KR20030048973A - Method for Switching in Automatic Protection Switching - Google Patents

Abstract

PURPOSE: A switching method in an automatic protection switching system is provided to switch an active channel into a standby channel, thereby reducing a frame loss when detecting SF(Signal Fail). CONSTITUTION: When a side C detects that there is generated SF in a signal received from a side A, the side C switches an active channel to a standby channel. Thereafter, the side C updates K1 and K2 bytes within a frame to be transmitted to the side A and so transmits a line switching request message to the side A. The side A received the line switching request message switches an active channel to a standby channel. Thereafter, when the side A transmits a Reverse Request(RR) message to the side C, the side C transmits an NR(No Request) to the side A. The side A detects the NR message and thereafter transmits the NR message to the side C. When the NR message is detected from the side A, an APS(Automatic Protection Switching) is completed.

Description

Method for Switching in Automatic Protection Switching

The present invention relates to a method of switching in an automatic protection switching system, and more particularly, to a method of switching in an automatic protection switching system configured to reduce the frame loss by configuring suitable for bidirectional communication APS (Automatic Protection Switching) during redundant switching.

In general, a system for automatic protection switching (Automatic Protection Switching) is a side A system (hereinafter referred to as "side A"), and a side C system (hereinafter referred to as "side C"), as shown in FIG. Optical cables are connected between them to provide physical lines for the working and protection sections formed between active-to-active and standby-to-standby.

In order for the corresponding working section to be formed, first, the board (side A) mounted first in the side A becomes active and uses its own working section using the K1 and K2 values shown in FIG. When the side C is active, the board also informs the side A that the working section is the primary section by using the values K1 and K2. Is formed.

The relevant K1 and K2 are defined in Recommendation G.783.

The line transfer method in the system for automatic protection switching is as follows with reference to the scenario of FIG.

First, when side C detects that a signal fail (SF) has occurred in a signal received from side A, side line C is requested by updating K1 and K2 bytes in a frame sent from side C to side A. Accordingly, the side A receiving the line switch request switches the active channel to the standby channel. Thereafter, when Side A sends a protection transfer request message (RR) to Side C, Side C switches the active channel to the standby channel.

When the transfer is completed, the side C sends a NR (No Request) to the side A. The side A detects the NR (No Request), and then similarly sends a NR (No Request) to the side C. As such, when No Request (NR) is detected from Side A, Automatic Protection Switching (APS) is completed.

As described above, the system for the automatic protection switching has a problem that a lot of frame loss (frame loss) occurs.

The present invention is to solve the general problems as described above, the purpose is to immediately transfer to the other side after requesting the transfer when the SF is detected, after receiving a reverse request (Reverse Request: RR) It is to reduce the frame loss by switching the active channel to the standby channel.

1 shows a typical automatic protective switching system.

2 shows K1 and K2 bytes.

Figure 3 is a scenario showing a method of switching in a conventional automatic protection switching system.

Figure 4 is a scenario showing a switching method in the automatic protection switching system according to an embodiment of the present invention.

In the automatic protection switching system of the present invention for achieving the above object, a switching method detects that a signal fail (SF) has occurred in a signal received by the host system (side C) from the power system (side A). Switching the active channel to a standby channel; Requesting a line transfer of the power system by updating K1 and K2 bytes sent from the own system to the power system; Switching the active channel to the standby channel by the power system receiving the line transfer request; Transmitting a reverse request (RR) from the power system to the own system, and sending the NR (No Request) to the power system; After the power system detects a NR (No Request), characterized in that it comprises a step of transmitting a NR (No Request) to the own system.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the automatic protection switching system according to the present invention, as shown in Fig. 1, two systems, Side A and Side C, are configured with 1 + 1 Bi-Directional switching, and the working section 1 (Working Section 1) is a primary section. (Primary Section) and Working Section 2 are assumed to be Secondary Sections (Secondary Section). If a failure occurs between System A and System C, the system sends and receives messages and performs protection switching for the path. Messages sent and received for auto-protection switching use the values (K1, K2) passing through the secondary section, which is defined in Recommendation G.789.

Transfer method in the automatic protection switching system according to an embodiment of the present invention will be described with reference to FIG.

First, when side C detects that SF has occurred in a signal received from side A, side C switches the active channel to a standby channel. Thereafter, the side C transmits a line transfer request message to the side A by updating K1 and K2 bytes in a frame sent to the side A.

In this case, K1 and K2 bytes are used to periodically transmit and receive the status of the local system, the transfer request for faults, and the IDs of the own station and the country through a specific data channel for the path protection switching. K1 and K2 bytes of Synchronous Transmission Multiplex Signal Level n (STM-n), which are synchronous digital hierarchy (SDH) signals, are used.

The side A receiving the line transfer request message switches the active channel to the standby channel. Thereafter, the side A transmits a reverse protection request message (RR) to the side C, and the side C transmits an NR (No Request) message to the side A. Side A detects the NR (No Request) message, and then sends a NR (No Request) message to Side C again. As described above, if No Request (NR) is detected from Side A, Automatic Protection Switching (APS) is completed.

Although the preferred embodiments of the present invention have been described in detail above, it will be understood by those skilled in the art that the present invention may be modified or modified in various ways. Therefore, changes of the embodiments of the present invention will not be able to escape the technical scope of the present invention.

As described above, when the SF is detected, the present invention reduces the frame loss by switching the active channel to the standby channel rather than switching after receiving a protection transfer request message (RR). It works.

Claims (2)

When the local system (side C) detects that a signal fail (SF) has occurred in a signal received from the large power system (side A), switching an active channel to a standby channel; Requesting a line transfer of the power system by updating K1 and K2 bytes sent from the own system to the power system; Switching the active channel to the standby channel by the power system receiving the line transfer request; Transmitting a reverse request (RR) from the power system to the own system, and sending the NR (No Request) to the power system; And transmitting the NR (No Request) to the host system after the power system detects the NR (No Request). The method of claim 1, If a signal fail (SF) is detected in the local system (side C), the process of switching the active channel to the standby channel by the local system requests a transfer to the other side, and then again a protection transfer request message (RR). Rather than switching over after receiving the SF switching method in the automatic protection switching system characterized in that the switching of the active channel to the standby channel immediately.