KR19990053246A - Apparatus and method for improving transmission performance of synchronous optical transmission system - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

A device and method for improving transmission performance of a synchronous optical transmission system.

2. Technical problem to be solved by the invention

The conventional performance management of the synchronous optical transmission device monitors the occurrence of an error and simply accumulates it for each section. When a value below the set performance value occurs, the service is regarded as a failure to perform a service recovery, which causes a very inefficient problem. .

3. Summary of the Solution of the Invention

By adding the correction function for the transmission signal error occurring in the multi-section, it provides the transmission performance improvement and method of the synchronous optical transmission system considering the performance improvement and the network dimension efficiency in performance management.

4. Important uses of the invention

Improving Transmission Performance of Synchronous Optical Transmission Device

Description

Apparatus and method for improving transmission performance of synchronous optical transmission system

The present invention relates to an apparatus and method for improving transmission performance of a synchronous optical transmission system for improving transmission performance of an optical transmission system by compensating for errors occurring in a signal path during signal transmission between synchronous optical transmission devices.

In general, the network of a synchronous optical transmission system is a point-to-point network connection structure or an annular network of FIG. 1 based on the functional structure of International Recommendation ITU-T Rec. G.783 and the synchronous transmission frame structure proposed by ITU-T Rec. G.707. It forms the connection structure and provides the function of interconnecting the subordinate signals connected to each device through multiple and all-optical conversion, photoelectric conversion and inverse multiple processes.

The structure of the synchronous transmission frame according to the structure of ITU-T Recommendation G.707 may be used later for some parts except for the additional information portion and the purely information portion allocated to failure and performance management and configuration management. It is designated as available by local definition, and is defined as not used basically for other parts. Therefore, such unused parts are available for use by the information definition of the nature determined by mutual agreement as an option between devices.

The slave signals accepted by the 10G synchronous optical transmission devices are STM1, STM-4, and STM-16, which correspond to synchronous multilevels. For the efficient and stable transmission of such high speed optical signals, the functional structure of the synchronous optical transmission device is presented in Recommendation G.783 of ITU-T, International Organization for Standardization. Recommendation G.783 defines fault management, performance management and configuration management for the maintenance of synchronous optical transmission devices.

In addition, in the performance management of the conventional synchronous transmission apparatus as shown in FIG. 2A, only a simple performance monitoring function using the additional information for error occurrence checking is implemented to confirm the error occurrence at the relay section end point and the multiple section end point. .

Therefore, the error correction function is applied to the endpoint of the multi-section protection layer of the synchronous transport layer, and the byte defined as unused in the international recommendation among the multi-section overheads in the synchronous transport frame to insert the additional error correction information required for this. Error correction method and system structure for performance improvement have been required. Through this, optical transmission is corrected for the deterioration of transmission quality due to distributed or intensive error occurrence in bytes constituting the frame instead of fatal device failure or line failure. We expect the performance improvement effect of service channel through furnace.

In other words, the error correction method required in the high speed synchronous optical transmission device and a structure for implementing the same are required, and this does not modify the existing synchronous transmission frame structure or increase the transmission speed. In order to maintain compatibility at the maintenance level and improve the error performance of the device, and to independently apply the fault management and performance management methods applied in the multi-layer, a method for improving the performance and monitoring the service channel was required.

SUMMARY OF THE INVENTION The present invention devised to solve the above-mentioned requirements is to maintain the compatibility with the conventional optical transmission device and improve the transmission performance by error correction of the received signal of the existing synchronous optical transmission device (for example, 10 Gb / s synchronous optical transmission device). It is an object of the present invention to provide an apparatus and method for improving transmission performance of a synchronous optical transmission apparatus having a system structure in consideration of network-level efficiency.

1 is a network diagram of a general synchronous optical transmission system.

2A is a block diagram of a conventional synchronous optical transmission system.

2B is an exemplary configuration diagram of a synchronous optical transmission system to which the present invention is applied.

3 is an exemplary hierarchical structure of a synchronous optical transmission network.

4 is a partial detailed hierarchy example of FIG. 3;

FIG. 5 is a block diagram of an embodiment of a configuration of an apparatus for improving transmission performance of a synchronous optical transmission system according to the present invention; FIG.

6 is an exemplary configuration diagram of a service channel performance management unit of FIG. 5;

Fig. 7A is an exemplary configuration diagram of the transmission error correction unit of Fig. 5;

FIG. 7B is an exemplary configuration diagram of the reception error correction unit of FIG. 5; FIG.

8A is a flowchart illustrating an embodiment of a transmission error correction method for improving transmission performance according to the present invention;

8B is a flowchart illustrating an embodiment of a reception error correction method for improving transmission performance according to the present invention;

* Explanation of symbols for the main parts of the drawings

209: high speed multiple / reverse multiple 210: performance improvement

211: performance monitoring unit 212: all-optical photoelectric conversion unit

213: failure monitoring unit 214: monitoring control system

215: 10G optical path 216: 10G optical transmission device including performance improvement

In order to achieve the above object, the present invention provides an apparatus for improving transmission performance of an optical transmission system, comprising: multi-section protection termination means for performing error correction on a transmission / reception signal; Supervisory control means for accumulating and managing in real time the performance values of the signals corrected by the multi-zone protection termination means; And multi-section termination means connected to the multi-section protection termination means and the supervisory control means for separately collecting / storing the accumulated information on signal errors occurring in the optical path.

