KR20000037912A - Method for processing alarm in communication network management system - Google Patents

Abstract

PURPOSE: A method for processing an alarm in a communication network management system is provided to detect a trouble quickly and thereby improve the reliability of a line and the efficiency of a trouble management, by enabling an efficient monitoring of an alarm situation on an exclusive communication network. CONSTITUTION: An alarm processing server try to connect to a graphic server and facility managing server (401), and checks the success of the connection thereto (402). The alarm processing server determines whether it has received a message from a digital cross-connected system (DCS) if it succeeds in the connection (403). The received message is analyzed by a look-ahead left recursive (LALR) parsing method of a compiler tool (404). According the determination of the type of the analyzed message (405), a state of the alarm is registered (406). It is checked whether an alarm message received 3 minutes ago exists (411). The alarm message is registered as a troubled one (412). An alarm state in an alarm database which corresponds to the alarm message is updated as an error (413), and then alarm details are sent to the graphic server and facility managing server (414).

Description

Alarm processing method in communication network management system

The present invention relates to an alarm processing method in a digital dedicated communication network management system and the like and a computer-readable recording medium having recorded thereon a program for realizing the same.

Currently, there are about 80 digital cross-connect systems (hereinafter referred to as "DCS") in the nationwide dedicated communication network. Conventionally, there was no separate system for analyzing and controlling the alarms of the digital circuit distribution apparatus. The terminals connected to the digital circuit distribution apparatus were gathered in one place to monitor the status of each digital circuit distribution apparatus, but the respective alarms were analyzed in real time. And it was practically impossible to monitor the situation.

In the conventional method as described above, the operator analyzes the alarm content by intervening the alarm message generated for each terminal, and actually grasps the alarm release state and the like through a separate operation so that the nationwide alarm situation and the digital line distribution device can be obtained. There was a problem that required considerable time and effort to figure out the current status of the system.

In addition, the problem that may occur in the conventional alarm processing scheme is that the alarm message or the release message is lost due to the network condition or the problem of the digital circuit distribution device, or there are alarms that do not have the release message, so that the problem cannot be handled consistently. there was.

Even in the statistical processing of alarms, the conventional method has a problem of causing a lot of human and material waste by directly operating with a raw file including an alarm message generated by a digital circuit distribution device.

Accordingly, the present invention has been made in order to solve the above problems, by analyzing the alarms associated with the device and the transmission path in operation in a dedicated communication network management system based on the digital circuit distribution device, to determine the network state diagram or operation management terminal, etc. It is an object of the present invention to provide a computer-readable recording medium recording an alarm processing method and a program for realizing the alarm by reflecting the alarm history.

1 is an exemplary configuration diagram of a digital dedicated communication network management system to which the present invention is applied.

2 is an explanatory diagram of an alarm and a facility event of a digital dedicated communication network management system to which the present invention is applied;

3 is an explanatory diagram of a state transition process of an alert message.

4A and 4B are flow diagrams of one embodiment of an alert processing method in accordance with the present invention.

* Explanation of symbols for the main parts of the drawings

101: digital line distribution device 102: receiving telephone station

103: subscriber device 104: X.25 packet communication network

105: central control unit 106: network situation urban unit

107: operation management terminal 108: computer communication network

In order to achieve the above object, the present invention provides an alarm processing method applied to a communication network management system, wherein an alarm processing server is connected to a graphic server and a facility management server to receive and analyze a message from a digital circuit distribution apparatus, and analyze the message. A first step of updating the alarm database for each message processed by the processing, and delivers the alarm history to the graphic server and the facility management server to maintain an alarm state; And a second step of matching alarm details of the digital circuit distribution device and the alarm database to resolve an alarm mismatch condition.

In addition, the present invention, the alarm processing server is connected to the graphics server and the facility management server to receive and analyze the message from the digital circuit distribution apparatus, and to update the alarm database for each message processed by processing the analyzed message, the graphic server and A first function of delivering an alarm history to the facility management server to maintain an alarm state; And a computer readable recording medium having recorded thereon a program for realizing a second function of matching the alarm details of the digital circuit distribution device and the alarm database to eliminate an alarm mismatch.

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

1 is an exemplary configuration diagram of a digital dedicated communication network management system to which the present invention is applied, and includes a digital line distribution device 101, a receiving telephone station 102, a subscriber device 103, an X.25 packet communication network 104, and a central control. A device 105, a network situation depicting device 106, an operation management terminal 107, and a computer communication network 108 are provided.

