DE10204618B4 - Method and arrangement for the transmission of quality criteria of a synchronous network hierarchy - Google Patents

Abstract

Process for the transmission of quality criteria (TQK) of several tributary signals (STM-M ₁ , STM-M ₂ , ...) of a synchronous network hierarchy (SDH / SONET), which are combined on the transmission side to form a multiplex signal of higher order (STM-N) and are transmitted in a higher-order transport module (STM-N) via a synchronous network,
characterized,
that the tributary signals (STM-M ₁ , STM-M ₂ , ...) are monitored,
that various tributary quality criteria (TQK1, TQK2, ...) are generated via the state of each of the tributary signals (STM-M ₁ , STM-M ₂ , ...),
that the tributary quality criteria (TQK1, TQK2, ...) of each of the tributary signals (STM-M ₁ , STM-M ₂ , ...) are combined to form a monitoring combination (FDI1, FDI2, ...) and
that the monitoring combinations (FDI1, FDI2, ...) are inserted into the overhead of the transport module (STM-N) of higher order to be sent.

Description

The The invention relates to methods and arrangements according to the preambles of claims 1, 2, 8 or 9.

digital Signals are over synchronous networks, according to the SDH or SONET standard. The user data is transmitted using a so-called STM-1 transport module. This consists of the user data and additional overhead information.

Several STM-M signals of low order, such as STM-1 by time multiplexing to a higher order STM-N signal together, to achieve efficient channel use. The overheads of the STM-M low order signals evaluated and a new overhead of the STM-N signal higher Order formed.

Overhead information and signal defects, such as alarms and bit errors, in the incoming tributary signal (STM-M) are not transmitted transparently in a conventional SDH / SONET system, since this is according to the SDH / SONET standard due to the termination of Line sections is not provided.

from In contrast to the standard procedure, the operator of a transport network becomes demands its customers if possible transparent data channels to disposal to deliver.

On such a transparent method for SDH / SONET signals is for Not standardized yet.

From the European patent application EP 1 037 421 A2 A method and an arrangement for transmitting SDH signals with a first data rate by means of an SDH frame with a second data rate is known. Here the SDH signals are multiplexed into the SDH frame. The SDH frame contains an information payload, a route overhead, a section overhead, which is divided into a first section overhead and a second section overhead. The first section overhead contains regenerator section overhead bytes and the second section overhead contains multiplex section overhead bytes. When the SDH frame arrives at a receiving end of a terminal device, the multiplex section overhead bytes of the second section overhead of the SDH frame are evaluated without changing the link overhead and the payload. On the sending side of the terminal device, the multiplex section overhead bytes of the second section overhead of the SDH frame are generated without changing the link overhead and the payload before sending.

From the German published application DE 199 26 463 A1 a monitoring method for optical transmission devices is known. In the monitoring process, the levels of the total signals are checked on several optical fibers. In addition, the signal qualities of the individual transmission channels, which are each transmitted on one fiber, are monitored cyclically. All criteria are evaluated to determine a monitoring algorithm by which critical channels are monitored more intensively.

The The object underlying the invention is overhead information and low-order signal defects from SDH / SONET signals an SDH / SONET multiplex signal higher Transfer order.

A further task is the signal defects of the tributary signals and evaluate the signal defects of the higher order multiplex signal and the associated assign outgoing tributary signals.

The The main task is achieved by the process steps listed in patent claims 1 and 8. and arrangement features solved.

The further object is achieved by the in the claims 2 and 9 listed Process and arrangement features solved.

The Advantages achieved with the invention are in particular that quality criteria the tributary signals, such as alarms, bit errors and performance values, and quality criteria of the higher order multiplex signal linked to resulting quality criteria and are assigned to the corresponding outgoing tributary signals, so the quality characteristics output the actual quality influence on the tributary and correspond to the multiplex route.

On accordingly designed SDH / SONET system is in the following as Multiplex transponder called.

advantageous Embodiments of the invention are specified in the subclaims.

On embodiment is shown in the drawings and is described below.

1 shows the basic circuit diagram of an SDH / SONET multiplexer and

2 shows the basic circuit diagram of an SDH / SONET demultiplexer.

