KR100362165B1 - The Apparatus and Method for Protection Switching using Performance Monitoring - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a protection switching device and a method using a performance monitoring cell.

2. The technical problem to be solved by the invention

The present invention provides a protection switching device using a performance monitoring cell, a method, and the method for quickly detecting and recovering from a failure occurring in a communication network using an asynchronous transfer mode (hereinafter referred to as 'ATM'). To provide a computer-readable recording medium that records a program for realization.

3. Summary of Solution to Invention

The present invention provides a protection switching device for detecting and recovering from a failure in an ATM communication network, comprising: extracting an ATM cell from an input signal and transferring the extracted ATM cell to an ATM layer, and converting and outputting the ATM cell received from the ATM layer Layer processing means; At the time when the performance block of the ATM cell received from the physical layer processing means is completed, an FM cell containing performance information about the previously transmitted block is additionally added and copied. Transmitting means for transmitting over + N connections; Receiving means for detecting an error by comparing the contents of an ATM cell received through the 1 + N connections with the contents of an FM cell containing performance information, and delivering the cell in which no error occurs to the physical layer processing means; Interface means for transmitting the 1 + N ATM cells received from the transmitting means to the outside and delivering the 1 + N ATM cells received from the outside to the receiving means; And connection retrieval means for determining whether an ATM cell received from the physical layer processing means and the interface means is valid and specifying a connection index for the ATM cell.

4. Important uses of the invention

The present invention is used in ATM systems and the like.

Description

Protection switching device and method using the performance monitoring cell {The Apparatus and Method for Protection Switching using Performance Monitoring}

The present invention relates to a protection switching device using a performance monitoring cell and a method thereof, and more particularly, to quickly detect and recover a failure occurring in a communication network using an asynchronous transfer mode (hereinafter, referred to as 'ATM'). A protection switching device using a performance monitoring cell, and a method thereof and a computer-readable recording medium having recorded thereon a program for realizing the method.

Network reliability is becoming a very important item for network operators as the transmission speed becomes faster and the information volume is concentrated, and it is also recognized as an important factor for enhancing the competitiveness of network operators.

Recently, ITU-T SG13 I.630 standardized a conceptual protection switching architecture model that operates at the ATM connection level. In this Recommendation, 1 + N protection switching architecture and 1: N protection switching architecture are proposed as representative protection switching architectures. This 1 + N protection switching structure and the 1: N protection switching structure are designed to establish one active connection in advance and N alternate connections between two nodes (starting point and end point) to be replaced in case of failure of the active connection. The same is true. At this time, the two nodes are referred to as a protection area.

The main difference between the two methods is the speed of recovery speed and the efficiency of network resources.

First, "+" in the 1 + N protection switching structure represents the meaning of parallel. That is, the start point of the 1 + N protection switching structure transmits the same cell simultaneously with 1 + N connections, and the end point selects a cell through one connection that sends a valid cell among 1 + N connections. Therefore, when at least one connection of a network fails, if at least one of 1 + N connections is in a normal state, service can continue without cell loss.

In contrast, the second approach, the starting point in a 1: N protected switching scheme, only transmits data on the active connection in normal state and no data on the remaining alternate connection. However, if an active connection fails, an alternative connection to replace the service of the active connection is found through a protocol between two nodes of the protection area, and the start point of the protection area transmits data to the newly found replacement connection. At this point, the endpoint recovers the network by switching to receive data sent on the newly found alternate connection.

Therefore, the 1: N method is slower than the 1 + N method, but is more efficient in terms of network resource utilization in that the alternative connection can be used as another connection. It is inefficient in utilization, but has the advantage of fast recovery in case of failure.

However, the conventional level of protection switching technology is very difficult to apply to the actual commercial system because only the protection switching structure based on the system model is proposed in the paper or standardization conference. There is a problem that may not be applicable depending on the characteristics and structure of each system.

