KR100600328B1 - Performance and fault processing method of CMIP based Network element - Google Patents

Abstract

The present invention is to process the performance and fault data between the network element and the network management system that manages CMIP-based in the ATM network, and to retrieve the collected performance and fault data by the network operator. Efficient management of performance and fault data increases network management system performance and makes it easy to retrieve performance and fault information specified by the network operator or higher system.

Description

Performance and fault processing method of CMIP based Network element}

1 is a configuration diagram to which the present invention is applied.

2 is a flow chart for processing performance and fault data and storing files in accordance with the present invention.

3 is a flow chart for delivering performance data to a higher system according to the present invention.

Figure 4 is a flow chart for delivering the failure data to the upper system according to the present invention.

5 is a flowchart for searching by a network operator according to the present invention.

<Description of Symbols for Main Parts of Drawings>

11: network operator 12: network element delegate

13: CMIP stack unit 4: event processing unit

15: file processing unit 16: alarm processing unit

17: file transfer unit 18: performance / failure information search unit

20: parent system

The present invention relates to a method of processing performance and failure data based on the Common Management Information Protocol (CMIP), and more specifically, a periodic or event in a network element agent of an Asynchronous Transfer Mode (ATM) network. It is easy to search by NMS operator and can report periodically or immediately by relevant system when reporting to upper system by providing function to report to Network Management System (NMS) immediately after occurrence and processing data arriving from Network Management System. The present invention relates to a CMIP-based performance and failure handling method.

In general, the management objects used in network element delegates are I.751 (ATM Management of the Network Element View) and Q.822 (Stage: 1, Stage 2 and Stage 3 Description for the Q3 interface-Performance). Management), M.3100 (Generic Network Information Model).

Performance and failure information is measured at the network element's port, interface, connection termination point (CTP) and trail termination point (TTP). When this information is reported, the network management system processes the received CMIP message (Notification). shall. There are a large number of various forms (object creation / deletion, status change, property change, alarm occurrence, performance information, etc.) because there are many network elements managed in the network management system. It is necessary to increase the processing speed by separating and processing messages separately, and to store the processed information hierarchically by message type to more easily provide corresponding information when requested by network operators and upper systems.

In accordance with the above-described requirements, the present invention stores information related to performance and fault data in a file so that a network operator can easily search for information of interest, and transmits the file information to a higher-level system in which the stored information is related. The purpose is to provide a CMIP-based performance and fault handling method that can provide data analyzing network performance and failure conditions.

In order to achieve the above object, CMIP-based performance and failure processing method according to the present invention, the first step of classifying the CMIP data received from the ATM network to the performance data or failure data according to the event type; A second step of storing the performance data or closing a file currently being collected and creating and storing a new file; A third step of storing the fault data or closing a file currently being collected and creating and storing a new file; A fourth step of delivering the fault data to a higher system corresponding to the network management system in real time; And a fifth process of periodically transmitting the performance data to the upper system.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.

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

1 is a schematic configuration diagram of the present invention (a) communicates using a CMIP as a standard in the Telecommunicaiton Management Network (TMN) as an interface with a network element. The network operator 11 retrieves the collected performance and fault data, and the network element delegate 12 stores the measured data at the ATM switch and generates an associated event, and the network management system 10 transmits the network element delegate ( There is a CMIP stack 13 for communicating with 12). The event processing unit 14 processing the arrived event extracts and processes only information related to performance and failure. The extracted data is grouped by event in the file processing unit 15 to generate and store a directory. If the extracted data is fault data, it should be immediately reported to the upper system 20. If the data is delivered to the alarm processing unit 16, the alarm processing unit 16 establishes a connection for data transmission with the upper system 20 immediately. And send.

When the extracted data is the performance data, it is periodically transmitted to the upper system 20, and there is a file transmission unit 17 responsible for this, performance / failure information that provides the network operator 11 with the performance / failure data retrieval function There is a search unit 18.

2 shows a process of performance and fault related data.

That is, when an event arrives in the event processing unit 14, it is determined whether the type of data arrived and detected at this time is performance data or failure data (S21 and S22). In this case, in the case of the scanReport, which is a type related to the performance data, the received performance data is processed and the storage period of the file is compared and determined (S23 and S24).

At this time, if the storage period is less than the storage period as determined in the step S24 (S27), and if it is large, close the file currently being collected and create a new file, the generated file name is the management object of the extracted information Are stored separately (S25). After that, the closed file is transferred to the file transfer unit, and the loop ends (S26).

