transmission apparatus 2 SDH / SONET transmission apparatus 3a, 3b SDH / SONET network 4a SDH / SONET transmission relay apparatus 5a, 5b client apparatus 6a client data processing section 7a transmission buffer 8a mapping / demapping section 9a multiframe Processing unit 10a SDH / SONET signal processing unit 11a Transmission client data 11b Reception client data 12a Mapping waiting data 13a Mapping processing 14a Transmission SDH / SONET frame 14a ₁ Transmission SDH / SONET frame 14b Reception SDH / SONET frame 14b ₁ Reception SDH / SONET frame 14b ₂ reception SDH / SONET frame 15a transmission client data 15b reception client data 16a reception delay Difference absorption buffer 17a Time difference (delay difference)
18a Wait process 19a Demapping process 20 Transmission buffer threshold excess signal transmission unit 21 Transmission buffer threshold excess signal transmission circuit 22 Mapping / demapping control circuit 23 LCAS management unit 24 Transmission side control signal transmission circuit 25 Reception side control signal transmission Circuit 26 Transmission side processing unit 27 Reception side processing unit 28 Mapping stop signal 29 DNU transmission instruction signal 30 Control word “DNU”
31 Transmission buffer threshold 32 Transmission buffer threshold excess signal 33 Mapping start signal 34 Control word “NORM”
35 Phase alignment start transmission instruction signal 36 Control word “phase alignment start”
37 Demapping stop signal 38 DNU reception notification 39 Phase alignment start signal 40 Phase alignment start notification

Claims (12)

  In the SDH / SONET transmission apparatus that transmits the transmission client data transmitted from the client on the SDH (Synchronous Digital Hierarchy) / SONET (Synchronous Optical NETwork) network using virtual concatenation (VCAT). Depending on the amount of client data traffic, VCAT paths that have a large delay amount and a large delay difference from other VCAT paths are automatically deleted from VCG (Virtual Concatenation Group) members or re-added. SDH / SONET transmission device characterized.   The delay amount of the received SDH / SONET frame of one of the VCAT paths received from the opposite device is large, and the delay difference is equal to or larger than a predetermined delay difference threshold as compared with the delay amount of the received SDH / SONET frame of the other VCAT path. In this case, the control word “DNU (Do Not Use)” defined in the ITU recommendation is inserted into the transmission SDH / SONET frame of the VCAT path, and the transmission client data is transmitted to the VCAT path. The SDH / SONET transmission apparatus according to claim 1, wherein the VCAT path is temporarily deleted from the VCG on the transmission side of the SDH / SONET apparatus by suppressing the mapping operation.   When a received SDH / SONET frame with the control word “DNU” inserted from the opposite device is received on any VCAT path, the operation to demap the received SDH / SONET frame of the VCAT path is suppressed and the VCAT path By suppressing the operation of performing phase matching between the received SDH / SONET frame and the received SDH / SONET frame of the other VCAT path constituting the VCG, the VCAT path is temporarily transferred from the VCG on the receiving side of the SDH / SONET apparatus. The SDH / SONET transmission apparatus according to claim 2, wherein the SDH / SONET transmission apparatus is deleted.   When the data amount of the transmission buffer temporarily stored for mapping the transmission client data exceeds a predetermined transmission buffer threshold value, the transmission SDH / of the VCAT path temporarily deleted in the SDH / SONET apparatus on the transmission side By inserting a control word “phase alignment start” instructing the start of phase alignment into the SONET frame and transmitting it to the opposite device and resuming the operation of mapping the transmission client data to the VCAT path, 4. The SDH / SONET transmission apparatus according to claim 2, wherein the transmission side of the / SONET apparatus re-adds the VCAT path to the VCG again.   When the operation of mapping the transmission client data to the temporarily deleted VCAT path is resumed, a control word to be inserted into the transmission SDH / SONET frame of the VCAT path is specified by the ITU recommendation from the control word “phase alignment start”. 5. The SDH / SONET transmission apparatus according to claim 4, wherein the SDH / SONET transmission apparatus is switched to the control word “NORM (Normal)” and transmitted to the opposite apparatus.   When a received SDH / SONET frame with the control word “phase alignment” inserted from the opposite device is received via any VCAT path, the received SDH / SONET frame of the VCAT path and the received SDH of another VCAT path constituting the VCG The operation for phase matching with the / SONET frame is resumed and the operation for demapping the received SDH / SONET frame for the VCAT path is resumed, so that the VCAT path is set to VCG on the receiving side of the SDH / SONET apparatus. 6. The SDH / SONET transmission apparatus according to claim 4, wherein the SDH / SONET transmission apparatus is added again.   Transmission delay reduction in an SDH / SONET transmission apparatus that transmits transmission client data transmitted from a client on an SDH (Synchronous Digital Hierarchy) / SONET (Synchronous Optical NETwork) network using virtual concatenation (VCAT) A VCAT path having a large delay amount and a large delay difference from other VCAT paths is automatically deleted from a VCG (Virtual Concatenation Group) member according to the traffic amount of the transmission client data, A transmission delay reduction method characterized by re-adding.   The delay amount of the received SDH / SONET frame of one of the VCAT paths received from the opposite device is large, and the delay difference is equal to or larger than a predetermined delay difference threshold as compared with the delay amount of the received SDH / SONET frame of the other VCAT path. In this case, the control word “DNU (Do Not Use)” defined in the ITU recommendation is inserted into the transmission SDH / SONET frame of the VCAT path, and the transmission client data is transmitted to the VCAT path. 8. The transmission delay reduction method according to claim 7, wherein the VCAT path is temporarily deleted from the VCG on the transmission side of the SDH / SONET apparatus by suppressing the mapping operation.   When a received SDH / SONET frame with the control word “DNU” inserted from the opposite device is received on any VCAT path, the operation to demap the received SDH / SONET frame of the VCAT path is suppressed and the VCAT path The VCAT path is temporarily deleted from the VCG on the receiving side of the SDH / SONET device by suppressing the phase matching operation between the received SDH / SONET frame and the received SDH / SONET frame of the other VCAT path constituting the VCG. The transmission delay reduction method according to claim 8, wherein:   When the data amount of the transmission buffer temporarily stored for mapping the transmission client data exceeds a predetermined transmission buffer threshold value, the transmission SDH / of the VCAT path temporarily deleted in the SDH / SONET apparatus on the transmission side By inserting a control word “phase alignment start” instructing the start of phase alignment into the SONET frame, transmitting to the opposite device, and resuming the operation of mapping the transmission client data to the VCAT path, SDH / 10. The transmission delay reduction method according to claim 8, wherein the VCAT path is added again to the VCG on the transmission side of the SONET device.   When the operation of mapping the transmission client data to the temporarily deleted VCAT path is resumed, a control word to be inserted into the transmission SDH / SONET frame of the VCAT path is specified by the ITU recommendation from the control word “phase alignment start”. The transmission delay reduction method according to claim 10, wherein the transmission word is switched to the control word “NORM (Normal)” and transmitted to the opposite device.   When a received SDH / SONET frame with the control word “phase alignment” inserted from the opposite device is received via any VCAT path, the received SDH / SONET frame of the VCAT path and the received SDH of another VCAT path constituting the VCG The operation for phase matching with the / SONET frame is resumed, and the operation for demapping the received SDH / SONET frame for the VCAT path is resumed, so that the VCAT path is re-assigned to the VCG on the receiving side of the SDH / SONET device. The transmission delay reduction method according to claim 10 or 11, wherein the transmission delay is added again.

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