SUMMARY OF THE INVENTION The present invention has been proposed to solve the above problems, and realizes a protection switching device using a performance monitoring cell, a method thereof, and the method for quickly detecting and recovering a fault occurring in a communication network using ATM. The object of the present invention is to provide a computer-readable recording medium having recorded thereon a program.

For example, the present invention provides a performance monitoring cell to implement a conceptual 1 + N protection switching model in a practical system, which is proposed in ITU-T SG13 I.630, a standardized standard for protection switching architectures operating at the ATM connection level. It is an object of the present invention to provide a 1 + N protected switching device, a method and a computer-readable recording medium having recorded thereon a program for realizing the method.

1 is a configuration diagram of an embodiment of a matching device using 1 + N protection switching according to the present invention.

Figure 2a is a diagram illustrating an embodiment of a data transmission method using a performance monitoring cell according to the present invention.

2b is an explanatory diagram of a standard specification of an FM OAM cell defined in ITU-T I.610 to which the present invention is applied;

3 is a diagram illustrating an embodiment of a 1 + N protected switching method using a performance monitoring cell in an ATM network according to the present invention;

4 is a flow diagram of one embodiment of a transmission process of 1 + N protected switching using a performance monitoring cell in accordance with the present invention.

5 is a flow diagram of one embodiment of a process of receiving 1 + N protected switching using a performance monitoring cell in accordance with the present invention.

* Explanation of symbols for the main parts of the drawings

100 transmitting unit 101 receiving unit

110: physical layer processing unit 190: interface unit

An apparatus of the present invention for achieving the above object is a protection switching device for detecting and recovering a failure in an ATM communication network, the ATM cell is extracted from the input signal and delivered to the ATM layer, the ATM received from the ATM layer Physical layer processing means for transforming and outputting a cell; At the time when the performance block of the ATM cell received from the physical layer processing means is completed, an FM cell containing performance information about the previously transmitted block is additionally added and copied. Transmitting means for transmitting over + N connections; Receiving means for detecting an error by comparing the contents of an ATM cell received through the 1 + N connections with the contents of an FM cell containing performance information, and delivering the cell in which no error occurs to the physical layer processing means; Interface means for transmitting the 1 + N ATM cells received from the transmitting means to the outside and delivering the 1 + N ATM cells received from the outside to the receiving means; And connection searching means for determining whether an ATM cell received from the physical layer processing means and the interface means is valid, and designating a connection index for the ATM cell.

The present invention also provides a protection switching method for detecting and recovering from a failure in an ATM communication network, comprising: a first step of extracting an ATM cell from an input signal; A second step of adding, copying and transmitting the FM cell containing the performance information on the immediately transmitted block at the time point when the performance block of the extracted ATM cell is completed, through 1 + N connections; A third step of detecting an error by comparing the contents of an ATM cell received through the 1 + N connections with the contents of an FM cell containing performance information, and selecting and delivering a cell in which no error has occurred; And a fourth step of receiving, converting and outputting the selected and forwarded ATM cell.

The present invention also provides a protective switching system having a processor, comprising: a first function of extracting an ATM cell from an input signal; A second function of additionally copying an FM cell containing the performance information of the immediately transmitted block at the time point when the performance block of the extracted ATM cell is completed and transmitting over 1 + N connections; A third function of detecting an error by comparing the contents of an ATM cell received through the 1 + N connections with the contents of an FM cell containing performance information, and selecting and delivering a cell in which no error occurs; And a computer-readable recording medium having recorded thereon a program for realizing a fourth function of receiving, converting and outputting the selected and transferred ATM cell.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an embodiment of a matching device using 1 + N protection switching according to the present invention.

