KR100227800B1 - The control method of maintenance function of overload of exchange - Google Patents

Abstract

[Technical field to which the invention described in the claims belong]

Mobile switching center

[Technical Challenges to Invent]

In the conventional mobile communication switch, to solve the disadvantage that can not control the factor causing unnecessary load in the overload situation.

[Summary of the solution of the invention]

Determining whether or not there is an overload (ST1), writing the load state of the system to the processor load data (PLD) unit (ST2), and reading the load state of the current system from the processor load data unit before performing the operation. The step ST3 of comparing the load status of the read system with the performance class of the work to be performed by the maintenance process (ST4), and the load status class of the system as a result of the comparison. Delaying the work for a certain time (ST5) (ST6) if higher than the performance level of the work to be done, and if the load status of the system after the predetermined time elapses higher than the performance level of the work to be performed by the maintenance process Stopping step (ST7) (ST8) and if the load status of the system is lower than the job grade to be performed by the maintenance process when performing the operation Is one characterized by made of an step (ST9).

[Important Uses of the Invention]

This is applied to the overload processing of the system in the mobile switching center.

Description

Maintenance control function in case of overload of mobile communication exchange

The present invention relates to a mobile communication switch, and more particularly, to the control of the overload maintenance function of the mobile communication switch to control the maintenance work in case of overload of the system.

In general, in the mobile communication switch, only the call processing function is limited when an overload of a processor performing a higher level of control occurs. That is, the overload condition is controlled by suppressing an incoming call to reduce the load on the system.

However, such a conventional overload method is the same as the case where the load of the system is normal, the work related to the call processing function or the related work not having a critical importance to the maintenance of the system or the maintenance related work by the operator when the overload occurs. The system occupies a part of the system resources, which causes a problem of reducing the call processing performance of the exchange.

In other words, the conventional mobile communication exchange has a disadvantage that can not control the factors causing unnecessary load in the overload situation.

Accordingly, the present invention has been proposed to solve various problems occurring when the conventional mobile communication switch is overloaded, and the object of the present invention is not important for the operation or system operation and maintenance irrelevant to call processing when the system is overloaded. The present invention provides a method of controlling maintenance-related functions in case of overload of a mobile communication switch that can maximize the call processing performance of the system by limiting tasks that are not performed.

The method for achieving the object of the present invention comprises the steps of: recording the load state of the system as processor load data; Reading a load state of a current system from the processor load data before performing a task; Comparing the load status of the read system with the degree of performance of the work to be performed by the maintenance process; Delaying the work for a predetermined time when the comparison result indicates that the load status of the system is higher than that of the work to be performed by the maintenance process; Stopping the work if the load status of the system is higher than that of the work to be performed by the maintenance process after the predetermined time elapses; If the comparison result is that the load status of the system is lower than the job grade to be performed by the maintenance process, the operation is performed.

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

1 is a diagram illustrating an internal configuration of a main processor (MP) of a mobile communication switch to which the present invention is applied.

2 is a flowchart illustrating a method for controlling maintenance related functions during overload of a mobile communication switch according to the present invention.

* Explanation of symbols for main parts of the drawings

10: overload control unit 20: processor load data unit

30: maintenance process unit

1 is an internal configuration diagram of a main processor of a mobile communication switch to which the present invention is applied, an overload controller 10 for controlling traffic during overload, a processor load data unit 20 for recording a load state of a system, and maintenance It is composed of a maintenance process unit 30 for performing a related work.

FIG. 2 is a flowchart illustrating a method for controlling overload maintenance related functions of a mobile communication switch according to the present invention, which includes determining whether an overload is performed (ST1) and recording a load state of a system in a processor load data (PLD) unit. Step ST2, reading the load state of the current system from the processor load data unit before performing the operation, ST3, and the load state of the read system and the performance class of the work to be performed by the maintenance process. Comparing the step ST4 and delaying the work for a predetermined time when the load status grade of the system is higher than the performance grade of the work to be performed by the maintenance process (ST5). When the load status of the system is higher than the performance grade of the work to be performed by the maintenance process after the elapsed step (ST7) (ST8) and the comparison result If the load rating of the stem is lower than the rated jeokeop be performed by the maintenance process it comprises a step (ST9) for performing the action.

