KR19990086811A - System overload prevention method of digital mobile communication system - Google Patents

Abstract

The present invention is to prevent the overload by periodically checking the overload state of the control processor and the call resources causing the overload of the system in order to prevent the malfunction due to overload in the base station or the control station of the digital mobile communication system, The present invention derives the utilization rate of the control processor and the occupancy rate of the call resources, respectively, and compares the overload threshold set for the control processor with the usage rate of the control processor to derive the overload rating of the control processor. In addition, the overload threshold of the call resource is compared with the occupancy rate of the call resource to derive the overload level of the call resource. Therefore, the overload class of the control processor and the overload class of the call resource are compared to select the overload class corresponding to the higher overload class. By checking the overload class of the selected overload target and transmitting the overload occurrence information to the control station manager and controlling the overload step by step according to the overload class, it prevents the base station or the control station from malfunctioning due to congestion. You can do it. In addition, when an overload threshold change request is received from the system operator, the overload threshold is updated according to the change request, and the updated overload threshold is reflected in real time when determining the overload grade.

Description

System overload prevention method of digital mobile communication system

The present invention relates to a method for preventing system overload in a code division multiple access (CDMA) digital mobile communication system. In particular, the control processor utilization rate and the call resource occupancy rate are compared between the base station and the control station. By dynamically selecting an overload target, the present invention relates to a system overload prevention method of a digital mobile communication system that prevents system congestion in advance.

In general, CDMA digital mobile communication systems must provide high reliability and high quality of service through stable operation. In this regard, overload management affecting the system is very essential. The overload control function detects a factor that causes the failure of the overall call processing function due to resource depletion of the processor, the processor, and a bottleneck of the call line resource for call processing, and analyzes the corresponding factor. It is a function that maintains the state of the system to minimize the impact on call processing, which is the basic function, and to provide continuous service by taking precautionary measures according to the above.

Accordingly, when the overload of the base station or the control station is controlled in the CDMA digital mobile communication system, the control processor or the call resource is subjected to overload. Therefore, the utilization rate of the control processor and the occupancy rate of the call resources are used as a criterion for overload determination, and when an overload occurs, the base station manager (BSM) is notified of the overload occurrence so that the system operator can know the system overload condition. do.

In a base station or control station of a conventional CDMA digital mobile communication system, when an overload is controlled due to a system overload, a priority is given to one of the control processor and the call resource when selecting the overload target to be controlled. Selected.

In other words, the case where priority is given to call resources when selecting an overload target, call resources are lower than control processor utilization because priority is given to call resources when overload occurs in both the control processor and the call resources. Even if the call resource is overloaded. Therefore, overload control is performed for the call resources selected for overload.

In this way, the overload is controlled for the call resource, but the overload of the control processor is not controlled, and the overload of the control processor causes the base station or the control station to be congested. So the system cannot operate normally, so the call service is interrupted.

The system overload control method of the conventional mobile communication system gives priority to only one target when selecting an overload target to control the overload, and thus does not consider other overload targets that affect the overload. There was a problem that was lowered and the possibility of congestion of the system increased.

And because the system is likely to be congested, there was also a problem of lowering the reliability of the service.

In addition, there is a disadvantage that a lot of maintenance is required to restore the normal operation of the system when the system is congested.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, the object of the present invention is not to select the overload target by giving priority to any one target when selecting the overload target for overload control, After the utilization of the control processor and the call resource occupancy are obtained, the overload class is obtained for the control processor and the call resource, respectively, by comparing with the overload threshold. The present invention provides a method for preventing a system overload of a digital mobile communication system that enables to dynamically select an overload target.

Another object of the present invention is to set the overload threshold divided into a plurality of classes according to the degree of overload, according to the system overload of the digital mobile communication system to control the overload step by step according to the overload rating by setting a plurality of overload rating accordingly To provide a prevention method.