That is, tcAdaptor for storing port performance parameters, cellLevelProtocol for storing performance parameters for monitoring illegal ATM cells when switching ATM cells, vpVcPm for storing performance parameters measured after enabling monitoring of a specific connection, AtmTrafficLoad for storing performance parameters that measure cells by link and connection, and files are created for each time the directory is created and collected by upcNpc to store performance parameters that monitor the cell flow of the connection after the connection is established.

On the other hand, after receiving the type of communicationAlarm, processingFailureAlarm, qualityOfserviceAlarm, equipmentAlarm, environmentAlarm related to the failure data as determined in step S22, after receiving the received failure information (fault object, failure time, severity, etc.) (S28), Immediately, the corresponding information is transmitted to the alarm processing unit, and the storage period of the file is compared and determined (S29). At this time, if the storage period is smaller than the storage period as determined in step S29, the extracted information is stored in the corresponding file (S30). (S31). After that, the current fault data is transmitted to the alarm processing unit, and the loop ends (S32).

3 is a flowchart of a performance data transfer process, in which a file arrived at the file transfer unit and a file not transmitted in a previous cycle exist and are determined whether the file exists (S31, S32). At this time, if the file does not exist as determined in step S32, the process returns to step S31 to search for a file to be transmitted and a file that has not been transmitted, and loops repeatedly.

On the other hand, if the file exists as determined in step S32, the file is transferred to the upper system by using FTP (File Transfer Protocol) and it is determined whether the transmission (S33, S34). At this time, if there is a file that has not been transmitted as a result of the determination in step S34, the file that is not transmitted is stored as a separate file and retryed at the next file transfer (S35).

4 is a flow chart illustrating a fault data transmission process. As fault data should be reported to a higher system immediately after occurrence, a transmission time can be guaranteed in real time only when maintaining a connection setting with a higher system to be transmitted.

That is, the connection request is first made with the upper system, and then it is determined whether the alarm processing unit is connected with the upper system (S41, S42). At this time, if the alarm processing unit and the upper system are not connected as a result of the determination in step S42, it tries again (S43). If the alarm processing unit and the upper system are connected as a result, the fault data is read from the fault data receiving unit (S44). In step S45, it is determined whether the message exists.

At this time, if the message as a result of the determination in step S45 configures the failure data to be transmitted from the upper system and transmits the failure data to the upper system (S46, S47).

That is, the failure data arrived at the alarm processing unit 16 is converted into the format of the upper system and immediately transmitted, and if the connection is not established, retry.

FIG. 5 is a flowchart illustrating a process of searching for information related to a performance and a failure at the request of a network operator. The operator first searches for the performance data and the failure data (S51), and the data to be searched is determined based on the search request result. It is determined whether the data or the failure data (S52). In the case of the performance data determined in step S52, the node, the search period, and the search conditions according to the types of the performance data, that is, tcAdaptor, cellLevelProtocol, atmTraffic, vpVcPm, and upcNpc, that is, the port (VPI) and the connection identifier (VCI) to be searched are determined. Inputs and outputs information corresponding to the search condition and ends the loop (S53, S55).

On the other hand, if the data to be searched in step S52 is the fault data, the node, the search period fault data type, communicaitonAlarm, processingFailure, qualityOfservice, equipment, envrionment, and the search condition according to the severity, that is, connected to the port (VPI) to search An identifier VCI is input and information corresponding to the search condition is output (S54, S55).

As described in detail above, when the performance / failure data processing method of the present invention is used, separate directories and files are stored for each type of performance data and the fault data so that the network operator can easily search for all the performance / failure data about the network elements. It can be collected and used to analyze the performance of the entire network or to find information on the point of failure.

In addition, various modifications, changes, additions, and the like may be made in the spirit and scope of the present invention in addition to the embodiments of the present invention, and such modifications and changes should be regarded as belonging to the following claims.

Claims (4)

Classifying the CMIP data received from the ATM network into performance data or failure data according to an event type; A second step of storing the performance data or closing a file currently being collected and creating and storing a new file; A third step of storing the fault data or closing a file currently being collected and creating and storing a new file; A fourth step of delivering the fault data to a higher system corresponding to the network management system in real time; And And a fifth process of periodically delivering the performance data to the upper system. The method of claim 1, When the performance data is stored in a file, a directory is created for each object, and the format of the file comprises object classification, measurement time, and performance parameters. The method of claim 1, When the failure data is stored in a file, a directory is generated in each type, and the format of the file is based on object classification, event occurrence time, and severity. The method according to any one of claims 1 to 3, CMIP-based, characterized in that further comprising a sixth process of searching for the combination of the stored performance data and failure data by node, performance and failure type, by object, and provide results when requested by the network operator Performance and failure handling methods.

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