Referring to the overload maintenance function control method according to the invention made as described above are as follows.

In general, each main processor (MP) in the mobile communication switch performs a higher level of control that does not allow real-time processing such as call information processing, number translation, switch control, and system maintenance. When a call exceeding the maximum call processing capacity of the mobile communication exchange is continuously attempted, it is desirable to control the overload condition while maintaining the maximum call processing performance even in an overload situation. However, in case of an overload condition, tasks that are not related to actual call processing, or tasks that are not related to delay, also generate unnecessary load by using the resources of the processor, resulting in a decrease in call processing performance.

In order to improve this problem, the present invention classifies the performance class as shown in the following table (1-1) based on the importance of maintenance-related operations, and the load state of the system in the overload control unit 10 PLD unit 20 ), The maintenance-related process unit 30 reads the load state of the system from the PLD unit 20 before performing the maintenance-related work so that the operation is not performed or delayed if it is higher than its own performance level. do. After the overload is cleared, the maintenance function is performed normally. The determination of delay or suspension of maintenance work is determined by the maintenance-related maintenance process that executes the work.

The system's overload rating is 1 for MINOR, 2 for MAJOR, 3 for CRITICAL, and 0 for NORMAL, and NORMAL (0), MINOR (1), MAJOR (2), CRITICAL ( 3) and only when the maintenance work is above system level.

[Table (1-1) Maintenance-related Functions and Overload Ratings]

2 is a flowchart illustrating a method for controlling overload maintenance related functions of the present invention as described above. In the overload state of the system (ST1), the overload control unit 10 records the load state of the system in the PLD unit 20. Then, the maintenance process unit 30 reads the load state of the current system recorded in the PLD unit 20 before performing the operation (ST3). The system load status is compared with the performance level of the work to be performed by the maintenance process (ST4), and if the load status of the system is higher than the performance level of the work to be performed by the maintenance process, the work is delayed for a predetermined time (ST5). (ST6) If the load state of the system is higher than the performance level of the work to be performed by the maintenance process even after the predetermined time has elapsed, the work is stopped (ST7) (ST8). If the maintenance process is lower than the performance grade of the work to be performed is to perform the work to be performed by the maintenance process (ST9).

As described above, the present invention has the effect of improving the call processing performance of the exchange by suppressing maintenance related work as much as possible in the event of an overload of the system and first processing the call processing function.

In addition, by limiting the maintenance work that was not previously controlled even in an overload situation, effective overload control is possible and there is an effect of maximizing call processing performance in an overload situation.

The present invention relates to the maintenance of overload maintenance of a mobile communication exchange to ensure maximum call processing performance by limiting tasks not related to call processing when the system is overloaded or operations that are not important to system operation and maintenance. It is to provide a function control method.

Claims (1)

A method of controlling maintenance-related functions during overload of the main processor that performs high-level control such as call information processing, number translation, switch control, and system maintenance that does not allow real time processing. Writing the load state to the processor load data PLD section (ST1) (ST2); Reading a load state of a current system from the processor load data unit before performing a task (ST3); Comparing the load status of the read system with the performance level of the work to be performed by the maintenance process (ST4); Delaying the work for a predetermined time (ST5) (ST6) when the load state grade of the system is higher than the performance grade of the work to be performed by the maintenance process as a result of the comparison; Stopping the work if the load status of the system is higher than that of the work to be performed by the maintenance process after the predetermined time (ST7) (ST8); If the load status of the system is lower than the task level to be performed by the maintenance process, performing a corresponding operation (ST9). .

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