KR100425986B1 - Method for Loop-Back Cut-over of AMI-coded Link in Communication System - Google Patents

Abstract

The present invention relates to a loop-back switching method of an AMI-encoded circuit in a communication system capable of eliminating an abnormal LOS failure during local loop-back processing in an AMI-encoded circuit.

In the LIU of the conventional digital communication system, the LOS failure state is determined by the number of bits '0', so the AMI-encoded line recognizes the port as an LOS failure state by local loop-back even if the link is live. Can be. Therefore, there is a need to eliminate the forced transition of the port to the LOS failure state by at least local loop-back.

According to the present invention, local loop-back is performed by using a zero suppression line coding scheme while performing local loop-back on an AMI-encoded circuit and reusing the AMI line coding scheme while not performing a local loop-back. This prevents the port from being recognized as a LOS failure.

Description

Method for Loop-Back Cut-over of AMI-coded Link in Communication System in Communication System

The present invention relates to a loop-back switching method of an AMI-encoded line in a communication system. In particular, the present invention relates to an AMI-encoded AMI encoding in a communication system capable of eliminating an abnormal LOS failure during local loop-back processing in an AMI-encoded line. It relates to a loop-back switching method of a circuit.

The line coding scheme, commonly called Alternate Mark Inversion (AMI), is used to overcome the phenomenon that the potential value of the pulse stream becomes lower than the reference potential value when alternating the polarity of the digital pulse. In this way, digital pulse signals of the same magnitude and opposite directions are alternately coded for consecutive '1' bit marks before the digital signal is transmitted to the communication line, and the digital signal level for bit marks of '0'. Is converted to zero and transmitted, and an inverse transform occurs when an AMI-coded digital signal is received.

On the other hand, the LIU (Line Interface Unit) of a communication system connected to a T1 / E1 link loop-backs a digital signal encoded by the AMI line coding method to test an operation state of the system. Local loop-back which checks the operation status of the local station LIU by connecting the signal path so that the signal transmitted from the local station LIU transmitter is input to the receiving unit of the local station LIU, and the signal transmitted from the local station LIU transmitter There is a remote loop-back and the like that connects the signal path so that the other station can retransmit and checks the operation state of the other station LIU.

The present invention relates to a local loop-back. When the local loop-back is performed in the LIU, digital traffic output to the line is inputted directly to the receiver of the LIU.

The receiver of the LIU described above detects a loss of signal (LOS) fault by monitoring a change in the digital signal level during an arbitrary continuous pulse interval, wherein the digital signal level is higher than the LOS discrimination level during any continuous pulse interval. If it is low, it is determined that the LOS failure, the transition to the LOS failure state, and if the signal level is detected above the LOS determination level for a predetermined pulse interval, the LOS failure state is released. Here, all digital signals of the LIU received in the LOS failure state are invalid.

The period for measuring the LOS described above is the number N of pulses, as recommended in ITU-T G.775 / I.431, and is set in the range of 10 ≦ N ≦ 255.

As described above, the AMI line coding scheme converts the digital signal level to zero for bit '0', and the receiver of the LIU monitors the change in the digital signal level for any successive pulse interval, thereby changing the digital signal level. If it does not exist, the port is determined to be LOS failure and the corresponding port is transitioned to LOS failure. Therefore, if bit '0' occurs continuously in the case of using AMI line coding method, it is difficult to distinguish the start position of the bit from the receiving side of the digital signal. Not only is this difficult, but it also causes the port to transition to a LOS failure state.

In addition, even when the digital traffic output to the line by local loop-back is directly input to the receiver of the LIU, if the digital signal of level 0 is output as the output signal for a certain period of time, the LOS failure state despite the normal operation of the system. The shorter the LOS detection period is, the shorter the local loop-backed LIU port is to LOS fault.

As described above, since the LOS failure state is determined by the number of occurrences of bit '0' in the LIU of the conventional digital communication system, the local loop-back of the corresponding port is performed even if the link is alive in the AMI coded line. Can be recognized as a LOS fault condition.

