KR20000044481A - Method for notifying alarm of transmission system in operator computer - Google Patents

Abstract

PURPOSE: A method for notifying an alarm of a transmission system in an operator computer is provided to increase alarm reliability, by informing an operator of the alarm when the alarm is maintained during a predetermined time, and by informing the operator that the alarm is cancelled during a predetermined time, and to record various alarms by comparing the alarms according to alarm classes through comparing items. CONSTITUTION: A method for notifying an alarm of a transmission system in an operator computer comprises the steps of: if a signal of an alarm is received from the transmission system, checking whether the signal is maintained during a predetermined time; if so, checking whether a previously-appointed alarm exists; if so, comparing hierarchies and classes of the appointed alarm and the signal-generated alarm; if the presently generated alarm has a higher hierarchy or a higher class, canceling the appointed alarm to generate the presently-generated alarm; if the two alarms are equal or the presently-generated alarm has a lower hierarchy than the appointed alarm, displaying a report message to record the presently-generated alarm in a candidate list.

Description

How to notify alarm and release of transmission system from operator's computer

FIELD OF THE INVENTION The present invention relates to the generation and release of alerts in certain systems, and more particularly to a method of generating or clearing alerts in a system that performs the transfer of signals or data, such as a transmission system.

Typically, a transmission device is a device that connects a switching system to transmit data or connects a switching system and a subscriber. Such transmission devices are classified into various types according to the type of network to be connected, and there are optical transmission devices of synchronous digital hierarchy. The optical transmitter is classified into STM-1, STM-4, STM-16 and STM-64 according to the amount of data to be transmitted. The STM-16 class transmitter is a 10Gb / s transmission system, and the STM-4 class transmitter is a 2.5Gb / s transmission system. As described above, the type of alarm generated in various transmission systems generates an alarm of a preset type, and informs the operator of the generated alarm. However, the method of notifying an alarm in such a transmission system first detects an alarm and checks whether a channel connected to an operator is set, and if an established channel exists, outputs an alarm to the operator's computer through the set channel. Therefore, the operator can check the alarm generated in the transmission system.

However, when two different alarms occur in the transmission system, it is necessary to give higher priority to the two alarms. This is a problem that the operator cannot see the high level alarm if the operator is constantly informed that the lower level alarm has only occurred first. In addition, if an alarm is continuously generated to the operator whenever an alarm occurs, the operator is continuously informed about an alarm that has already occurred, and also the operator is continuously informed about an alarm that occurs momentarily. Therefore, the operator had a problem that can not smoothly work for the maintenance of the transmission system due to this alarm.

Accordingly, an object of the present invention is to provide an alarm generating method and an alarm releasing method for outputting an alarm generated in a transmission system to an operator efficiently and outputting the alarm according to the level of the generated alarm.

1 is a block diagram of an STM-16 transmission system;

2 is a control flow diagram for alarm output performed at an operator computer in accordance with a preferred embodiment of the present invention;

3 is a control flow chart upon alarm release from an operator computer in accordance with a preferred embodiment of the present invention.

In order to achieve the above object, the present invention provides a method for notifying an alarm occurrence of a transmission system in an operator computer, and checking whether the alarm signal is maintained for a predetermined time when an alarm signal is received from the transmission system. Checking whether there is an alarm already issued when it is maintained for a predetermined time; comparing the level and class of the alarm that is issued with the alarm when the alarm has already been issued as a result of the inspection; If the current alarm is an alarm of a higher hierarchy or class, canceling the issued alarm and generating the current alarm, and if the alarm is the same or low as a result of the comparison, then the list of the reporting messages is displayed. Characterized in that the step consists of recording.

The present invention for achieving the above object is a method for notifying the alarm release of the transmission system in the operator computer, if the alarm release signal is received from the transmission system to confirm whether the alarm is already generated, and the inspection result Checking whether the alarm release signal is maintained for a predetermined time in the case of an alarm; releasing the alarm generated when the test result is maintained for a predetermined time; and in the case of the generated alarm being a candidate list. And the step of inspecting whether there is an alarm recorded in the step and, if there is an alarm recorded in the inspection result candidate list, issuing the highest alarm among the recorded alarms.

