KR20000044388A - Method for switching v5.2 protection protocol - Google Patents

Abstract

PURPOSE: A method for protectively switching in a V5.2 protection protocol is provided to execute a protection switching procedure by managing a data map in a communication channel unit for a protection switch, beside of a data map operated in a system, which is not effected from the protection switch. CONSTITUTION: A method for protectively switching in a V5.2 protection protocol between a local exchange and an access network device, comprises the steps of: transmitting a message request for switch to the local exchange, when a user detects or requests a trouble in the access network device; receiving a switch command message with link number of a standby communication channel and a time slot number from the local exchange; testing whether information on the received standby communication channel is available; transmitting a switch recognized message to the local exchange if the information is available; moving and copying contents of the data map included a logic communication channel to be switched, to a data map included the standby communication channel; shifting a data map having the logic communication channel to a data map of the standby communication channel; resetting up data links by use of a data map including an existed logic communication channel; transmitting a switch refusing message to the local exchange, if information of the received standby communication channel is not available; and trying a data link recovery by use of the data map of the existed communication channel.

Description

Procedure for protection switching in V5.2 protection protocol

The present invention relates to a signaling protocol between a local exchange and an access network, and more particularly to a method of protection switchover procedure in a V5.2 or V5.2 protection protocol. will be.

The V5.2 interface, or Integrated Digital Loop Carrier (IDLC) V5.2 interface, provides the interworking standard of the local exchange (hereinafter referred to as "LE") and the access network (hereinafter referred to as "AN"). The IDLC V5.2 interface is applied to LE, the digital local exchange, and AN, the subscriber network. AN refers to a system that replaces some or all of the local line distribution network implemented between LE and subscriber. Functions related to AN's V5.2 interface can be configured or flexibly operated through the Q-interface. LE is the exchange through which the user line is terminated through the AN. Functions associated with LE's V5.2 interface can be configured or operated via the Q-interface.

The V5.2 protocol is a signaling protocol between LE and AN and consists of five subprotocols. These five subprotocols are the Public Switched Telephone Network (PSTN) protocol, control protocol, link control protocol, BCC protocol, and protection protocol. Among these sub-protocols, the protection protocol is used to protect multiple V5.2 data links on a logical communication channel when there is a failure of a physical E1 link, a failure of individual data links, a failure of a physical communication channel, or an operator's switching request. It is responsible for sending messages. The E1 link is 2048 kbps.

There are normal and abnormal procedures for the protection switching procedure according to the above protection protocol. The normal procedure is when a fault is detected on a link including a communication channel or a communication channel operating in an LE or AN device, and when an operator commands or requests a protection transfer to an empty standby communication channel. An abnormal procedure is a procedure in which the operator of the LE commands to forcibly transfer protection to the operating communication channel to a specific logical communication channel in operation.

This will be described with reference to FIG. 1 showing a system configuration employing a conventional V5.2 protocol. 1 shows an LE 100 and an AN device 102 connected to each other by a V5.2 interface. When the AN device 102 first detects a failure or the operator makes a transfer request, the transfer request message SWITCH-OVER REQ defined in the V5.2 protocol is transmitted to the LE 100, and the LE specified in the V5.2 protocol is transmitted. In response to the transfer command message SWITCH-OVER COM, which is a response command of (100), the switch 100 transmits the transfer confirmation message SWITCH-OVER ACK specified in the V5.2 protocol in response to the LE 100, and waits for another logical communication channel. Transfer protection to the communication channel. Upon receiving the transfer confirmation message SWITCH-OVER ACK, the LE 100 attempts to transfer to the same standby communication channel as the AN device 102.

On the other hand, when the LE 100 first detects a failure, the transfer command message SWITCH-OVER COM is transmitted to the AN device 102, and after the transfer confirmation message SWITCH-OVER ACK is received from the AN device 102, the transfer is attempted. do.

In addition, when an operator in the LE 100 requests a transfer, that is, an OS transfer command message OS-SWITCH-OVER COM, there are two methods. First, a specific logical communication channel is selected as one of the standby communication channels. The second is to switch protection, and the second is to switch protection to the current communication channel instead of the standby communication channel for various reasons. In this case, the current communication channel means a physical communication channel to which a logical communication channel is allocated. When attempting protection switching in the second of these methods, the system manager of the AN 102 device responds to the LE 100 with a transfer confirmation message SWITCH-OVER ACK, and the logical communication requested by the LE 100 operator. After switching the channel to the desired physical communication channel, it requests the LE 100 via the transfer request message SWITCH-OVER REQ for the protection switching for the previous logical communication channel which lost the physical path. The LE 100 switches the logical communication channel to the communication channel if there is another standby communication channel through the normal protection switching procedure.