1 shows the basic circuit diagram of an SDH / SONET multiplexer for the transmission of quality criteria of low order tributary signals STM-M ₁ ... STM-M _m , for example STM-1 ₁ ... STM-1 _m , a synchronous network hierarchy such as SDH or SONET ,

In the transmission direction, the low-order tributary signals STM-M ₁ ... STM-M _m are fed to optical-electrical converters OEW-M1 ... OEW-Mm. The optical-electrical converters OEW-M1 ... OEW-Mm contain monitoring devices, not shown, which check the level of the tributary signals STM-M ₁ ... STM-M _m and emit a first quality feature TQK1, for example called the failure of the input signal COME ON. The electrical Tributarysignale _STM-1 ... STM-M M _m be overhead evaluators SOA supplied M1 ... Mm, the check signals _STM-1 ... STM-M M _m and as a result of the check further quality characteristics TQK2. .. TQKm release, for example a loss of synchronism, called LOF, the presence of an alarm indication signal, called AIS, a slightly increased bit error rate, called SD, or greatly increased bit error rate, called EXC, and the bit error rate, called BER, itself.

The evaluated tributary signals STM-M ₁ ... STM-M _m are fed to a multiplexer MUX and are combined to form a higher-order multiplex signal STM-N.

The quality features determined by the optical-electrical converters OEW-M1 ... OEW-Mm and overhead evaluators SOA-M1 ... SOA-Mm are fed to a quality criteria encoder FDI-Enc, which provides these quality features for each tributary signal STM-1 ₁ ... STM-1 _m as a monitoring combination FDI1 ... FDIm and outputs it to the overhead generator SOG-M, which inserts it into the overhead of the higher order multiplex signal STM-N to be transmitted. This creates an SDH / SONET signal that corresponds essentially to the SDH / SONET standard, but is supplemented with additional information, and is transmitted via an overhead generator SOG-M and an electrical-optical converter EOW-M.

This Signal is transmitted to an SDH / SONET demultiplexer. When transferring can more disorders occur that also takes into account Need to become.

2 shows the basic circuit diagram of the SDH / SONET demultiplex transponder for determining the resulting tributary quality criteria of the tributary signals STM-M ₁ ... STM-M _m . The resulting tributary quality criteria for the output-side tributary signals are determined by combining the tributary quality criteria and the multiplex signal quality criteria.

The Multiplex signal higher Order STM-N becomes an optical-electrical OEW-D converter supplied. This contains a monitoring device, not shown, which checks and turns on the level of the higher order multiplex signal STM-N first multiplex signal quality criterion MQK1 outputs, for example the failure of the multiplex signal STM-N, briefly referred to as MLOS. The converted signal is an overhead evaluator Fed SOA-D, who checks the signal and others quality features MQK2 ... MQKn of the multiplex signal STM-N outputs, such as loss of synchronism MLOF, the presence of an alarm indication signal MAIS, a slightly increased Bit error rate MSD or greatly increased Bit error rate MEXC and the bit error rate MBER itself.

in the The overhead evaluator SOA-D also becomes the overhead of the multiplex signal higher Okay STM-N checked and the monitoring combinations inserted by the multiplex transponder on the input side FDI1 ... FDIm read out.

The multiplex signal STM-N is fed to a demultiplexer Demux, which divides it into tributary signals STM-M ₁ ... STM-M _m .

The quality features MQK1 ... MQKn of the higher order multiplex signal STM-N ascertained by the optical-electrical converter OEW-D and by the overhead evaluator SOA-D and the monitoring combinations FDI1 ... FDIm read out by the overhead evaluator SOA-D become a defect combiner DFC fed. This determines the quality criteria for each transmitted tributary signal STM-M ₁ ... STM-M _m from the quality criteria MQK1 ... MQKm of the multiplex signal STM-N and links them with the monitoring combinations FDI1 ... FDIm to the resulting quality criteria RTQK1 ... RTQKm for each tributary signal STM-M ₁ ... STM-M _m .

A subset of the resulting quality criteria RTQK1 ... RTQKi is fed to the overhead generators SOG-D1 ... SOG-Dm, the resulting quality criteria RTQK1 ... RTQKi each in the overhead of the corresponding tributary signal STM-M ₁ ... STM -M insert _m or send an alarm indication signal AIS.

Further quality criteria RTQKj ... RTQKm become the electrical-optical converters EOW-D1 ... fed to EOW-Dm, which may suppress the transmission of the tributary signal.

The accordingly, tributary signals provided with resulting quality criteria are about electrical-optical Transducer EOW-D1 ... EOW-Dm sent to customers.

in the following example is the determination of a resulting bit error rate described.