Therefore, there is a need to eliminate the forced transition of the port to the LOS failure state by at least local loop-back.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described needs, and uses a zero suppression line coding scheme while performing local loop-back on an AMI-encoded circuit, and re-enters the AMI line coding scheme while not performing local loop-back. It is an object of the present invention to provide a loop-back switching method of an AMI-encoded circuit in a communication system that can prevent a corresponding port from being recognized as an LOS failure state due to local loop-back performance.

1 is a diagram illustrating a LIU configuration of a communication system to which a loop-back switching method of an AMI coded line according to the present invention is applied.

2 is a flowchart illustrating a loop-back switching method of an AMI-coded line in a communication system according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10.BTIF, 20.TRAN, 30.TJAT,

40. TLP, 50. BRIF, 60. FRMR,

70.RAT, 80.CDRC, 90.RLP

In the communication system according to the present invention for achieving the above object, the loop-back switching method of an AMI-encoded circuit includes, when a loop-back control is requested from a higher level application, the requested loop-back control is executed in a local loop-back execution. Judging whether or not it is related to; If the requested loop-back control is a local loop-back execution request, determining whether the non-AMI line coding scheme is used as the line coding scheme; As a result of the determination, when the non-AMI line coding scheme is not used as the line coding scheme, the non-AMI line coding scheme is set to be used and the state indicating that the non-AMI line coding scheme is used because of the local loop-back. Storing information; And performing a local loop-back using the set non-AMI line coding scheme.

In this case, if the non-AMI line coding scheme is used as the line coding scheme, the method further includes executing a local loop-back using the non-AMI line coding scheme. do.

And if the requested loop-back control is a request other than local loop-back execution, determining whether the non-AMI line coding scheme is used as the line coding scheme; When the non-AMI line coding scheme is used as the line coding scheme as a result of the determination, determining whether the non-AMI is used because of a local loop-back; If the non-AMI is used because of the local loop-back, it is determined that the AMI line coding scheme is used again, and the state information indicating that the non-AMI line coding scheme is not used because of the local loop-back is stored. Characterized in that the process further comprises.

Hereinafter, a loop-back switching method of an AMI-encoded circuit in a communication system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a road showing a LIU configuration of a communication system to which a loop-back switching method of an AMI-encoded line according to the present invention is applied, a back-plane transmit interface (BTIF) 10, a TRAN (Transmitter) 20, and Tx Jitter Attenuator (TJAT) 30, Tx Line Pulse (TLP) 40, Back-plane Receive Interface (BRIF) 50, Framer (FRMR) 60, and Rx Jitter Attenuator RJAT 70), CDRC (Clock and Data Recovery) 80, and RLP (Rx Line Pulse) 90.

In such a configuration, the BTIF 10 is a TRAN 20 receiving interface.

The TRAN 20 generates a (T1 / E1) frame including signaling information for the output signal, and encodes the data bit stream with a specific line code.

TJAT 30 attenuates jitter on the output signal to the line.

Here, the local loopback is implemented by creating a signal path so that the signal output from the TJAT 30 is input to the CDRC 80.

The TLP 40 outputs the analog signal of the LIU on the line.

BRIF 50 is the FRMR 60 transmission interface.

The FRMR 60 aligns the (E1 / T1) frames from the input signal from the line and extracts the signaling information.

RJAT 70 attenuates jitter on the input signal from the line.

The CDRC 80 performs line decoding processing and detects LOS failure by monitoring a signal applied from the RLP 90. If the level of the digital signal does not change for a predetermined pulse interval, the CDRC 80 determines that the LOS failure has occurred. The criteria for determining LOS failures are in accordance with ITU-T G.722 and I.431.

The RLP 90 inputs an analog signal carried on the line to the LIU.

2 is a flowchart illustrating a loop-back switching method of an AMI-coded line in a communication system according to the present invention.

First, if there is a loop-back control request from an upper application, it is determined whether the requested loop-back control is to execute a local loop-back (S10, S12).

As a result of the determination of step S12, if the requested loop-back control is to execute the local loop-back, the local loop-back is set to be executed, and Bipolar with 8-Zeros Submission (B8ZS) and HD3Z are line-coded. It is determined whether the parameter Zero Suppression Code Scheme (ZSCS) indicating that a non-AMI line coding scheme such as (High Density Bipolar-3 Zeros) is used is set to '1' (S14 and S16).