As shown in FIG. 1, the matching device according to the present invention extracts an ATM cell from an SDH (SDH) frame and transmits the ATM cell to the connection finder 150 and sends the ATM. The physical layer processing unit 110, which transfers the ATM cell received by the layer to the subscriber and transmits it to the subscriber, checks whether the ATM cell received from the physical layer processing unit 110 is valid, and connects the connection index of the cell to another block. Connection searcher 150 to teach, the transmission unit 100 for copying and transmitting the transmission cell to 1 + N connections, and selects one cell of the 1 + N receiving cells does not occur error transmission to the next node The receiver 101 and the interface unit 190 in charge of the connection with the outside is provided.

In addition, the transmitter 100 is an OAM processor 120 for processing OAM (OAM: Operation and Maintenance) functions defined in I.610, immediately before a performance block is completed. FM OAM cell generator 130, which creates FM cells carrying performance information about the blocks transmitted to the cell, and cell copiers which simultaneously copy the same cell to 1 + N connections to connections participating in the 1 + N protection switching scheme. 140.

The receiver 101 maintains information on incoming user cells after receiving the previous FM cell, completes one block at the time of receiving the next FM cell, and displays a cell counter for the block and Block assembly 160 for generating a block error code, block information maintained in the block assembly 160 and the block error detector 170 for detecting an error by comparing the contents of the newly received FM cell and 1 + N connections The block selector 180 selects a block in which no error has occurred among the blocks arrived at and transfers the selected node to the next node.

2A is a diagram illustrating an embodiment of a data transmission method using a performance monitoring cell according to the present invention.

A point at which the FM cell is inserted is called A (200), and a point at which the FM cell is received and the result of monitoring the performance is carried on the BAL (BR: Backward Reporting, hereinafter referred to as 'BR') cell is called B 201. 2 is a diagram illustrating an embodiment of a data transmission method using a performance monitoring cell according to the present invention, wherein performance monitoring of each connection is performed in units of connections between an OAM segment and an end point. Is made at the request of an end user or TNN (TMN).

The use of the BR cell is currently optional and in the absence of using the BR cell, the monitoring results are passed directly to the TMN. Performance monitoring is performed in units of blocks, blocks are divided by FM cells, and the size of a block is defined by the number of user cells between FM cells.

The block sizes N currently defined in I.610 are 128, 256, 512, 1024, 2048, 4096, 8192, 16384 and 32768.

The block size can vary within 50% of N. Therefore, the insertion of the FM cell must be performed before the N / 2 user cell after the performance monitoring cell insertion request is started.

The performance monitoring result can be calculated on the A side and the B side. The calculation on the B side is a block calculated from the FM cell received immediately before the currently received FM cell at the time when the A side receives the FM cell containing the block unit result. The performance results can be calculated by comparing the results with the contents of the currently arriving FM cell. The performance result on the A side is calculated based on the BR cell sent from the B side.

Figure 2b is a standard specification explanatory diagram of the FM OAM cell defined in ITU-T I.610 to which the present invention is applied.

As shown in FIG. 2B, the standard specification of the FM OAM cell defined in ITU-T I.610 to which the present invention is applied consists of a total of 53 bytes.

At the F4 level, the segment OAM cell is labeled with a Virtual Channel Identifier (VCI) value of 3 in the cell header, and the end-to-end OAM cell is marked with VCI = 4, and at the F5 level, the segment OAM cell is labeled with a PTI value of 4. The end-to-end OAM cell has a PTI value of 5.

To indicate that it is an FM OAM cell, the OAM type field should be indicated by 0010 and the function type by 0000. The Monitoring Cell Sequence Number (MCSN) field indicates the order of the currently operating FM cell, and a counter that counts the order is operated independently at the endpoint of the segment and the connection.

The TUC0 + 1 (Total User Cell) field records the number of all user cells transmitted so far, and the Block Error Detection Code (BEDC0 + 1) field for all user cells transmitted since the last transmitted FM cell. Load the calculated BIP-16 error detection code.

The TUC0 field records only the number of user cells having CLP = 0 among the user cells transmitted so far, and the TSTP (Time StamP) field records the time when the FM cell is inserted. The Reported Monitoring Cell Sequence Number (RMCSN) field is used only in the BR cell and records the MCSN value of the received FM cell.