Another object of the present invention is that the system operator can change the overload threshold value stored in the database according to the system, the system overload of the digital mobile communication system to enable the overload control according to the characteristics of the system rather than uniform overload control To provide a prevention method.

In order to achieve the above object, the system overload prevention method of the digital mobile communication system according to the present invention,

An initialization step of driving a process of periodically monitoring an overload; An overload target selection step of dynamically selecting an overload target by comparing an overload rating after deriving a control process causing an overload and an overload rating of a call resource, respectively; If an overload occurs in the overload target selected in the overload target selection step, the system operator notifies the information of the overload target and performs an overload control step of controlling the overload according to the generated overload class. do.

The step of selecting an overload target may include: deriving a utilization rate of a control processor and an occupancy rate of a call resource causing an overload, and comparing the derived use rate of the control processor and a occupancy rate of a call resource with a corresponding overload threshold stored in a database unit, respectively. Deriving the overload class and comparing the overload class of the control processor with the overload class of the call resource and selecting a candidate overload object having a high overload class as an overload object. It is done.

1 is a system block diagram to which the present invention is applied;

2 is a flowchart illustrating a system overload prevention method of a digital mobile communication system according to the present invention;

<Explanation of symbols for the main parts of the drawings>

1: drive unit 2: overload target selection unit

3: database section 4: overload processing section

5: Operator Requirements

Hereinafter, a method for preventing a system overload of a digital mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a system block diagram to which the present invention is applied.

As shown therein, the driver 1 is embedded in the processor of the base station or the control station, and initializes the overload related database unit 3 during the initial driving and drives the overload monitoring process that periodically monitors the overload condition. The overload target selection unit 2 calculates the control processor utilization rate of the system and the occupancy rate of the call resource every cycle through the overload monitoring process driven by the control of the drive unit 1, and then stores the overload stored in the database unit 3. The overload class is selected based on the threshold and the overload target is selected. The database unit 3 stores the latest multiple overload thresholds. The overload processing unit 4 controls the overload by determining whether the overload is overload based on the overload object selected from the overload object selecting unit 2 and the overload class. The operator request unit 5 changes the overload threshold when the system operator requests the change of the overload threshold stored in the database unit 3 and stores the overload threshold in the database unit 3.

2 is a flowchart illustrating a system overload prevention method of a digital mobile communication system according to the present invention applied to the system of FIG.

As shown therein, an initialization step (S1-S2) for driving a process for monitoring overload periodically; An overload target selection step (S3-S5) for deriving a control process causing an overload and an overload grade of a call resource, respectively, after performing the initialization steps (S1-S2); If an overload occurs in the overload target selected in the overload target selection step (S3-S5), the overload control step (S6-S8) of notifying the system operator of the overload target information and controlling the overload according to the generated overload class Perform

The initializing step (S1-S2) comprises the step (S1) of initializing the overload threshold set in accordance with the overload state in the database unit 3, and the step (S2) of driving an overload monitoring process that periodically monitors the overload. do.

In the overload target selection step (S3-S5), a step (S3) of deriving the utilization rate of the control processor causing the overload and the call resource occupancy rate, and the database unit (10) Deriving an overload class by comparing with the corresponding overload threshold value stored in 3), respectively (S4), and comparing the overload class of the derived control processor with the overload class of the call resource to overload a candidate overload target having a high overload class. It consists of the step (S5) of selecting the target.

In the overload control step (S6-S8), if the overload target selected in the overload target selection step (S3-S5) is equal to or greater than the overload level set to determine that the overload has occurred, the overload facts, overload target, Notifying the overload level (S6-S7), and controlling the overload by controlling the call to be fluidly limited according to the overload class generated in the selected overload target (S8).

In addition, when the overload threshold change request is received from the system operator, the operator request unit 5 changes the overload threshold in accordance with the request of the system operator to be reflected in real time in the overload target selection step (S3-S5). The overload threshold changing steps S9-S11 are performed.