In order to achieve the above object, a transmission performance improvement management method applied to a synchronous optical transmission system, comprising: a first step of performing error correction on a transmission / reception signal; A second step of accumulating and managing a performance value of the corrected signal in real time; And a third step of separately collecting / storing information accumulated values for signal errors occurring in the optical path.

Hereinafter, with reference to the accompanying drawings looks at in detail a preferred embodiment of the present invention.

In the present invention, a signal correction function in the multi-zone protection layer is proposed for improving the performance of the service channel provided by the multi-zone signal selected in the multi-zone protection layer, and the proposed structure maintains compatibility with the existing apparatus. Consider the following five points for efficient and efficient function addition.

1) Maintain existing 10Gb / s optical signal speed.

2) Maintain existing 10Gb / s synchronous multiframe structure.

3) Maintain the maintenance function of the previously defined synchronous optical transmission device.

4) Service channel performance management plan and its interworking with higher network layer.

5) Implement modular physical functions.

Fig. 2B is an exemplary configuration diagram of a synchronous optical transmission apparatus to which the present invention is applied. In the conventional synchronous optical transmission apparatus having the structure of Fig. 2A, a simple signal error occurrence monitoring and a cumulative function performed by the performance monitoring unit 202 are performed. In order to perform error correction in order to improve the performance of the transmission service by adding a performance improving unit 210 between the performance monitoring unit 202 and the high-speed multiple / demultiplexer 201.

Figure 3 is presented in the structure of International Recommendation ITU-T G.805 as a signaling system. In other words, the synchronous optical transmission network structure includes the optical fiber layer constituting the optical path, the relay section layer having the signal reproduction transmission and interval monitoring functions, and the multiple sections maintaining the signal multiple / demultiplex and signal monitoring functions for signal transmission between multiple devices. It consists of a multi-section protection layer.

FIG. 4 illustrates a detailed functional structure of the two layers of FIG. 3. Each of the multi-section endpoints 404 and 405 processes the multi-section signal failure information and the signal error state, and applies the multi-section protection adaptation unit 402. 403), and the multi-section signal is selected by the signal selector 401 and transmitted to the multi-section protection end point based on this.

As such, the present invention improves the performance of the service channel provided by the selected multi-section signal by applying the error correction function to the multi-section protection endpoint 400 as shown in FIG. 4 with respect to the conventional passive performance management function characteristics.

FIG. 5 is a block diagram illustrating an embodiment of a transmission performance improving apparatus of a synchronous optical transmission system according to the present invention. A multi-section termination circuit 508 is obtained by extracting and inserting error correction information into a received AUG signal 501. Receiving a signal selected by the transmission error correction function unit 503 for supplying a signal to the signal transmission unit 509 and the multi-section signal selection function unit 506 located at the multi-section protection termination point and performing an error correction function for the received signal. Accumulate the information of the service channel performance management unit 505 and the service channel performance management unit which accumulate the error occurrence results determined by the function unit 504 and the reception error correction function unit 504 in real time. It consists of a monitoring control function unit 507 to be stored.

In addition, the multi-section termination circuits 508 and 509 having the conventional structure individually collect / store information accumulated values for signal errors occurring in the optical path.

In this way, while maintaining the conventional functional structure, it monitors the pure performance values for the multiple sections and adds the signal correction function at the multi-section protection termination point to independently improve the performance and performance change for the service channel, that is, the AUG (501, 502). Manage.

FIG. 6 is a block diagram of an exemplary embodiment of the service channel performance management unit of FIG. 5. The second, minute, and daily level performance collection units which collect and monitor service channel performance in units of seconds, minutes, and days 601, 602, 603 are connected in series, and is connected to the minute / daily level performance collection unit 602, 603, and includes a threshold setting and excess reporting unit 604 for setting a threshold and reporting an excess value. It collects the error occurrence events in the second level and stores the performance cumulative value of the minute level, and also uses it to store the performance information of the service channel in the unit and provides it upon request and the network management function when the set threshold is exceeded. Report to the department (TMN Manager or Private Subnet Manager).

FIG. 7A is a diagram illustrating an embodiment of the transmission error correcting unit of FIG. 5, in which a coding circuit 700 for improving performance of receiving a received AUG signal and an additional signal for improving performance are inserted into an unused multi-section overhead. And an additional signal insertion circuit 701.

FIG. 7B is a block diagram of an embodiment of the reception error correcting unit of FIG. 5. The decoding circuit 707 outputs an AUG signal and an additional signal for improving performance, and outputs a corrected AUG signal for improving performance. And an additional signal extraction circuit 708 for extracting the redundant additional signal from the unused multi-section overhead.

