KR100407945B1 - Method for controlling overload in mobile telecommunication switching system exchange - Google Patents

Abstract

The present invention relates to a mobile communication switch, and more particularly, to an overload control method in a control station of a mobile communication exchange that eliminates the cause of rapid recovery and recurrence through efficient control in the event of an overload of the control station in the mobile communication exchange. The overload class for limiting outgoing calls is defined on the basis of the load class of the central processing unit set accordingly and the interprocessor communication load class set according to the unprocessed interprocessor operator remaining in the communication queue between the call control processor and the base station processor. In the control station of the mobile communication switch, when the call control processor or the base station control processor is overloaded, the load class of the corresponding CPU and the communication load class between the processors are checked, and the overload class is set accordingly. According to the call control processor and It is configured in the control station processor in performing an overload control.

When an overload occurs according to the present invention, it checks the communication load between the CPU and the processor, and transmits an outgoing call allowance value according to the confirmation to the processor, and periodically attempts the communication load between the CPU and the processor. By transmitting alarm information including a lake to control an outgoing call including voice and data calls, the system can be stably operated by removing the ping-pong phenomenon and the domino phenomenon.

Description

Method for controlling overload in mobile telecommunication switching system exchange

The present invention relates to a mobile communication exchange, and more particularly, to an overload control method in a mobile communication exchange which eliminates the cause of rapid recovery and recurrence through efficient control when an overload occurs in the control station of the mobile communication exchange.

In general, the conventional technique is that if the call control processor, which is the main processor of the control station controlling the base station is overloaded, the base stations close the overhead channel generated by the call control processor to limit the call inflow of the subscriber and after When the overload of the call control processor is released, the overhead channel of the call control processor is opened to accept the call.

The conventional overload control method will be described below.

First, the call control processor initializes the load control database to a normal state before being overloaded.

The load control database is read every 5 seconds to update the load control database.

The load value of the updated load control database is compared with a predefined overload threshold to determine whether an overload has occurred.

As a result of the determination, if an overload occurs, the call control processor repeatedly transmits a message indicating that the base station is overloaded two or three times.

The base station receiving the overload status message from the call control processor forcibly closes an overhead channel to prevent call inflow.

The call control processor continuously blocks the call in two to three times, and transmits a message indicating that the base station has been restored to the base station when the load state of the call control processor returns to normal.

Upon receiving the normal recovery message, the base station opens the forcibly closed overhead channel to its original state to allow normal call processing.

However, the on and off overload control method controls the call by limiting all outgoing calls when the call control processor is overloaded and accepting all outgoing outgoing calls of subscribers when the call control processor returns normally. The ping-pong phenomenon in which the processor continues to be overloaded and the call control processor in the overload cause the call area managed by the adjacent call control processor to grow, resulting in a domino phenomenon that causes linkage overload. There is this.

Accordingly, an object of the present invention has been made in view of the above-mentioned problems of the prior art, and when the overload occurs at the control station of the mobile communication exchange in the mobile communication exchange, the efficient recovery eliminates the cause of rapid recovery and recurrence. It is to provide an overload control method in the control station of the mobile communication switch.

According to an aspect of the present invention for achieving the above object, the load class of the central processing unit set according to the central processing unit occupancy degree, and the unprocessed inter-processor operator remaining in the communication queue between the call control processor and the base station processor In the control station of the mobile communication switch having an overload class defined for limiting outgoing calls based on the inter-processor communication load class set according to the above, when the call control processor or the base station control processor is overloaded, the load class of the corresponding central processing unit Confirming the communication load rating between the processor and the processor, and setting an overload rating according to the overload control in the call control processor and the base station control processor according to the set overload rating.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

1 is a diagram illustrating a class setting through a call control processor overload detection scheme according to the present invention;

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

The initial detection of the overload is determined by the CPU occupancy rate. For load rise and fall, the grade of the overload is the occupancy of the CPU and the interprocess communication load, that is, the remaining processors in the interprocessor communication queue. Newly set according to the inter-operator.

The CPU load rating is determined by the CPU load rating, which is stored in the buffer for 30 seconds, in the normal, minor, major, and critical ratings. ) Are classified into 4 grades.

The class according to the CPU load rating is defined as 0 grade for normal grade, 1 to 3 grade for minor grade, 4 to 7 grade for major grade, and 8 to 10 grade for critical grade. Device load ratings can be specified by the operator.

Table 1 shows the CPU load ratings.

Rating Central Processing Unit Ratings Load(%) 0 ratings normal 0 to 84 1-3 grade minor 85-89 4-7 grade major 90-94 8-10 grade critical 95-100

In order to determine the interprocessor communication load, the unclassified interprocessor operator remaining in the interprocessor communication queue is examined to determine the load class from 1 to 10 class.

Table 2 shows the loads according to the interprocessor communication.