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

1 is a block diagram of an STM-16 transmission system. Hereinafter, the configuration and operation of the transmission system will be described in detail with reference to FIG. 1.

The maintenance unit 111 may be connected to an operator computer at a remote location through the management network connection unit 112 or may be directly connected to an operator computer 10 such as a workstation. In addition, the maintenance unit detects various alarms that occur in the transmission system and performs the processing according to the present invention and then outputs to the operator computer. The branch coupling unit 113 branches the data received from the east or west system and outputs the data to the lower system or combines the data input from the sub system to the east or west system. And the western transceiver 115 is connected to the branch coupling unit 113 and at the same time connected to the western amplifying unit 114 to amplify and output the optical signal to be output to the western system or branch-coupled signal received from the western system Output to the negative unit 113. In addition, the east transmitting and receiving unit 116 is connected between the branch coupling unit 113 and the east amplifying unit 117, amplifying and outputting the optical signal to be output to the east system or the branch coupling unit received signal from the east system Output to (113). In addition, the branch coupling unit 113 is connected to a plurality of systems connected to the lower. In this embodiment, it is assumed that the STM-1 processing unit 121 connected to the STM-1 class transmission system and the STM-4 class processing units 122 and 123 connected to the STM-4 class transmission system are connected. The alarm generated in each block is output to the maintenance unit 111 and input to an operator computer located at a remote location through the operator computer 10 or the management network connection unit 112. Next, a process of outputting an alarm from an operator computer will be described with reference to FIG. 2.

2 is a control flow diagram for alarm output performed at an operator computer in accordance with a preferred embodiment of the present invention. Hereinafter, a flow of control when an alarm is generated will be described in detail with reference to FIGS. 1 and 2.

The operator computer 10 performs the maintenance mode in step 200, and proceeds from the maintenance unit 111 to step 202 to check whether an alarm signal is received. The operator computer 10 proceeds to step 204 if an alarm signal is received, and proceeds to step 200 if an alarm signal is not received. When the operator computer 10 proceeds to step 204, the operator computer 10 checks whether the generated alarm is maintained for the first preset time. The operator computer 10 proceeds to step 206 if the alarm is maintained for the first set time as a result of the inspection, and proceeds to step 200 if the alarm is released before the first set time. When the operator computer 10 proceeds to step 206, the operator computer 10 checks whether a candidate alarm exists. The candidate alarm here means an alarm that is not output as an alarm but merely maintains an alarm state. The operator computer 10 proceeds to step 210 if there is a candidate alert and proceeds to step 208 if there is no candidate alert. When the operator computer 10 proceeds to step 208, the operator computer 10 compares the currently generated alert with the candidate alert. At this time, it is checked whether the currently generated alarm is higher than the candidate alarms. This class checks the preset alarms in units. Look at this with reference to Table 1.

High tier alarm Ranking data Lower layer information Ranking data importance LOS 1/1 High ↑ ↓ low LOF 1/2 AIS 1/3 EBER 1/4 SD 1/7 AIS / LOP 2/5 SLM 2/6 LOMP 2/7

As shown in Table 1, in order to easily compare the ratings, the ranking is divided into an upper alarm and a lower alarm, and the divided upper alarms are configured to have a ranking. In addition, it is configured to have a ranking in the lower alarm, so that it consists of the upper and lower, and in the case of the same rank to compare the rating of the lower. This will be described again with reference to FIG. 2.

The operator computer 10 compares the priority and the rating according to Table 1 and then checks whether the generated alarm is higher than the candidate alarm. The operator computer 10 proceeds to step 210 when an alarm of high priority occurs and to step 220 when an alarm of low priority occurs. First, look at the case of low alarm. In operation 220, the operator computer 10 checks whether the generated alarm and the candidate alarm are the same level. At this time, the inspection method is also examined by the rank of Table 1 above. The operator computer 10 proceeds to step 222 if the same alarm result is the same alarm and notifies the operator of the alarm occurrence and proceeds to step 200 without performing an alarm processing. And if there is a lower alarm occurs and proceeds to step (200) after recording this.