The Severely Errored Cell Block Count (SEBC) field records the number of blocks beyond the error threshold, and the Total Received Cell Count (TRCC0) field records only the number of user cells having CLP = 0 among the user cells received so far.

In addition, the BLER0 + 1 (Block Error Result) field records the number of even-parity bits in which an error has been detected by the BIP-16 code loaded in the FM cell, and the TRCC0 + 1 field indicates the number of all user cells received so far. Record the count.

3 is a diagram illustrating an embodiment of a 1 + N protected switching method using a performance monitoring cell in an ATM network according to the present invention.

As shown in FIG. 3, 1 + N protection switching using a performance monitoring cell in an ATM network according to the present invention includes a TMN 300 providing management information, a user cell and an FM cell through 1 + N connections. Transmitting device 310 for transmitting a message, a receiving device 320 for receiving a user cell and an FM cell transmitted from the transmitting device through 1 + N connections, and between the transmitting device 310 and the receiving device 320. Performance monitoring is performed using multiple ATM connections.

As described above, in the present invention, a method using no BR cell was used.

That is, the transmitting apparatus 310 copies and transmits the same cell to N ATM connections established as alternate connections between the transmitting apparatus 310 and the receiving apparatus 320, and receives the user cells that have been input. ) Is responsible for transmitting cells of a block without errors among blocks received from multiple ATM connections to the next node.

4 is a flowchart illustrating an embodiment of a transmission process of 1 + N protection switching using a performance monitoring cell according to the present invention.

As shown in FIG. 4, when receiving a user cell, the transmitting apparatus first checks whether the current protection switching function is set (410), and if the protection switching function is operating in the irradiation step 420. After increasing the TUC (430), and copying and transmitting the user cell (440), and compares whether the TUC value is greater than or equal to the block size M (450).

If the protection switching function is not active in the irradiation step 420, the cell is forwarded to the next node (460) and terminates.

In the comparison step 450, if the TUC value is greater than or equal to the block size M, an FM cell is generated, copied and transmitted to the N + 1 connection (480), and the block completion timer expires (470). Forces the creation of an FM cell to copy, send, and terminate to an N + 1 connection.

5 is a flowchart illustrating an embodiment of receiving 1 + N protected switching using a performance monitoring cell according to the present invention.

As shown in FIG. 5, when the receiving device receives the cell (500), it checks whether the protection switching function is in operation (501), and if the protection switching function is in operation in the irradiation step (501), the cell type is determined. Compare (502).

In this case, if the cell type is the user cell in the comparison step 502, the cell type is stored in the corresponding block buffer (504), and if the protection switching function is not in operation (501), the cell is transmitted to the next node (503). Exit.

In the comparison step 502, if the cell type is an FM cell, the first received authorization is again determined (505), and in the determination step 505, if the received FM cell is the first FM cell, the block performance is determined. The values required for the calculation are initialized (507) and terminated.

If it is not the first FM cell received in the determination step 505, it is checked again whether a block error has occurred (506), and if the check result 506 has a block error, after detecting a cell error (509), The cell error is reported (512), the block is discarded (514) and terminated.

If there is no block error in the determination result (506), the authorization of the first arrived block is evaluated (508), and if the first arrived block is the evaluation result (508), it is transmitted to the next node (511), and the next session is prepared (515). If it is not the earliest arrived block, the block 510 is terminated.

Even when the session end timer expires (513), the next session is prepared (515) and ends.

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

The present invention as described above, by implementing a 1 + N protection switching structure defined on the premise of the conceptual system model in the actual matching device, it is possible to protect the severe data loss due to the high-speed link disconnection and node failure, There is an effect to improve the reliability of the network.

