KR19990050390A - State Transition Method for Fault Monitoring of Multi-Grade Adapters in 10GB / S-class Optical Transmission Devices - Google Patents

Abstract

The present invention is an AU-AIS (Administrative Unit-Alarm Indication Signal) and AU-LOP (signal failure of Mutiplex Section Adaptation (MSA) included in a 10Gb / s optical transmission device, which is a category of synchronous multi-transmitter) Administrative Unit-Loss of Pointer (IOS) is a state monitor for fault monitoring for multi-section adaptors of 10Gb / s optical transmitters that controls the monitoring and processing. The present invention expands three states into seven states to easily and easily handle actions including alarm activation and deactivation required by supervisory control using input events provided by hardware.

Description

State Transition Method for Fault Monitoring for Multi-Zone Adaptors in 10Ｇｂ / s Class Optical Transmission Devices

The present invention relates to a state monitor for fault monitoring of a multi-section adaptor of a 10Gb / s optical transmission device, in particular, the occurrence of a fault through a state transition control monitoring for the disabled AU-AIS and AU-LOP of the multi-adaptor And the multi-section adaptor of the 10 Gb / s class optical transmission device which simultaneously performs the activation and deactivation processing of the alarm and indicates the current state of the hardware and the supervisory control of the current multi-section adaptor using only the state transition state. It is about a state monitor for fault monitoring.

Regarding the detection of signal disturbances in multi-section adaptors, the prior art and ITU-T recommendations were mainly used to monitor the status of hardware.

Conventionally, it is composed of three states, and the state of the hardware is monitored using a state transition between the states.

Therefore, conventionally, there is a problem in that an alarm activation and deactivation process required by the supervisory control cannot be easily processed by using input events provided by hardware.

The object of the present invention is to first define the hardware and timer, and the operator's request as equivalent input events, so that the current software situation, i.e., the fault that occurred, as well as the presence or absence of the current hardware situation, AU-AIS and AU-LOP failures. This paper provides a state transition for fault monitoring for multi-section adaptors of 10 Gb / s optical transmitters to simultaneously reflect the activation and deactivation of.

Means for achieving the object of the present invention is the first step of dividing into seven states for the monitoring and processing of the failure in the multi-section adaptor of the 10 Gb / s optical transmission device, and the separated seven states The second step is to handle both the detection of input events occurring in the hardware of the multiple adaptor and the deactivation and activation of alarms to be handled by the supervisory control software.

1 is a state transition diagram for fault monitoring control for a multi-section adaptor for explaining a fault monitoring state transition method for a multi-section adaptor of the 10Gb / s optical transmission apparatus according to an embodiment of the present invention.

(Explanation of symbols for the main parts of the drawing)

1-25: transition 1 to transition 25

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

1 is a state transition diagram for fault monitoring control for a multi-zone adaptor for explaining a state transition method for fault monitoring for a multi-section adaptor of the 10Gb / s optical transmission apparatus according to an embodiment of the present invention.

The state transition method for fault monitoring of a multi-section adaptor of a 10Gb / s class optical transmitter according to an embodiment of the present invention has seven states for monitoring and processing faults in a multi-section adaptor of a 10 Gb / s class optical transmitter. A second step of handling both the detection of an input event occurring in the hardware of the multiple adaptor and the deactivation and activation of the alarm to be handled by the supervisory control software through the state transition between the first step of discrimination and the separated seven states. Consists of steps.

As shown in FIG. 1, the seven states in the first stage include a state in which a failure event does not occur at all in the multisection adaptor (Normal (S1)), and a state in which an AU-AIS failure occurs in the multisection adaptor ( AIS-D (S2): AIS-Defect, AU-AIS alarm activated (AIS-A (S3): AIS Alarm), and AU-AIS fault cleared (AIS-C (S4): AIS -Clear), AU- LOP failure in multi-section adaptor (LOP-D (S5): AIS-Defect), AU- LOP alarm activation (LOP-A (S6): LOP-Alarm) AU- LOP fault is released (LOP-C (S7): LOP-Clear).