Rating Interprocessor communication load (%) One 5 2 10 3 15 4 20 5 25 6 30 7 35 8 40 9 45 10 50

The overload class is determined according to the load class, and the load class is processed as shown in FIG. 1 according to the load between the CPU and the processor, that is, the number of unprocessed interprocessor communications.

1 is a diagram illustrating a class setting through a call control processor overload detection scheme according to the present invention.

Referring to FIG. 1, when the central processing unit load exceeds the minor step, if the interprocessor communication load, that is, the number of interprocessor communication messages remaining in the interprocessor communication queue is within 5%, the grade 1 is set.

Normally, the operator should allow outgoing lakes with data calls from the base station processor on a base station basis.

In the first overload control method, the call control processor and the base station processor measure the rating when the central processing unit load is five consecutive minor ratings.

The rating is determined by the communication load between the processor and the processor with a measurement period of 6 seconds.

According to the class determination, the call control processor and the base station processor restrict the originating call.

Here, outgoing control of the call control processor and the base station processor is a form of limiting outgoing calls in the base station processor, and the class of restriction is as shown in Table 3 according to the communication load between the central processing unit and the processor.

Rating Call acceptance rate One 90% 2 80% 3 70% 4 60% 5 50% 6 40% 7 30% 8 20% 9 10% 10 0%

The type of Table 3 above allows the operator to adjust the call admission rate to the base station manager.

When an overload occurs in the call control processor, first, the CPU load of the call control processor and the communication load between the processors are checked.

In addition, the base station processor may be configured to restrict the outgoing call in connection with the base station processor mounted in the call control processor. When an alarm is notified to the operator, the operator may notify the class load of the central processing unit load and the communication load between the processors.

1, the call control processor starts processing for overload control from the time when it becomes in the minor state in the central processing unit of the call control processor.

After checking the load of the central processing unit of the call control processor and the communication load between the processors, the result applied to the values in Table 3 is transmitted to the base station processor.

The base station processor receiving the result restricts the outgoing call including the voice call and the data call.

The call control processor reports the overload condition to the operator of the base station manager in the form of alarm information.

The alarm information includes the central processing unit load, the interprocessor communication load, and the number of attempts for 6 seconds.

The call control processor continuously measures the load between the central processing unit and the communication load in the unit of 6 seconds from the minor state, determines the overload class of the call control processor according to the measurement, and transmits it to the base station processor and the base station manager. Control overload

When the call control processor transitions to a normal state, it does not continuously check the interprocess communication load state as it did in the minor state.

However, in FIG. 1, when the CPU load of the call control processor suddenly increases and transitions to the major state, the call control processor checks the CPU load and the communication load between the processors, and then applies the result to the values in Table 3. It transmits to the base station processor and limits outgoing calls including voice calls and data calls according to the transmitted results.

The call control processor reports the overload condition to the operator of the base station manager in the form of alarm information.

The alarm information includes the central processing unit load, the interprocessor communication load, and the number of attempts for 6 seconds.

The call control processor must go through sequential steps to lower the overload rating.

As shown in FIG. 1, when the central processing unit load of the call control processor is in a critical state, the communication load between the central processing unit load and the processor is checked and the results applied to the values in Table 3 are exchanged. So that incoming calls are carried out at the exchange.

However, as shown in FIG. 1, when the central processing unit load of the call control processor recovers from the critical state to the major state, the communication load between the central processing unit load and the processor is checked, and the result is applied to the switching station to the switching center. Make sure that the incoming call is normal.

In FIG. 1, when the grade is lowered from the eighth grade, all the base stations in the call control processor check the CPU load and the inter-processor communication load status, and the results applied to the values in Table 3 are reported to the base stations sequentially without transmitting them at once. So that outgoing calls can flow in.

At this time, the unit to report sequentially allows the operator to designate in 1 minute unit.

If the overload class of the call control processor lasts for more than 5 minutes, the content of the class is retransmitted to the base station to prevent the base station from forcibly releasing the overload control.

When a minor state occurs in the central processing unit of the base station processor, processing for overload control of the base station processor is started.

By checking the central processing unit load and the communication load between the processor of the base station processor to limit outgoing calls including voice calls and data calls.

In addition, when the overload condition of the call control processor is transmitted, the base station processor limits the originating call including the voice call and the data call according to the received value.

The base station processor receiving the result restricts the outgoing call including the voice call and the data call.

In addition, when an alarm is notified to the operator, the CPU load and the communication load between the processors are reported.

The alarm information includes central processing unit load, interprocessor load, and attempted count information for 5 seconds.

That is, when a mining condition occurs in the central processing unit of the base station processor, the inter-processor communication load is checked to limit an outgoing call including some voice calls and data calls to the corresponding values in Table 3.