Claims (9)

In a protective switching device for detecting and recovering from a failure in an asynchronous transfer mode (hereinafter, referred to as 'ATM') communication network, Physical layer processing means for extracting an ATM cell from an input signal and transferring the ATM cell to an ATM layer, and converting and outputting the ATM cell received from the ATM layer; At the time when the performance block of the ATM cell received from the physical layer processing means is completed, an FM cell containing performance information about the previously transmitted block is additionally added and copied. Transmitting means for transmitting over + N connections; Receiving means for detecting an error by comparing the contents of an ATM cell received through the 1 + N connections with the contents of an FM cell containing performance information, and delivering the cell in which no error occurs to the physical layer processing means; Interface means for transmitting the 1 + N ATM cells received from the transmitting means to the outside and delivering the 1 + N ATM cells received from the outside to the receiving means; And Connection search means for determining whether an ATM cell received from the physical layer processing means and the interface means is valid and specifying a connection index for the ATM cell; Protective switching device comprising a. The method of claim 1, The transmission means, OAM processing means for generating an OAM cell by performing an OAM (OAM) operation on the data input from the physical layer processing means using the signal received from the connection searching means. ; FM OAM for generating an FM cell containing performance information on the immediately transmitted block at the time when one performance block of the user cell including the data is completed using the OAM cell input from the OAM processing means. Cell generation means; And Cell copy means for copying the FM OAM cell inputted from the FM OAM cell generating means and the user cell including the data to the 1 + N connections Protective switching device comprising a. The method according to claim 1 or 2, The receiving means, Block assembling means for performing a count function and an error code generation function on a user cell block including 1 + N FM OAM cells and data inputted from the interface means by using the signal of the connection searching means; Block error detection means for detecting an error by comparing the block information received from the block assembling means with the contents of the newly received FM cell; And Block selecting means for selecting a block in which no error occurs according to an error detection result of the block error detecting means and delivering the block to the physical layer processing means; Protective switching device comprising a. In the protection switching method for detecting and recovering a failure in a communication network applied to an ATM system, Extracting an ATM cell from an input signal; A second step of adding, copying and transmitting the FM cell containing the performance information on the immediately transmitted block at the time point when the performance block of the extracted ATM cell is completed, through 1 + N connections; A third step of detecting an error by comparing the contents of an ATM cell received through the 1 + N connections with the contents of an FM cell containing performance information, and selecting and delivering a cell in which no error has occurred; And A fourth step of receiving, converting and outputting the selected and transferred ATM cell Protective switching method comprising a. The method of claim 4, wherein The second step, A fifth step of generating an OAM cell by performing OAM processing on the input signal; A sixth step of generating, using the generated OAM cell, an FM cell containing performance information on the immediately transmitted block at the time when one performance block of the user cell including the data is completed; And Step 7 of copying the generated FM OAM cell and the user cell including data to 1 + N connections Protective switching method comprising a. The method of claim 5, Step 8 when the block completion timer expires, creating an FM cell to copy and transmit to 1 + N connections The protection switching method further comprising. The method of claim 4, wherein The third step, A fifth step of maintaining information on user cells including the data input after receiving the previous FM cell and completing one block at the time of receiving the next FM cell; A sixth step of detecting an error by comparing block information of the completed user cell block with contents of the received FM cell; And A seventh step of selecting a block in which no error occurs using the detected error and transferring the same to a next node; Protective switching method comprising a. The method of claim 7, wherein Eighth step of delivering the current block to the next node when the session end timer completes The protection switching method further comprising. In a protective switching system with a processor, A first function of extracting an ATM cell from an input signal; A second function of additionally copying an FM cell containing the performance information of the immediately transmitted block at the time point when the performance block of the extracted ATM cell is completed and transmitting over 1 + N connections; A third function of detecting an error by comparing the contents of an ATM cell received through the 1 + N connections with the contents of an FM cell containing performance information, and selecting and delivering a cell in which no error occurs; And A fourth function of receiving, converting and outputting the selected and forwarded ATM cell Computer-readable recording media having recorded thereon a program for realizing