However, conventionally, in addition to a normal protection switching procedure, a communication channel in which an operator of the LE 100 is assigned a logical communication channel rather than a standby communication channel through an OS change command message OS-SWITCH-OVER COM defined in the V5.2 protocol. If an abnormal protection switching is required, the procedure and structure for the system management unit of the AN device 102 has not been implemented.

Accordingly, it is an object of the present invention to provide a protection switching procedure method capable of performing a normal protection switching procedure in an AN device.

It is another object of the present invention to provide a protection switching procedure method capable of performing abnormal protection switching in an AN device when an operator of an LE commands an abnormal protection switching to a communication channel in operation rather than a standby communication channel. Is in.

1 is a system configuration employing a conventional V5.2 protocol,

2 is a data map management structure diagram of a system management unit of an access network device according to an embodiment of the present invention;

3 is a flowchart for performing a normal protection switching procedure of an access network device according to an embodiment of the present invention;

4 is a flowchart for performing an abnormal protection switching procedure of an access network device according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

In an abnormal protection switching procedure, the system management unit of the AN device moves a logical communication channel allocated to an operating communication channel according to the present invention to a temporary data map, and completes the protection switching commanded by the LE operator. After that, a protection switch is required for the logical communication channel in the temporary data map. To do this, at least two temporary data maps are required for the data map managed by the communication channel. This is for when the LE operator requires more than one protection transfer in a row to the active communication channel.

According to the present invention, the system manager of the AN apparatus 102 of FIG. 1 described above manages a data map (the number of physical communication channels + two). 2 shows a data map 202 management structure of the system manager 200 as described above. For example, when the number of physical communication channels is n, as many as n data maps 1 to n shown in FIG. 2 include information on each physical communication channel. That is, whether it is an operating communication channel or a standby communication channel, a corresponding E1 link number, a time slot number, a protection group number, current transfer state information, information on a logical communication channel number and an allocated data link when in operation. The other two data maps n + 1 and n + 2 have the same structure as other data maps, but the contents are empty.

3 and 4 show a flow diagram of an AN device 102 in accordance with an embodiment of the present invention utilizing a data map 202 as described above. 3 and 4, a communication channel to be switched to another communication channel due to an obstacle or a request of an operator is referred to as " communication channel A " The communication channel included in the transfer command message SWITCH-OVER COM which the LE 100 transmits to the AN device 102 and the communication channel A is to be transferred is referred to as "communication channel B".

3 is a flow chart for performing a normal protection switching procedure of the AN device 102 according to an embodiment of the present invention shown in the steps (300) to (316). The system manager 200 of the AN device 102 transmits the transfer request message to the LE 100 in step 300 only when the AN device 102 detects a failure or requests an operator. In step 302, if the transfer command message SWITCH-OVER COM is received from the LE 100 together with the link number and time slot number of the standby communication channel B, is information of the standby communication channel B received in step 304 valid? Check it. At this time, the standby communication channel B, which checks validity, is a physical communication channel. If the information on the standby communication channel B is valid, in step 306, the transfer confirmation message SWITCH-OVER ACK is transmitted to the LE 100. Next, all the contents of the data map including the logical communication channel A to be switched in step 308 are copied to the data map including the standby communication channel B. In operation 310, the data map in which the existing logical communication channel A exists is changed to the data map of the standby communication channel. Thereafter, in step 312, the data links are reset using the data map including the switched logical communication channel A. FIG. If the information of the standby communication channel B is invalid in step 304, the switch rejection message SWITCH-OVER REJ defined in the V5.2 protocol is transmitted to the LE 100 in step 314, and in step 316. Data link recovery is attempted using the data map of the existing communication channel A. Therefore, when the AN device 102 detects a failure or requires an operator, a normal protection switching procedure is performed.