Referring to the system overload prevention method of the digital mobile communication system according to the present invention as follows.

First, the system overload prevention method is similarly performed at the base station or the control station. However, the base station is performed by setting the overload threshold according to the characteristics of the base station, and the control station is performed by setting the overload threshold according to the characteristics of the control station.

This section describes how to prevent system overload at the control station.

The drive unit 1 incorporated in the control station processor stores the overload threshold value for determining the degree of overload in the database unit 3 embedded in the control station processor memory as a value set for the control station environment (S1). This overload threshold is not fixed to a single value, but is set to a normal overload threshold, a MINOR overload threshold, a MAJOR overload threshold, and a CRITICAL overload threshold depending on the degree of overload. In addition, it is set for the control processor and the call resources, which are the causes of overload, respectively.

The driver 1 drives an overload monitoring process that periodically monitors overload (S2).

The overload monitoring process driven by the drive unit 1 is repeatedly executed at a constant interval, and the overload target selection unit 2 selects the overload target through this overload monitoring process.

That is, the overload target selection unit 2 determines whether or not the overload target control processor and the call resources are overloaded. Thus, the utilization rate of the control processor and the occupancy rate of the call resource are respectively derived (S3).

The overload target selection unit 2 compares the derived utilization rate of the control processor with the normal overload threshold, the MINOR overload threshold, the MAJOR overload threshold, and the CRITICAL overload threshold of the control processor stored in the database unit 3. Thus, if the derived utilization rate of the control processor is less than or equal to the normal overload threshold, the overload rating of the control processor is derived as "normal" (S4).

In addition, the overload target selection unit 2 compares the occupancy rate of the call resources with the normal overload threshold, the MINOR overload threshold, the MAJOR overload threshold, and the CRITICAL overload threshold of the call resources stored in the database unit 3. Thus, if the derived call resource occupancy is greater than the MINOR overload threshold and less than the MAJOR overload threshold, the overload class of the call resource is derived as "MINOR" (S4).

Overload classes are set to four types, Normal, MINOR, MAJOR, and CRITICAL, respectively for the control processor and call resources.

In this case, the fact that the utilization rate of the control process is higher than the occupancy of the call resource does not mean that the overload class of the control processor is higher than that of the call resource. The overload class has many control processors that can be used, and the call resources that can be used are relatively low, so that if the load caused by the call resources has a significant effect on the overload of the control station, the overload threshold of the call resources is lower than the overload threshold of the control processor. Is set. Thus, the fact that the utilization of the control processor is higher than the occupancy of the call resource does not mean that the overload rating of the control processor is higher than the call resource overload rating. Thus, the fact that one candidate overload target is higher than another candidate overload target does not mean that the overload class is high.

When the overload grade of the control processor and the overload grade of the call resource are derived, the overload target selection unit 2 compares the two overload grades. Therefore, a candidate overload target having a higher overload rating among two candidate overload targets is selected as the overload target (S5).

On the other hand, the system operator may request to change the overload threshold value stored in the database unit 3 of the control station to a desired value through the BSM. When the request for changing the overload threshold is received from the system operator, the operator requesting unit 5 of the control station compares the overload threshold stored in the database unit 3 with the change requested overload threshold (S9-S10). As a result of the comparison, if the overload threshold required to change is different from the overload threshold stored in the database unit 3, the operator request unit 5 updates the overload threshold of the database unit 3 to the overload threshold requested to be changed (S11). . This updated overload threshold is reflected when the overload monitoring process derives the overload rating of the candidate overload target. Therefore, the overload threshold required by the system operator is changed, and the overload control of the control station can be made flexible by affecting in real time when determining the overload class of the candidate overload target.

When the overload target is selected in this way, the overload target selection unit 2 checks the overload class of the overload target, and if the overload class is “normal,” it is not an overload state, so that the utilization rate of the control processor and the share of call resources are continuously derived. (S3).

