KR100427760B1 - Performance Block State Monitoring and Control Method in Switching System - Google Patents

Abstract

The present invention relates to a method for monitoring and controlling a performance block state in an exchange system, and in particular, by providing a performance block state table for storing state information of each main processor (MP) performance block in an operation and maintenance processor (OPM). The present invention relates to a method for monitoring and controlling a performance block state in a switching system that enables status monitoring and control of each MP performance block using a performance block state table.

Conventionally, since the statistical data collected from each MP is concentrated on the OMP, the load of the corresponding OMP is increased, and even if the statistical data transmission for each MP is abnormal until a certain time passes, the related information is not provided by the OMP or the workstation. The reliability of the statistical data indicating the performance of each MP is deteriorated, and when there is a performance abnormality of a specific MP, it is difficult to identify and take action.

Since the present invention transmits statistical data to the workstation in each MP performance block of the switching system, the load of the OMP is reduced, and the result of the transmission of the statistical data is reported to the OMP, so each MP performance block is used by using the performance block state table in the corresponding OMP. In addition, it is possible to perform the status monitoring and control function for the same time, and when retransmission request from the workstation, OMP can instruct each MP performance block to retransmit the statistical data, thereby improving the reliability of the statistical data.

Description

Performance Block State Monitoring and Control Method in Switching System

The present invention relates to a method for monitoring and controlling a performance block state in an exchange system. In particular, the present invention provides a performance block state table for storing state information of each MP performance block in an OMP. The present invention relates to a method for monitoring and controlling performance of a block in a switching system that enables state monitoring and control of a block.

In general, in order to obtain statistical data from the exchange system, the operator must input the necessary statistical parameters so that the collection of the statistical data starts from the input point and is provided to the operator through the operator terminal at the time required for output. If the operator did not require statistical data, the statistical data was not collected.

Therefore, in the past, when a fatal error occurred in the switching system, the operator requests statistical data from then on, but due to the error of the switching system, statistical data cannot be collected and the requested statistical data cannot be confirmed. The exact cause of the error was difficult to identify, resulting in inconvenience in operation.

In view of such a problem, conventionally, statistical data is periodically collected from a corresponding exchange system and transmitted to a workstation. At this time, a statistical data transmission structure by interworking with a corresponding exchange system and a workstation is attached. Referring to the following.

First, the statistical data processing apparatus in the switching system 10 includes an operation and maintenance processor (OMP) 11 that performs an operation and maintenance function of the switching system 10, and switching related to subscriber line or relay line management or call processing. A plurality of MPs (Main Processors; 12-1 to 12-n) for performing functions and the like are provided. The OMP 11 collects statistical data on various events generated internally, and each MP 12 After collecting the statistical data transmitted from -1 ~ 12-n), and transmits the collected statistical data to the workstation 13 linked with the corresponding exchange system (10). Each of the MPs 12-1 through 12-n collects statistical data on various events generated internally and transmits the collected statistical data to the OMP 11.

Referring to the statistical data processing operation in the conventional switching system configured as described above, first, all the statistical data that can be collected by the OMP 11 and each of the MPs 12-1 to 12-n are collected, and then each MP ( When the statistical data collected in 12-1 to 12-n are transmitted to the OMP 11, the OMP 11 collects the statistical data transmitted from each MP 12-1 to 12-n and the statistics collected by itself. The data is periodically transmitted to the workstation 13.

However, conventionally, since the statistical data collected from each MP is concentrated in the OMP, the load of the corresponding OMP increases, and even if the statistical data transmission for each MP is abnormal until a certain time passes, the related information is provided by the OMP or the workstation. Therefore, the reliability of statistical data indicating the performance of each MP is degraded, and it is difficult to identify and take action when a specific MP is abnormal.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems described above, and its object is to transmit statistical data to each workstation in each MP performance block of the switching system, thereby reducing the load on the OMP, and statistics from each MP performance block in the corresponding OMP. The performance block status table allows the user to perform status monitoring and control of each MP performance block using the performance block status table, and retransmit statistical data to each MP performance block in OMP when retransmission is requested from the corresponding workstation. It can be used to improve the reliability of the statistical data.