The base station processor periodically measures the load between the central processing unit and the processor from the minor state and determines the rate limit for the outgoing call according to the corresponding values in Table 3.

When the base station processor is changed to the normal state, the interprocessor communication load state is continuously checked.

However, when the base station processor transitions to the critical state, the corresponding overload class status is reported to the call control processor so that the call control processor can restrict the incoming call.

In association with a call control processor, the base station processor controls the outgoing call according to the value requested by the call control processor at the time of the overload control request.

The call control processor releases the mandatory outgoing call restriction sequentially every 6 seconds if there is no class change for more than 5 minutes after the overload occurs.

When a specific call control processor failure occurs in a specific environment or operation, the online channel closure of the overhead channel is performed at all base stations within the corresponding call control processor.

Thus, when a particular call control processor is down, the adjacent call control processor surrounding the call control processor is extended in its service area.

The service area expansion causes an excessive temporary transient call to the adjacent call control processor, which affects the call control processor, resulting in associated overload.

An overload control method for the associated overload phenomenon is as follows.

When the call control processor is down, the base station processor first checks the transmission line status.

At this time, if the transmission path condition is good, the online overhead channel block is not caught and the overhead channel continues to operate normally.

However, when the base station processor detects that the call control processor is down, the state of the select bank processor is determined or the transmission path state is determined through an inter-processor communication test with the select bank processor.

When the state of the select bank processor is normal, the online block is not hanged. When the state of the select bank processor is abnormal, the online block can be dialed.

The online overhead channel block in the base station is performed only when a failure occurs in the base station and the transmission path.

When the base station sees only the call control processor as down, calls that come up when the online block is not dialed are called by the base station processor.

Call restriction is released when the state of the call control processor returns to normal.

As described above, the overload control method in the mobile communication switch according to the present invention checks the communication load between the central processing unit load and the processor when an overload occurs, and transmits an outgoing call allowance value according to the confirmation to the processor. By sending alarm information including central processing unit load and communication load between processor and the periodically attempted lake, it can control outgoing calls including voice and data calls, thus eliminating ping pong phenomenon and domino phenomenon. It can be effective.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (9)

Limiting outgoing calls based on the load rating of the central processing unit set according to the CPU occupancy rate and the interprocessor communication load class set according to the unprocessed interprocessor operator remaining in the communication queue between the call control processor and the base station processor. At the control station of the mobile switching center, where an overload class is defined, When an overload occurs in the call control processor or the base station control processor, the load class of the corresponding CPU and the communication load class between the processors are checked, and the overload class is set accordingly to control the call control processor and the base station according to the set overload class. An overload control method in a control station of a mobile switching center comprising the step of performing overload control in a processor. The method of claim 1, wherein the overload rating defined is It is classified into 4 classes according to the CPU occupancy rate. The interprocessor communication is determined from 1 class to 10 class by examining the CPU load class specified by the operator and the number of unprocessed interprocessors remaining in the interprocessor communication queue. An overload control method at a control station of a mobile switching center, characterized in that a load rating is set. The method of claim 2, wherein the CPU load class is classified into a normal class, a minor class, a major class, and a critical class according to the CPU occupancy degree. The method of claim 1, wherein overload control is performed in the call control processor when an overload occurs. When the CPU load ratings are minor and major, Identifying a central processor load and an interprocessor communication load of the call control processor; Send outgoing call allowance value according to the confirmation to base station processor and send out alarm information including central processing unit load and interprocessor communication load and periodically tried lake to control base station call including voice and data call Overload control method at a control station of a mobile communication switch, characterized in that it further comprises the step of. The method of claim 1, wherein overload control is performed in the call control processor when an overload occurs. When the CPU load rating is Critical And notifying the alarm information to a base station controller to control an outgoing call including a voice and a data call. The method of claim 1, wherein overload control is performed in the call control processor when an overload occurs. When the CPU load rating is restored from the critical rating to the major rating, And notifying the alarm information to the base station Jay, and releasing the restriction of the outgoing call including the voice and data call. The method of claim 1, wherein the overload control is performed in the base station processor when an overload occurs. If the CPU load rating is a minor rating, Identifying a central processor load and an interprocessor communication load of the call control processor; Send outgoing call allowance value according to the confirmation to base station processor and send out alarm information including central processing unit load and interprocessor communication load and periodically tried lake to control base station call including voice and data call Overload control method at a control station of a mobile communication switch, characterized in that it further comprises the step of. The method of claim 1, wherein the overload control is performed in the call control processor and the base station control processor when an overload occurs. Confirming a transmission path state in a base station processor when an overload occurs in association with call control processors; And controlling an outgoing call including a voice and a data call by controlling an overhead channel block according to the status check. The method of claim 8, wherein the checking of the transmission path status comprises: And controlling the overhead channel normally so that the overhead channel block is not caught when the transmission path condition is good.