However, if the overload rating of the selected overload target is "MINOR" or higher, the overload has occurred. Therefore, the BSM is notified of the fact that the overload has occurred, the overload target for all cycles, and the overload rating for the current cycle (S6-S7). ). Thus, the system operator can know the change of overload grade and overload grade of the control station.

When an overload occurs in both the control processor and the call resources, and the overload level is changed independently during system operation, the candidate overload target having a high overload rating is selected as the overload target and becomes the overload class changing path to the BSM. The operator can know the current overload class and the overload target of the current system from the received overload change notification message.

After the overload status of the current system is determined by the overload class of the selected overload target, the overload processing unit 4 controls the overload by limiting calls according to the overload class (S8).

If the overload class is MINOR, the overload is controlled by limiting the call so that the system state is normal rather than overloaded. In addition, if the overload condition is CRITICAL, it is a dangerous state that the system malfunctions if the overload is further progressed. Therefore, many calls are limited so that the load of the system is greatly reduced.

In this way, the control station can prevent the malfunction due to the congestion and the situation that the mobile communication service can not be performed in advance to improve the reliability of the service.

As described above, the system overload prevention method of the digital mobile communication system according to the present invention is to select the overload target by giving priority to any one of the control processor and the call resource when selecting the overload target for overload control. Rather, by selecting an overload target having a higher overload rating, the overload triggering target that affects the overload of the system dynamically can be selected dynamically, thereby making the overload control more effective.

In addition, the overload threshold according to the degree of overload is set according to the degree of influence on the system, rather than selecting the overload target by directly comparing the utilization rate of the control processor and the occupancy rate of the call resource. By comparing the utilization rate and comparing the overload threshold set in the call resource and the occupancy rate of the call resource, the corresponding overload class is derived and the overload class is selected by comparing the derived overload class, so that the overload target can be selected more accurately. It also works.

Instead of setting the overload class to a fixed value as one, it is divided into a plurality of classes according to the degree of overload, and accordingly, the number of overload classes is set accordingly so that the overload can be controlled step by step according to the overload class. have.

In addition, since the present invention can change the overload threshold value stored in the database according to the system, there is an effect that the overload control can be made according to the characteristics of the system rather than the uniform overload control.

Claims (5)

In the overload prevention method of the digital mobile communication system, An initialization step of driving a process of periodically monitoring an overload; An overload target selection step of dynamically selecting an overload target by comparing an overload rating after deriving a control process causing an overload and an overload rating of a call resource, respectively; If an overload occurs in the overload target selected in the overload target selection step, the system operator notifies the information of the overload target and performs an overload control step of controlling the overload according to the generated overload class. How to prevent system overload of the system. The method of claim 1, wherein the initializing step, And a step of initializing an overload threshold set according to the overload state in the database unit and driving an overload monitoring process for periodically monitoring the overload. According to claim 1, The overload target selection step, Deriving the utilization rate of the control processor and the occupancy rate of the call resource causing the overload, and comparing the derived utilization rate of the control processor and the occupancy rate of the call resource with a corresponding overload threshold stored in the database unit, respectively, and deriving an overload grade, respectively. And selecting a candidate overload target having a high overload rating as an overload target by comparing the derived overload grade of the control processor with the overload grade of a call resource. According to claim 1, wherein the overload control step, If the overload target selected in the overload target selection step is greater than or equal to the overload level set to determine that an overload has occurred, informing the system operator of the fact that the overload has occurred, the overload target, and the overload grade; A method for preventing system overload in a digital mobile communication system, comprising: controlling overload by dynamically limiting calls according to the overload class. The method of claim 1, further comprising: when an overload threshold change request is received from a system operator, changing the overload threshold according to a system operator's request and causing the changed overload threshold to be reflected in real time in the overload target selection step. System overload prevention method of a digital mobile communication system, characterized in that performed.