As shown in FIG. 1, the input event detected in the second step includes AU-AIS failure (AIS-DF) and AU-LOP failure (LOP-DF; LOP-Defect detection). And a timer for AU-AIS fault clearing (AIS-DF-clear: AIS-Defect-clear), AU-LOP fault clearing (LOP-DF-clear: LOP-Defect-clear), and AU-AIS alarm activation. AIS-ACT-Timer-Exp (AIS-Activation-timer-expiration) and a timer timeout for AU-LOP alarm activation (LOP-ACT-Timer-Exp: LOP-Activation-timer-expiration) And the timer timeout (AIS-DEACT-Timer-Exp: AIS-Deactivation-timer-expiration) to deactivate the AU-AIS alarm, and the timer timeout (LOP-DEACT-Timer-) to deactivate the AU-LOP alarm. Exp: It is divided into LOP-Deactivation-timer-expiration) and inquiry request for the current alarm status from the operator (ReqCStatus: Reqest Current Status).

The deactivation and activation process of the alarm in the second step includes a timer drive (AIS-ACT-Timer) for AU-AIS alarm activation, a timer drive (LOP-ACT-Timer) for AU-LOP alarm activation, and AU -Timer driven to disable AIS alarm (AIS-DEACT-Timer), Timer driven to disable AU-LOP alarm (LOP-DEACT-Timer), AU-AIS alarm activated report (RepAIS: Report AIS activation), AU Report LOP activation (RepLOP), report AIS clear or deactivation (RepAISClear), report AU-LOP alarm deactivation (RepLOPClear: Report LOP clear or deactivation) Respond to inquiry request for current alarm status of RespCStatus: Response current status.

Referring to the process of the state transition method for fault monitoring for the multi-section adaptor of the 10Gb / s optical transmission apparatus according to the embodiment of the present invention made as described above are as follows.

First, it is composed of the seven states described above, and arrows indicate transitions from one state to the same or different states.

Transition 1 represents a transition from the S1 state to the S2 state. This transition drives the output event AIS-ACT-Timer when the input event AIS-DF occurs in S1 state, and performs the transition to S2. In transition 2, the input event AIS-DF-clear occurs in the S2 state, stops the currently running AIS-ACT-Timer, and transitions to the S1 state.

Transition 3 is the input event LOP-DF-clear occurs in the S5 state, stops the currently operating LOP-ACT-Timer, and transitions to the S1 state. Transition 4 drives the output event LOP-ACT-Timer when the input event LOP-DF occurs in the S1 state, and performs the transition to the S5 state. Transition 5 occurs when the input events occur in the S1 state except for the input events AIS-DF and LOP-DF, and maintains the original S1 state.

Transition 6 occurs when an input event other than the input events AIS-DF-clear, LOP-DF, and AIS-ACT-Timer-Exp occurs in the S2 state, and continues in the S2 state. Transition 7 maintains the S5 state when an input event other than LOP-DF-clear, AIS-DF, and LOP-ACT-Timer-Exp occurs in the S5 state.

Transition 8 is maintained in S3 when an input event other than AIS-DF-clear and LOP-DF occurs. Transition 9 is maintained at S6 when an input event other than LOP-DF-clear and AIS-DF occurs at S6.

Transition 10 is a case where an input event other than AIS-DF, LOP-DF, and AIS-DEACT-Timer-Exp occurs in the S4 state and maintains the S4 state. Transition 11 is a case where an input event other than AIS-DF, LOP-DF, and LOP-DEACT-Timer-Exp occurs in the S7 state, and maintains the S7 state.

Transition 12 is a case where the input event AIS-ACT-Timer-Exp occurs in the S2 state, performs an AU-AIS alarm activation report, and transitions to the S3 state. Transition 13 is a case where the input event LOP-ACT-Timer-Exp occurs in the S5 state, performs an AU-LOP alarm activation report, and transitions to the S5 state.

Transition 14 is a case where the input event AIS-DF-clear occurs in the S3 state. The AIS-DEACT-Timer is manually transferred to the S4 state. Transition 15 is the case where the input event LOP-DF-clear occurs in the S6 state, and the LOP-DEACT-Timer is manually changed to the S7 state. Transition 16 is a case where the input event AIS-DF occurs in the S4 state. The AIS-DEACT-Timer stops driving and transitions to the S3 state. Transition 17 is a case where the input event LOP-DF occurs in the S7 state. The LOP-DEACT-Timer stops driving and transitions to the S6 state.

Transition 18 is the case where the input event LOP-DF occurs in the S2 state, while stopping the operation of the AIS-ACT-Timer while it is running, it drives the LOP-ACT-Timer and transitions to the S5 state. Transition 19 is a case where the input event AIS-DF occurs in the S5 state, while stopping the operation of the LOP-ACT-Timer that is being driven, while driving the AIS-ACT-Timer and transitioning to the S2 state.