A feature of the present invention for achieving the above object is, in the performance block state monitoring and control method in a switching system, periodically collecting statistical data from a plurality of main processor (MP) performance block to transmit to the workstation Thereafter, transmitting status data on a result of transmission of the corresponding statistical data in the MP performance block to an operation and maintenance processor (OMP); Storing, by the OMP, state data transmitted from the MP performance block in a performance block state table, and then checking whether the state data is normally transmitted from the MP performance block; Reporting completion of statistical data transmission of an MP performance block to the workstation by the OMP when state data is normally transmitted from the MP performance block; And instructing the MP performance block to retransmit the statistical data to the workstation when the statistical data retransmission request of the MP performance block from the workstation is requested.

On the other hand, if the state data is not normally transmitted from the MP performance block, the step of initializing by restarting the corresponding MP performance block in the OMP; The OMP may further include the step of checking the state data of the MP performance block stored in the performance block state table and restarting and initializing the corresponding MP performance block when transmission of the statistical data more than a predetermined number of times.

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

The statistical data processing structure by interworking the exchange system and the workstation according to the present invention is as shown in FIG. 2, the OMP 21 and the workstation 23 by interworking with the exchange system 20 and the workstation 23. A plurality of MPs 22-1 to 22-n, a statistical data control block 23-1, and a statistical data collection block 23-2 are provided.

The OMP 21 has a performance block state table for managing the state data transmitted from each of the MPs 22-1 to 22-n, and collects statistical data on various events generated internally. 23) and stores the state data transmitted from each of the MPs 22-1 to 22-n in the performance block state table, and then completes the transmission for each MP 22-1 to 22-n. 23), and performs the restart function of the performance block for the MP (22-1 ~ 22-n) without the transmission of status data. When the statistical data retransmission request is received from the workstation 23, the MP 22-1 to 22-n are instructed to retransmit the corresponding statistical data.

Each of the MPs 22-1 to 22-n has a performance block, collects statistical data on various internally generated events, transmits them to the workstation 23, and then OMPs the status data on the transmission result. It performs the function of transmitting to 21.

The statistical data control block 23-1 receives the completion of transmission for each MP 22-1 to 22-n from the OMP 21, and then collects each MP collected in the statistical data collection block 23-2. Analyzing the statistical data for the (22-1 ~ 22-n) to determine whether or not retransmission request, and performs the function of requesting the retransmission of the statistical data to the corresponding OMP (21), if the retransmission is necessary, the corresponding statistical data collection block ( 23-2 collects statistical data transmitted periodically from each MP 22-1 to 22-n.

The performance block state monitoring and control operation in the switching system 20 according to the present invention configured as described above will be described with reference to FIG. 3.

First, statistical data on various events occurring periodically in the performance blocks of the OMP 21 and each of the MPs 22-1 to 22-n are collected (step S31), and the collected statistical data is then stored in the workstation. It transfers to 23 (step S32).

Then, the performance block of each MP (22-1 ~ 22-n) transmits the corresponding statistical data to the statistical data collection block 23-2 of the workstation 23, and then the status data for the corresponding statistical data transmission result Is transmitted to the OMP 21 (step S33), the status data on the result of the transmission includes information on the success or failure of the transmission of the statistical data, information on the cause of the transmission failure, that is, statistical data of the workstation 23; Transmit failure when there is no transmission response from the collection block 23-2 or transmission failure when there is no statistical data collected by the MPs 22-1 to 22-n, respectively. 22-1 to 22-n) will be transmitted including the identification number.