The bit error rate BER1 ... BERm of each incoming tributary signal STM-M ₁ ... STM-M _{m is} determined on the transmission side (in the input-side multiplex transponder) in each overhead evaluator SOA-M1 ... SOA-Mm and determined on the quality criteria Encoder FDI-Enc issued, which inserts these and other quality features in monitoring combinations FDI1 ... FDIm that are transmitted.

On the receiving side (in the output-side demultiplex transponder) the bit error rate M-BER of the multiplex signal in the overhead evaluator SOA-D higher Order STM-N or each the bit error rate M-BERT1 ... M-BERTm of the transmitted Tributary signals determined, for example by evaluating B2 parity bits, and delivered to the Defect-Combiner DFC.

Also be the monitoring combinations in the SOA-D overhead evaluator FDI1 ... FDIm read from the overhead of the multiplex signal STM-N and delivered to the Defect-Combiner DFC.

The defect combiner DFC combines the bit error rates M-BER or M-BERT1 ... M-BERTm with the bit error rates BER1 ... BERm transmitted in the monitoring combination to form a resulting bit error rate R-BER1 ... R-BERm for each tributary signal STM -M ₁ ... STM-M _m . The resulting bit error rate R-BER1 ... R-BERm is delivered to the overhead generators SOG-D1 ... SOG-Dm, which they insert into the overhead of the tributary signals STM-M ₁ ... STM-M _{m to be sent} , for example by deliberately falsifying the B1 / B2 parity bytes.

LIST OF REFERENCE NUMBERS

Claims (9)