4 is a flowchart illustrating steps 400 to 418 for performing an abnormal protection switching procedure of the AN device 102 according to an embodiment of the present invention. The system manager 200 of the AN device 102 sends an operator changeover command message OS-SWITCH-OVER together with the number of the logical communication channel A to be transferred from the LE 100 operator and the link number and time slot number of the destination communication channel B. Upon receiving COM, it is checked whether the information of the destination communication channel B received in step 400 is valid. At this time, the standby communication channel B, which checks validity, is a physical communication channel. If the information of the target communication channel B is valid, in step 402, the transfer confirmation message SWITCH-OVER ACK is transmitted to the LE 100. In operation 404, the contents of the data map including the target communication channel B are temporarily copied to the extra data map and stored. Next, all the contents of the data map including the logical communication channel A to be switched in step 406 are copied to the data map including the communication channel B. In step 408, if the existing logical communication channel A exists, the data map is changed to the data map of the standby communication channel. In operation 410, the data links are reset using the data map including the switched logical communication channel A. FIG. After the protection switching procedure for the logical communication channel A is completed in step 412, a protection switching request is made using the transfer request message SWITCH-OVER REQ for the logical communication channel B stored in the temporary data map. Accordingly, in step 414, the normal protection switching procedure as shown in FIG. 3 is performed. In addition, if the information on the standby communication channel B is not valid in step 400, the transfer rejection message SWITCH-OVER REJ is transmitted to the LE 100 in step 416, and the data of the existing communication channel A in step 418. Attempt to recover the data link using the map. Accordingly, when the operator of the LE 100 commands an abnormal protection transfer to a communication channel that is in operation rather than a standby communication channel, an abnormal protection transfer is performed in the AN device 102.

Therefore, by managing the data map in communication channel units for protection switching separately from the data map operating in the system, the protection switching procedure can be performed without affecting the currently operating system. In addition, in order to prevent data map overlap in the case of an abnormal protection switching procedure, an abnormal protection switching procedure can be smoothly performed by keeping a redundant data map to a minimum.

Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications can be made without departing from the scope of the present invention. In particular, in the embodiment of the present invention, both the normal protection switching procedure and the abnormal protection switching procedure were shown, but any one may be applied as necessary. Therefore, the scope of the invention should not be defined by the described embodiments, but should be defined by the equivalent of claims and claims.

As described above, the present invention has an advantage in that the protection switching procedure can be performed without affecting the currently operating system by managing the data map in communication channel units for protection switching separately from the data map operating in the system. . In addition, the abnormal protection switching procedure can be smoothly performed by keeping an extra data map to a minimum to prevent data map overlapping in the case of an abnormal protection switching procedure.

Claims (5)

In the method of protection switching procedure in a V5.2 protection protocol between a local exchange and an access network device, Sending a transfer request message to the local exchange when a failure is detected in the access network device or requested by an operator; Receiving a transfer command message along with a link number and a time slot number of a standby communication channel from the local exchange, Checking whether the information of the received standby communication channel is valid; Sending a transfer confirmation message to the local exchange if the information of the standby communication channel is valid; Copying and moving all contents of the data map including the logical communication channel to be transferred to the data map including the standby communication channel; Changing the data map in which the logical communication channel to be switched exists to a data map of the standby communication channel; Resetting data links using the data map including the existing logical communication channel; Sending a transfer rejection message to the local exchange if the information of the received standby communication channel is invalid; And attempting to recover data link by using the data map of the existing communication channel. The method of claim 1, wherein the data map further includes at least two temporary data maps in a data map managed on a communication channel basis. In the method of protection switching procedure in a V5.2 protection protocol between a local exchange and an access network device, If an OS change command message is received from the operator of the local exchange together with the number of the logical communication channel to be switched, the link number and the time slot number of the destination communication channel, checking whether the received information of the destination communication channel is valid; Wow, Transmitting a transfer confirmation message to the local exchange if the information of the target communication channel is valid; Temporarily copying and storing the contents of the data map including the target communication channel into an extra data map; Transferring all contents of the data map including the logical communication channel to be transferred to the data map including the destination communication channel; Changing a data map in which the existing logical communication channel exists to a data map of a standby communication channel; Resetting data links using the data map including the switched logical communication channel; When the protection switching procedure for the logical communication channel is completed, making a protection switching request using a transfer request message for the logical communication channel stored in the temporary data map; Performing a normal protection switching procedure according to the protection switching request; Sending a transfer rejection message to the local exchange if the information of the received destination communication channel is invalid; And attempting to recover data link by using the data map of the existing communication channel. The method of claim 3, wherein the normal protection transfer procedure step, Receiving a transfer command message along with a link number and a time slot number of a standby communication channel from the local exchange, Checking whether the information of the received standby communication channel is valid; Sending a transfer confirmation message to the local exchange if the information of the standby communication channel is valid; Copying and moving all contents of the data map including the logical communication channel to be transferred to the data map including the standby communication channel; Changing the data map in which the logical communication channel to be switched exists to a data map of the standby communication channel; Resetting data links using the data map including the existing logical communication channel; Sending a transfer rejection message to the local exchange if the information of the received standby communication channel is invalid; And attempting to recover data link by using the data map of the existing communication channel. The method of claim 4, wherein the data map further includes at least two temporary data maps in a data map managed on a communication channel basis.