Accordingly, the OMP 21 stores the state data transmitted from the performance blocks of the respective MPs 22-1 to 22-n and stores the state data for each performance block of the MPs 22-1 to 22-n. After storing in the block status table, it is confirmed whether or not normal transmission is completed for the performance blocks of each MP 22-1 to 22-n (step S34), and if normal transmission is not completed, that is, status data If is not transmitted, the performance blocks of the corresponding MPs 22-1 to 22-n are restarted and initialized, and the performance blocks of the respective MPs 22-1 to 22-n stored in the corresponding performance block state table are initialized. If the status data is checked and the transmission of the statistical data fails for a predetermined number of times, the performance blocks of the corresponding MPs 22-1 to 22-n are restarted and initialized (step S39). n) returns to normal operation state so that the relevant statistical data can be collected again.

On the other hand, when the normal transmission is completed in the performance block of each MP (22-1 ~ 22-n), the workstation 23 completes the transmission completion for each MP (22-1 ~ 22-n) in the corresponding OMP (21) (Step S35), the statistical data control block 23-1 of the workstation 23 receives the completion of transmission for each MP 22-1 to 22-n, and then the statistical data collection block ( Analyzing statistical data transmitted from each MP (22-1 to 22-n) performance block collected in 23-2) to confirm whether retransmission is necessary (step S36), and if the retransmission is not necessary, the next cycle is performed. The operation is terminated until a retransmission is required, so that the statistical data retransmission for the MP 22-1 to 22-n performance blocks is requested to the corresponding OMP 21 (step S37).

Accordingly, the OMP 21 is a performance block of each MP (22-1 ~ 22-n) of the corresponding statistical data as the statistical data retransmission is requested from the statistical data control block 23-1 of the workstation 23 By instructing retransmission (step S38), the statistical data is retransmitted to the statistical data collection block 23-2 of the workstation 23 in the performance blocks of the respective MPs 22-1 to 22-n.

As described above, the present invention reduces the load of the OMP by transmitting the statistical data to the workstation in each MP performance block of the switching system, and reports the results of the transmission of the statistical data to the OMP, using the performance block state table in the corresponding OMP. In addition to monitoring and controlling the status of each MP performance block, OMP can instruct each MP performance block to retransmit statistical data when retransmission is requested from the workstation, improving reliability of the statistical data. It becomes possible.

1 is a configuration block diagram showing a statistical data processing structure by interworking a workstation with a conventional exchange system.

2 is a block diagram showing a statistical data processing structure by interworking an exchange system and a workstation according to the present invention;

3 is an operational flowchart for implementing a method for monitoring and controlling performance block state in an exchange system according to the present invention;

Explanation of symbols on the main parts of the drawings

20: exchange system 21: OMP

22-1 ~ 22-n: MP 23: Workstation

23-1: Statistical data control block 23-2: Statistical data collection block

Claims (3)

In the performance block state monitoring and control method in a switching system, A process of periodically collecting statistical data from a plurality of main processor (MP) performance blocks and transmitting them to a workstation, and then transmitting status data on the results of the transmission of the statistical data from the MP performance block to an operation and maintenance processor (OMP). and; Storing, by the OMP, state data transmitted from the MP performance block in a performance block state table, and then checking whether the state data is normally transmitted from the MP performance block; Reporting completion of statistical data transmission of an MP performance block to the workstation by the OMP when state data is normally transmitted from the MP performance block; And instructing the MP performance block to retransmit the statistical data to the workstation when the statistical data retransmission request of the MP performance block from the workstation is requested. . The method of claim 1, Resetting and initializing a corresponding MP performance block in the OMP when the state data is not normally transmitted from the MP performance block; And checking, by the OMP, the state data of the MP performance block stored in the performance block state table, restarting and initializing the corresponding MP performance block when the transmission of the statistical data more than a predetermined number of times occurs. How to monitor and control performance block status in a system. The method of claim 1, When the workstation receives the completion of transmission of the statistical data of the MP performance block from the OMP, the workstation collects and analyzes the statistical data transmitted from the MP performance block to determine whether retransmission is necessary, and if retransmission is necessary, the OMP is transmitted to the OMP. A method for monitoring and controlling performance block status in a switching system, characterized by requiring retransmission of statistical data of an MP performance block.