Process for the transmission of quality criteria (TQK) of several tributary signals (STM-M ₁ , STM-M ₂ , ...) of a synchronous network hierarchy (SDH / SONET), which are combined on the transmission side to form a multiplex signal of higher order (STM-N) and are transmitted in a higher-order transport module (STM-N) via a synchronous network, characterized in that the tributary signals (STM-M ₁ , STM-M ₂ , ...) are monitored, that various tributary quality criteria ( TQK1, TQK2, ...) on the state of each of the tributary signals (STM-M ₁ , STM-M ₂ , ...) that the tributary quality criteria (TQK1, TQK2, ...) of each of the Tributary signals (STM-M ₁ , STM-M ₂ , ...) are combined to form a monitoring combination (FDI1, FDI2, ...) and that the monitoring combinations (FDI1, FDI2, ...) are included in the overhead of the higher-order transport module (STM-N) to be sent out. Method for determining the resulting tributary quality criteria (RTQK1, RTQK2, ...) of the tributary signals (STM-M ₁ , STM-M ₂ , ...), which are combined to form the higher order multiplex signal (STM-N) transmit a synchronous network (SDH / SONET) and be divided into tributary signals (STM-M ₁ , STM-M ₂ , ...) on the receiving end, characterized in that the transmitted higher-order multiplex signal (STM-N) is monitored on the receiving end that several multiplex signal quality criteria (MQK1, MQK2, ...) are generated via the state of the received multiplex signal of higher order (STM-N), that the received monitoring combinations (FDI1, FDI2, ...) are evaluated, that the from a monitoring combination (FDI1, FDI2, ...) recovered tributary quality criteria (TQK1, TQK2, ...) and the determined multiplex signal quality criteria (MQK1, MQK2, ...) are combined and resultant tributary quality criteria (RTQK1, RTQK2, ...) are generated and that the resulting tributary quality criteria (RTQK1, RTQK2, ...) are evaluated and / or in the overhead and / or the payload of each tributary signal to be forwarded (STM-M ₁ , STM-M ₂ , ...) or the transmission of a tributary signal is prevented or an alarm indication signal (AIS) is transmitted. A method according to claim 1, characterized in that as tributary quality criteria (TQK1, TQK2, ...) an absence (LOS) of a tributary signal (STM-M ₁ , STM-M ₂ , ...) and / or Loss of frames synchronicity (LOF) and / or reception of an alarm indication signal (AIS) and / or a slightly increased bit error rate (SD) and / or a greatly increased bit error rate (EXC) and / or the bit error rate (BER) is determined. A method according to claim 2, characterized in that as a multiplex signal quality criterion (MQK) the absence (LOS) of the higher order multiplex signal (STM-N) and / or a loss of frame synchronicity (LOF) and / or reception of a Alarm indication signals (AIS) and / or a slightly increased bit error rate (EXC) and / or a greatly increased Bit error rate (SD) and / or the bit error rate (BER) is determined. Method according to Claim 4, characterized in that the bit error rate (Mux-BER) of the higher order multiplex signal (STM-N) and the bit error monitoring combination (Trib-BER) of each tributary signal (STM-M ₁ , STM-M ₂ , ...) additively linked to the resulting tributary signal bit error rates (RBER). Method according to Claim 5, characterized in that the bit error rate (Mux-Trib1-BER, Mux-Trib2-BER, ...) is individual for each tributary signal (STM-M ₁ , STM- M ₂ , ...) is determined. A method according to claim 4, characterized in that the multiplex signal quality criteria (MQK) and tributary signal quality criteria (TQK), which one Identify signal failure for a resulting first alarm signal be summarized. Arrangement for the transmission of quality criteria (TQK) of tributary signals (STM-M ₁ , STM-M ₂ , ...) of a synchronous network hierarchy (SDH / SONET), containing a multiplexing device (MUX), the inputs of which are the tributary signals ( STM-M ₁ , STM-M ₂ , ...) via if necessary optical-electrical converters (OEW-M1, OEW-M2, ...) and section overhead evaluators (SOA-M1, SOA-M2, .. .) and which combines them into a higher-order multiplex signal (STM-N) and inserts them into a transport module (STM-N), and a transmission-side overhead generator (SOG-M) connected to the output of the multiplex device (MUX) and one downstream of this electrical-optical converter (EOW-M), which converts the transport module (STM-N) to be transmitted into an optical signal, characterized in that each optical-electrical converter (OEW-M1, OEW-M2, ...) and each reception-side section overhead evaluator (SOA-M1, SOA-M2, ...) has a monitoring device which has a first Tributary quality criterion (TQK1) on the status of one of the tributary signals (STM-M ₁ , STM-M ₂ , ...) that the section overhead evaluator (SOA-M1, SOA-M2, ... ) other tributary quality criteria (TQK2, TQK3, ...) determines that the first and the other quality criteria (TQK1, TQK2, ...) are fed to a quality criteria encoder (FDI-Enc), which summarizes them and on his Outputs as a monitoring combination (FDI), which is inserted in the section overhead generator (SOG-M) in the overhead of a transport module to be sent (STM-N). Arrangement for determining the resulting tributary quality criteria (RTQK1, RTQK2, ...) of tributary signals (STM-M ₁ , STM-M ₂ , ...) of a synchronous network hierarchy (SDH / SONET) containing a demultiplexing device (DEMUX ), the input of which the multiplex signal of higher order (STM-N) is fed via an optical-electrical converter (OEW-D) and an overhead evaluator (SOA-D) and which the multiplex signal of higher order (STM-N) into the Splits tributary signals (STM-M ₁ , STM-M ₂ , ...) and inserts them into several transport modules (STM-M Trib1, STM-M Trib2, ...), and several to the outputs of the demultiplexing device (DEMUX) connected transmission-side overhead generators (SOG-D1, SOG-D2, ...) and, if necessary, downstream electrical-optical converters (EOW-D1, EOW-D2, ...), characterized in that the receiving-side optical-electrical converter (OEW -D) has a monitoring device which has a first multiplex signal quality criteria (MQK1 ) about the state of the higher order multiplex signal (STM-N) that the receiving section overhead evaluator (SOA-D) has a monitoring device which determines further multiplex signal quality criteria (MQK2, MQK3, ...) that the Section overhead evaluator (SOA-D) has a readout device which outputs the monitoring combinations (FDI1, FDI2, ...) inserted into the higher order multiplex signal (STM-N) that a defect combiner (DFC) receives the first, the further quality criteria (MQK1, MQK2, ...) and the selected monitoring combinations (FDI1, FDI2, ...) are fed to the operator for each transmitted one Evaluates the tributary signal (STM-M ₁ , STM-M ₂ , ...), combines them in a combinatorial manner and generates a resulting quality criterion (RTQK) for each tributary signal (STM-M ₁ , STM-M ₂ , ...) that each tributary overhead generator (SOG-D1, SOG-D2, ...) the resulting tributary quality criteria (RTQK1, RTQK2, ...) are fed, which the resulting tributary quality criterion (RTQK) in the overhead of the tributary signal to be sent (STM-M ₁ , STM-M ₂ , ...) or prevents the transmission of a signal (STM-M ₁ , STM-M ₂ , ...) or an alarm indication signal (AIS) sending out.