As a result of the determination of step S16, when the ZSCS is not set to '1', that is, when the non-AMI line coding scheme is not used as the line coding scheme, the local loop is used by using the non-AMI line coding scheme. ZSCS is set to '1' so that the back is executed, and a flag indicating that the non-AMI line coding scheme is used because of the local loop-back is set to '1' (S18).

On the other hand, if the ZSCS is set to '1' as a result of the determination of step S16, that is, when the non-AMI line coding scheme is used as the line coding scheme, the local loop-back is executed by the corresponding line coding scheme. (S20).

On the other hand, if the requested loop-back control is not a local rope-back execution request or a remote root-back execution or a root-back execution stop as a result of the determination of step S12, whether ZSCS is set to '1', That is, it is determined whether the non-AMI line coding method is used as the line coding method (S22).

As a result of the determination of step S22, when the ZSCS is set to '1', that is, when the non-AMI line coding method is used as the line coding method, is the flag set to '1'? It is determined whether the ZSCS is being used because of the local loop-back (S24).

If the determination result of the step S24 is set to '1', that is, when the non-AMI line coding scheme is used because of the local loop-back, the loop-back control requested in step S10 is remote. Since loop-back execution or root-back execution is stopped, ZSCS is set to '0' and the flag is set to '0' so that the AMI line coding method is used again as the line coding method (S26), and the remote loop-back is executed. Set or stop loop-back execution (S28).

On the other hand, if the determination flag of step S24 described above is not set to '1', that is, the non-AMI line coding scheme is not used because of the local loop-back, the loop requested in step S10- Since the back control is the remote loop-back execution or the root-back execution stop, the process proceeds to the above-described step S28 so that the remote loop-back is set to be executed or the loop-back execution is stopped.

On the other hand, when ZSCS is not set to '1' as a result of the determination in step S22, when the non-AMI line coding method is not used as the line coding method, the loop-back requested in step S10 is described. Since the control is remote loop-back execution or root-back execution stop, the process proceeds to step S28 described above to set the remote loop-back to be executed or to stop the loop-back execution.

As described above, when the port of the T1 / E1 link is set to the AMI line coding scheme, an algorithm implemented so that the port is not disabled by the LOS failure even if the port is locally looped back may be implemented on a software application. It may be implemented as a hardware ASIC. It may also be incorporated as a unique function in the T1 / E1 link LIU.

In the communication system of the present invention, the loop-back switching method of the AMI-encoded circuit is not limited to the above-described embodiments and may be variously modified within the scope of the technical idea of the present invention.

According to the loop-back switching method of an AMI-coded line in the communication system of the present invention as described above, while performing a local loop-back on an AMI-coded line, a zero suppression line coding scheme is used, and a local loop-back is performed. By not reusing the AMI line coding scheme, it is possible to prevent the port from being recognized as an LOS failure state due to local loop-back.

Claims (3)

If a loop-back control is requested from an upper application, determining whether the requested loop-back control relates to local loop-back execution; If the requested loop-back control is a local loop-back execution request, determining whether the non-AMI line coding scheme is used as the line coding scheme; As a result of the determination, when the non-AMI line coding scheme is not used as the line coding scheme, the non-AMI line coding scheme is set to be used and the state indicating that the non-AMI line coding scheme is used because of the local loop-back. Storing information; A loop-back switching method of an AM-I coded circuit in a communication system comprising executing a local loop-back using the set non-AMI line coding scheme. The method of claim 1, wherein when the non-AMI line coding scheme is used as the line coding scheme, And performing a local loop-back using the non-AMI line coding scheme being used. The method of claim 1, wherein when the determined loop-back control is a request other than local loop-back execution, Determining whether a non-AMI line coding scheme is used as the line coding scheme; When the non-AMI line coding scheme is used as the line coding scheme as a result of the determination, determining whether the non-AMI is used because of a local loop-back; If the non-AMI is used because of the local loop-back, it is determined that the AMI line coding scheme is used again, and the state information indicating that the non-AMI line coding scheme is not used because of the local loop-back is stored. The loop-back switching method of the AM coded line in the communication system, characterized in that further comprising the step of.