On the contrary, if the process proceeds from step 208 to step 210, the operator computer 10 checks whether an alarm has already been generated. The operator computer 10 proceeds to step 212 if there is an alarm that has already occurred, and proceeds to step 232 if there is no alarm that has already occurred. The operator computer 10 compares the already generated alarm with the currently generated alarm when the already generated alarm exists, based on Table 1 above. The operator computer 10 proceeds to step 232 if the alarm that has already been generated as a result of the comparison is a higher alarm or a higher level than the alarm that is currently generated, and otherwise proceeds to step 214. When the operator computer 10 proceeds to step 214, the operator computer 10 checks whether the already generated alarm is lower than the generated alarm. The operator computer 10 proceeds to step 230 if the alarm that has already occurred is lower than the alarm that is currently generated, otherwise proceeds to step 216 to report the alarm occurrence and records it in the candidate list, ( Proceed to step 200).

On the contrary, if the operator computer 10 proceeds from step 214 to step 230, the operator computer 10 releases the already generated alarm, records it in the candidate list, sets the candidate alarm, and then proceeds to step 232. The operator computer 10 notifies the operator of an alarm by generating an alarm in step 232. This process makes it easier to check the alarm class and to alert the operator to the alarm.

3 is a control flowchart of alarm release in an operator computer according to a preferred embodiment of the present invention. Hereinafter, an alarm releasing process according to the present invention will be described in detail with reference to FIGS. 1 and 3.

The operator computer 10 performs the maintenance mode in step 300. In this case, the maintenance mode is a state in which an alarm has been generated in a specific transmission system and notified to the operator, and a state of controlling maintenance according to other transmission systems or parts of the transmission system. When the operator computer 10 proceeds to step 302, it is checked whether an alarm release signal is received. When the alarm release signal is received, the operator computer 10 proceeds to step 304 to check whether the received alarm release signal is generated and the alarm recorded in the list of the operator computers. This is to process the alarm release signal even when the candidate alarm is received. The operator computer 10 proceeds to step 300 if it is not an alarm that has occurred, and proceeds to step 306 if it is an alarm that is checked and is maintained for a second set time. That is, it is checked whether the alarm release is maintained for a predetermined time. The operator computer 10 proceeds to step 308 when the alarm release signal is maintained for a predetermined time in step 306. When the operator computer 10 proceeds to step 308, the operator releases the alarm and displays a report message on the monitor according to the operator. The flow proceeds to step 310 to check whether another alarm exists. The operator computer generates the highest alarm among the candidate alarms when another alarm exists and informs the operator, and then proceeds to step 300. Otherwise, if there is no atmospheric alarm, the process proceeds to step 300.

As described above, if an alarm is maintained for a predetermined time when an alarm occurs, the operator is notified, and if the alarm is released for a predetermined time even when the alarm is released, the operator is informed of the alarm, thereby increasing the reliability of the alarm. In addition, there is an advantage that it is easy to compare by alarm class by comparing items when several types of alarms occur.

Claims (3)

In a method of notifying an alarm of a transmission system in an operator computer, Checking whether an alarm signal is received from the transmission system for a predetermined time; Checking whether an already issued alarm exists if the generated alarm is maintained for a predetermined time; Comparing the issued alarm with the hierarchy and class of the generated alarm if there is an alarm already issued as a result of the inspection; Releasing the issued alarm and generating the currently generated alarm if the currently generated alarm is an alarm of a higher hierarchy or class; If the current alarm is the same or lower than the comparison result of the alarm message of the transmission system in the operator computer, characterized in that the step of recording in the list after the display. The method of claim 1, And generating the generated alarm if the alarm already issued does not exist. In the method of notifying the alarm of the transmission system from the operator computer, Checking whether an alarm has already occurred when an alarm cancel signal is received from the transmission system; Checking whether the alarm releasing signal is maintained for a predetermined time when the alarm has already occurred as a result of the inspection; Releasing the alarm generated when the test result is maintained for a predetermined time; Checking whether there is an alarm recorded in the candidate list when the generated alarm is an issued alarm; And a step of issuing the highest alarm among the recorded alarms when there is an alarm recorded in the candidate result list.