8A is a flowchart illustrating an embodiment of transmission error correction for improving transmission performance according to the present invention.

The transmission error correction unit 503 receives the received AUG signal (800) and then checks (801) whether or not performance improvement is performed to generate an additional signal for error correction (802) to the multi-section termination circuit (508, 509). Pass (803).

Then, the multi-section signal is selected by the signal selection function unit 506 to receive the error correction process, the processing result signal 502 is supplied, and the error occurrence information of the supplied signal 502 is provided through the performance management unit 505 in real time. Accumulate. At this time, the reception error correction function unit 504 performs processing for reception error correction.

8B is a flowchart illustrating an embodiment of a reception error correction for improving transmission performance according to the present invention.

After receiving the AUG additional signal (810) and checking whether the performance improvement process is performed (811), if the performance improvement process is not performed, the AUG signal is transmitted (812), and the service channel performance management unit performs the performance value in the selected multi-section termination circuit. Accumulate (813). When the performance improvement process is performed, the reception error correction function unit 504 checks whether a signal error has occurred (814), and if so, checks whether it can be corrected (815) or not (815). If it is correctable, it checks and corrects the error occurrence position (816) and transmits an improved AUG signal (819). If it is impossible to correct it, transmits an AUG signal (820) and the service channel performance management unit accumulates the performance values according to the error occurrence. (817).

The accumulated information is collected through a performance monitoring point and accumulated in minutes and days, and the performance information of the service channel is managed by the monitoring control function unit 507.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes can be made in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

The present invention made as described above has increased the reliability in the transmission of high speed optical signals using the already installed optical fiber through the performance improvement method for the service channel of the 10G synchronous optical transmission device, and by the maintenance of the physical transmission media and the optical transmission device We present a structure that can independently perform performance management on the provided service channel, and an independent performance management structure for the service channel, and suggest the interworking method with the higher service and the structure that can maintain compatibility with the conventional device. Therefore, it is possible to mix with the conventional equipment, thereby enabling the design of the optical transmission system by considering the optical transmission path characteristics and economics.

Claims (8)

In the device for improving the transmission performance of the optical transmission system, Multi-section protection termination means for performing error correction for the transmission and reception signal; Supervisory control means for accumulating and managing in real time the performance values of the signals corrected by the multi-zone protection termination means; And Multi-section termination means connected to the multi-section protection termination means and the supervisory control means for separately collecting / storing information accumulated values for signal errors occurring in the optical path Transmission performance improvement apparatus of a synchronous optical transmission system comprising a. The method of claim 1, The multi-section protection termination means, Transmission error correction means for performing a process for correcting a signal error that may occur in a transmission process with respect to a signal to be transmitted; Reception error correction means for performing error correction on the reception signal; Service channel performance management means connected to the reception error correction unit for accumulating the performance values of the corrected signal in real time; And Signal selection means connected to the reception error correction unit and receiving a multi-section signal from the multi-section termination unit; Transmission performance improvement apparatus of a synchronous optical transmission system comprising a. The method of claim 2, The service channel performance management means, Unit level performance collecting means for collecting and monitoring service channel performance at a second, minute, and daily level through a service channel performance monitoring point; Threshold setting and exceeding reporting means connected to said unit level performance collecting means for reporting a setting of a threshold and exceeding a threshold; Transmission performance improvement apparatus of a synchronous optical transmission system comprising a. The method of claim 3, The transmission error correction means, Coding means for improving performance of a received signal; And Additional signal insertion means connected to the coding means for inserting an additional signal for improving performance into an unused multi-section overhead. Transmission performance improvement apparatus of a synchronous optical transmission system comprising a. The method of claim 3, The reception error correction means, Decoding means for receiving the received signal and the additional signal for improving performance and decoding the output signal; And Additional signal extracting means for extracting an additional signal for improving performance to be sent to the decoding means from unused multi-section overhead. Transmission performance improvement apparatus of a synchronous optical transmission system comprising a. In the transmission performance improvement management method applied to the synchronous optical transmission system, Performing error correction on a service channel transmission / reception signal; A second step of accumulating and managing a performance value of the corrected signal in real time; And The third step to separately collect / store the information accumulated on the signal error occurring in the optical path Method for improving the transmission performance of a synchronous optical transmission system comprising a. The method of claim 6, The transmission error correction method in the first step, A method of improving transmission performance of a synchronous optical transmission system comprising: verifying whether a received signal is performed to perform performance improvement, and generating and transmitting an additional signal for error correction. The method of claim 6, The reception error correction method in the first step, Accumulating a performance value when the performance improvement process is not performed by receiving the received signal and the additional signal and checking whether the performance improvement process is performed; In the case of performing the performance improvement process, a synchronous optical transmission system including checking whether or not a signal error occurs can be corrected and if possible, checking and correcting an error occurrence position, and accumulating the performance value according to the error occurrence. To improve transmission performance