As shown in the figure, the dedicated communication network is constituted by a communication network passing through the digital line distribution device 101 and the receiving telephone station 102, and the dedicated line is formed by connecting both subscriber stations 103 to the dedicated communication network.

In addition, the dedicated communication network management system centrally receives the digital line distribution device 102 installed in the dedicated communication network through the International Telecommunication Union (ITU-T) Recommendation X.25 packet communication network 104 to receive alarms of each device. It is built as an independent system to collect and analyze in real time and to perform fault management and operation management for the entire network.

In addition, the central control unit 105, the network situation display device 106 and the operation management terminal 107 are connected to the computer communication network 108, and the central control unit 105 and the network situation display device 106 operate. The management terminal 107 performs facility management, alarm management, and network situation viewing.

2 is an explanatory diagram of an alarm and a facility event of a digital dedicated communication network management system to which the present invention is applied.

As shown in the figure, the alarm processing server 203 of the central control unit 202 analyzes the contents of the alarms received from each digital circuit distribution device 201 and stores them in the alarm database 204, and the alarm processing server. 203 transmits the alarm occurrence situation to the facility management server 205 and the graphic server 207 of the network situation depicting device 206.

The facility management server 205 shows the alarm history through the facility management client program 210 of the operation management terminal 209 on the basis of the received contents, and the graphic server 207 is displayed through the network situation city module 208. Show the relevant alarm history.

In addition, the facility management server 205 of the central control device 202 transmits the facility management command of the facility management client program 210 of the operation management terminal 209 to the digital line distribution device 201 and analyzes the response message. The result is also passed back to the facility management client program (210).

3 is an explanatory diagram of a state transition process of an alert message.

As shown in the figure, when an alarm has not occurred, the normal state 301 is possible, and transition to two states is possible according to the type of the alarm message transmitted in the normal state.

First, in the case of an alarm message with a release message, when an alarm message is generated, it is moved to an alarm state 302. In addition, in the alarm state, when the release message of the corresponding alarm is received, it is regarded as a normal processing flow and is moved to the alarm release state 306, which is returned to the normal state 301 again.

However, if the same alarm message occurs in the alarm state 302, the release message of the previous alarm is regarded as lost, and the existing alarm transitions to the alarm no idle state 304, and the new alarm is changed to the alarm state ( 302 is maintained.

In addition, when a certain period (for example, three minutes) elapses in the alarm state 302, the weight of the alarm is increased to the fault state 303, and the operator is informed of the occurrence of the fault state through the operation management terminal.

When the release message of the corresponding alarm is received in the fault state, the fault recovery state 307 returns to normal 301. When the same alarm message occurs, the existing fault state is released as the alarm NI 304. It is considered lost and transitions to the faulty NI state 305, and the new message returns to the alert state 302 again.

In addition, the alarm message without the release message is regarded as a warning message and is converted from the normal state 301 to the alarm NI state 304 directly, and then returned to the normal state in the alarm matching process. This message does not release the alarm state because it generates an alarm but there is no separate release message, and the alarm matching process is necessary because the alarm and release state can be distinguished only by a separate alarm state query. However, the distinction from the alarm NI switched in the alarm state is identified by the alarm release time field of the alarm database. All alarms can have an alarm trigger time and an alarm clear time. Alarm NIs that are triggered by an alarm message without a clear message have only the alarm trigger time, which adds an alarm clear time during the alarm match, while switching from the alarm state. The alarm NI registers the alarm clearing time when the alarm alarm time has already occurred in the alarm state and when the same alarm message is switched to the alarm NI, the occurrence time of the new alarm is regarded as the release time of the previous alarm.

4A and 4B are flow charts of an embodiment of an alarm processing method according to the present invention, and Fig. 4A is a flow chart of an alarm processing server.

As shown in the figure, the alarm processing server attempts to connect with the graphic server and the facility management server (401), and after checking whether the connection is successful (402), if it is successful, determines whether it receives a message from the digital circuit distribution apparatus (403). When the received message is received, the received message is analyzed using a LookAhead Left Recursive (LALR) parsing method of YACC (Yet Another Compiler Compiler).

Subsequently, the type of the analyzed message is determined (405). If an alarm message is registered, an alarm state is generated (406). If it is a release message, the corresponding alarm is released (407). If an event message is registered, an event is registered (408). The alarm database is updated for each message (409), the alarm history is transmitted to the graphic server and the facility management server (410), and the message receiving process is repeated.