Transition 20 is a case where the LOP-DF event occurs in S3 state. It deactivates the already activated AU-AIS alarm, starts the LOP-ACT-Timer, and transitions to S5 state. Transition 21 is a case where the input event AIS-DF occurs in the S6 state. It deactivates the already activated AU-LOP alarm, starts the AIS-ACT-Timer, and transitions to the S2 state. Transition 22 is a case where the LOP-DF event occurs in S4 state. It stops running AIS-DEACT-Timer, deactivates AU-AIS alarm, and drives LOP-ACT-Timer to activate AU-LOP alarm again. And transition to the S5 state.

Transition 23 is the case where the input event AIS-DF occurs in the S7 state, which stops the running LOP-DEACT-Timer, deactivates the AU-LOP alarm, and drives the AIS-ACT-Timer again to activate the AU-AIS alarm. And transition to the S2 state.

Transition 24 is a case where the input event AIS-DEACT-Timer-Exp occurs in the S4 state. It deactivates the AU-AIS alarm and transitions to the S1 state. Transition 25 is a case where the LOP-DEACT-Timer-Exp occurs in the S7 state. The AU-LOP alarm is deactivated and the state transitions to the S1 state.

In this way, the input events are classified into 9 types and the output events are classified into 9 types. The state transition of the present invention is composed of seven states, and each state performs the same operation as described above according to the input event, the transition to the same or different state is made.

The present invention is a state of hardware by performing the detection and detection of the AU-AIS and AU-LOP failure detected in the multi-section adaptor of the 10Gb / s class optical transmission device and the activation and deactivation of the alarm, which is a monitoring control process. In addition to being able to grasp the current progress of the system and monitoring control software, it is effective to provide a state transition which can be reused without modification in all kinds of synchronous transmitters having a multi-section adaptor.

Claims (4)

A first step of dividing into seven states for monitoring and handling faults in a multi-section adaptor of a 10 Gb / s optical transmitter; The second step is to process both the detection of input events occurring in the hardware of the multiple adaptor and the deactivation and activation of alarms to be handled by the supervisory control software through state transitions between the separated seven states. State transition method for fault monitoring of multi-section adaptors in 10Gb / s optical transmitters. The method of claim 1, The seven states in the first stage include a first state in which no failure event occurs in the multi-section adaptor, a second state in which an AU-AIS (Administrative Unit-Alarm Indication Signal) failure occurs in the multi-section adaptor, and an AU. The third state with AIS alarm activation, the fourth state with AU-AIS fault cleared, the fifth state with AU-LOP (Administrative Unit-Loss of Pointer) fault in the multi-zone adaptor, and the AU-LOP alarm activation A state transition method for fault monitoring for a multi-section adaptor of a 10Gb / s-class optical transmission device, characterized in that it is divided into a sixth state and a seventh state in which the AU-LOP failure is released. The method of claim 1, The input event detected in the second step includes a first input event in which AU-AIS failure occurs, a second input event in which AU-LOP failure occurs, a third input event in which AU-AIS failure is released, and an AU-LOP failure The fourth input event released, the fifth input event timed out by the timer for AU-AIS alarm activation, the sixth input event timed out by the timer for AU-LOP alarm activation, and the AU-AIS alarm deactivation. A seventh input event in which the timer for time elapses, an eighth input event in which the timer for deactivating the AU-LOP alarm, and a ninth input event for requesting the current alarm state from the operator. A state transition method for fault monitoring of a multi-section adaptor of a 10 Gb / s class optical transmitter. The method of claim 1, The deactivation and activation processing of the alarm in the second step includes a first output event for driving a timer for AU-AIS alarm activation, a second output event for driving a timer for AU-LOP alarm activation, and AU-AIS A third output event to drive a timer to deactivate the alarm, a fourth output event to drive a timer to deactivate the AU-LOP alarm, a fifth output event to report AU-AIS alarm activation, and an AU-LOP alarm activation Response to the request for inquiry of the sixth output event reporting an alarm, the seventh output event reporting the AU-AIS alarm deactivation, the eighth output event reporting the AU-LOP alarm deactivation, and the current alarm condition from the operator A state transition method for fault monitoring for a multi-section adaptor of a 10Gb / s class optical transmission device, characterized in that divided into the ninth output event.