On the other hand, it is determined whether the message is received from the digital circuit distribution apparatus (403), if the message is not received, checks whether there is an alarm message 3 minutes elapsed (411) and registers the corresponding alarm as a failure (412), The alarm status is updated as a failure (413), the alarm history is transmitted to the graphic server and the facility management server (414), and the message receiving process is repeated.

FIG. 4B is a diagram of a digital circuit distribution device and an alarm database generated in the process of maintaining an alert or release message due to a problem with an X.25 packet communication network or a digital circuit distribution device or maintaining a state for an alert message in which the release message is not originally present. A flow chart for dealing with state mismatches.

As shown in the figure, a command for inquiring an alarm condition is transmitted to the digital circuit distribution apparatus (501), and a response message is analyzed in response to the inquiry command to identify the alarm condition (502).

Thereafter, the type of alarm state is determined (503), and if there is an alarm in the digital circuit distribution apparatus and the alarm database, the corresponding alarm flag in the alarm database is displayed (504). In addition, when the type of alarm state is determined (503), if there is an alarm in the digital line distribution device and there is no alarm in the alarm database, the alarm history is added to the alarm database (505), and the corresponding alarm flag is displayed (506). . If there is no alarm in the digital circuit distribution device, the alarm database can be cleared and no action is required.

After performing the above processing, the alarm which has not been flagged in the alarm database is released, and the flag is deleted from the alarm database (507), thereby matching the alarm history between the alarm database and the digital line distribution device. The changed details are transmitted to the graphic server and the facility management server to the graphic server and the facility management server (508).

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

The present invention as described above, in the dedicated network management system for managing the digital line distribution devices of the nationwide dedicated communication network, by enabling efficient real-time monitoring of the alarm situation of the dedicated communication network, it is possible to quickly determine the fault reliability and failure The efficiency of management can be improved, and the efficiency of dedicated network management can be improved.

Claims (5)

In the alarm processing method applied to the network management system, The alarm processing server connects with the graphic server and the facility management server to receive and analyze a message from the digital circuit distribution apparatus, updates the alarm database for each message processed by processing the analyzed message, and updates the graphic server and the facility management server. A first step of delivering an alarm history to maintain an alarm state; And A second step of matching the alarm history of the digital circuit distribution device and the alarm database to resolve an alarm mismatch Alarm processing method in a network management system comprising a. The method of claim 1, The first step is, A third step of the alarm processing server attempting to connect with the graphic server and the facility management server, starting a timer, and determining whether a message has been received from the digital circuit distribution apparatus; As a result of the determination of the third step, if a message is received, the received message is analyzed, and the type of the analyzed message is determined to register an alarm state if an alarm message, release an alarm if a release message, and release an event if an event message. Registering, updating an alarm database for each processed message, and forwarding alarm details to the graphic server and the facility management server; And A fifth step of checking whether there is an alarm message that has elapsed a predetermined time and registering the alarm as a failure, and updating the corresponding alarm state of the alarm database as a failure if the message is not received. Alarm processing method in a network management system comprising a. The method according to claim 1 or 2, The second step, Transmitting a command for inquiring an alarm state to the digital circuit distribution apparatus, analyzing a response message in response to the inquiry command, and determining an alarm state by determining an alarm state; A seventh step of displaying a corresponding alarm flag in the alarm database when there is an alarm in the digital circuit distribution apparatus and the alarm database as a result of the determination in the sixth step; An eighth step of adding the corresponding alarm details to the alarm database and displaying the corresponding alarm flag when there is an alarm in the digital line distribution device and there is no alarm in the alarm database as a result of the determination in the sixth step; And A ninth step of releasing the flagged alarms, deleting the flagged indications, and forwarding the alarm change history to the graphics server and the facility management server Alarm processing method in a network management system comprising a. The method of claim 3, wherein The message analysis process of the first step, An alarm processing method in a communication network management system characterized by analyzing using a LookAhead Left Recursive (LALR) parsing method of a compiler tool, YACC (Yet Another Compiler Compiler). In a network management system having a large processor, The alarm processing server connects with the graphic server and the facility management server to receive and analyze a message from the digital circuit distribution apparatus, updates the alarm database for each message processed by processing the analyzed message, and updates the graphic server and the facility management server. A first function of delivering an alarm history to maintain an alarm state; And A second function of matching the alarm history of the digital circuit distribution device and the alarm database to clear an alarm mismatch condition A computer-readable recording medium having recorded thereon a program for realizing this.