KR100525552B1 - Method for controling overload in mobile communication system - Google Patents

Abstract

The present invention discloses an overload control method that can reduce the burden on an overloaded processor in a mobile communication system.

In the present invention, when an overload occurs in a processor, the control level is determined and the control level is sent to the lower or upper processor according to the degree of the control level, so that the outgoing or incoming call is controlled according to the control level. At this time, the plurality of base stations are provided with different overload control tables reflecting the traffic volume.

Description

Method for control overload in mobile communication system

The present invention relates to a mobile communication system, and more particularly, to an overload control method in which overload control can be performed in upper and lower processors according to a control level determined in a processor that is overloaded.

In the mobile communication system, a plurality of base station subsystems (BSSs) are connected to one mobile switching center (MSC), and the base station system is connected to a plurality of base stations by a base station controller (BSC). BTS: Base Station Transceiver Subsystem is controlled.

1 is a view showing the configuration of a general mobile communication system. Referring to FIG. 1, the mobile communication system controls and monitors the entire system, and is connected to and applied to a mobile communication exchange (MSC) 10 having a switching function for connecting a communication path of a call connection and the mobile communication exchange 10. The base station system (BSS) 50 converts the received signal into high frequency and outputs the received signal to the mobile communication switch 10, and monitors and maintains a normal operating state of the base station system 50. A base station controller (BSM) 60 to perform and a mobile station (MS) 40 wirelessly connected to the base station system 50 are included.

The base station system 50 includes a CCP (Call Control Processor) 22 which is a main processing device that controls the entire base station and performs a call process. The base station system 50 is connected to the base station controller management unit 60. Base station controller 20 for transmitting and receiving information for the maintenance of the 50 and the base station controller 20 connected to the base station controller 20 up-converts and transmits the received signal, down-converts the received signal, and then the base station controller ( The base station 30 includes a base station processor (BSP) 32 that controls and manages an operation such as applying back to 20).

In the overload control method of the general mobile communication system as described above, as shown in FIG. 2, it is determined whether the overload is based on the occupancy rate of the CCP of the base station controller and the BSP of the base station (S 211). That is, the load of each of the CCP and BSP is measured in units of 2 seconds, and if it is more than four consecutive target occupancy rates, it may be determined as an overload condition.

If it is determined that the overload in S 211, one of the control levels classified according to the occupancy of the CCP and BSP is determined (S 214). As shown in FIG. 3, the overload control table classifies the control levels according to the occupancy of the CCP and the BSP in 24 steps, and lists the information indicating the percentage of allowance or rejection of the incoming / outgoing call at each control level. Is stored.

When the control level is determined in S 214, the overload control is performed according to the allowance and rejection rate of the incoming / outgoing call corresponding to the control level in the overload control table (S 217).

For example, if the control level determined at S 214 is -6, an outgoing call attempted to a higher processor according to an allowance rate of 48.2% and an rejection rate of 51.8% of an outgoing call corresponding to control level -6 in the overload control table. Restrict In addition, the incoming call attempted by the subsystem is accepted because it is 100% acceptable.

It is determined whether the respective overloads of the CCP and the BSP can be released normally. If the overload is still in the overload state, the control proceeds to S 214 and repeatedly performs overload control (S 220).

If the control level -12, which indicates the normal state, is determined 10 times in succession, the overload is released.

In the overload control method of the conventional mobile communication system as described above, the base station controller performs overload control by itself without interworking with the base station or the mobile communication exchange. Thus, the direct control of each of the incoming / outgoing calls by the base station controller itself causes a problem of placing an additional load on the base station controller which is overloaded.

On the other hand, the base station is installed with a variety of shapes up to 1FA / Omni-12FA / 6Sector according to the traffic (traffic) of the area where the base station is installed. These base stations differ in the amount of traffic to be processed according to the surrounding situation. However, the conventional overload control method is inefficient and unfair because the base station controller controls the outgoing call uniformly without distinguishing a base station with a high traffic volume and a small base station.

Accordingly, an object of the present invention is to provide an overload control method of a mobile communication system that can prevent an additional load from being generated by controlling an overload in the processor itself that has experienced an overload. .

Another object of the present invention is to provide an overload control method of a mobile communication system in which a plurality of base stations have different overload control tables reflecting traffic amounts, so that overload control can be performed more efficiently and fairly.

According to a preferred embodiment of the present invention for achieving the above object, when the base station controller interworking with the plurality of base stations and the mobile communication switch is overloaded, the plurality of base stations according to the control level determined by the base station controller And an overload control method of a mobile communication system in which overload control is performed at each of the mobile switching centers.

The plurality of base stations are provided with different overload control tables that reflect traffic conditions of the base stations.

When the plurality of base stations are in an overloaded state, overload control is performed in the base station controller according to the control level determined by the plurality of base stations.

When the mobile communication exchange is in an overloaded state, overload control is performed in the base station controller according to the control level determined by the mobile communication exchange.

According to another preferred embodiment of the present invention, determining whether the current processor is overloaded; If an overload occurs, determining the control level according to the occupancy rate; Selecting an incoming / outgoing call for overload control using the control level; And when the call to be controlled for overloading is an outgoing call, sending a control level to a lower processor to perform overload control on the outgoing call.

According to the overload control method of the mobile communication system, when the incoming call is selected, the method further includes the step of sending the control level to a higher processor to perform overload control on the incoming call.

The current processor is a processor provided in one of a plurality of base stations, base station controllers or mobile communication exchanges.

The plurality of base stations are provided with different overload control tables that reflect traffic conditions of the base stations.

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

Although the present invention has been described only when an overload occurs in the CCP provided in the base station controller, the present invention is not limited thereto and may be applied even when the overload occurs in the base station or the mobile communication switch.

4 is a flowchart illustrating a method for controlling overload in a mobile communication system according to a preferred embodiment of the present invention. Referring to FIG. 4, first, it is determined whether the CCP provided in the base station controller is overloaded (S 311). That is, when the load of each of the CCP and BSP is measured in units of 2 seconds, the load may be determined as an overload state if the target share is more than four consecutive target shares.

If it is determined that the overload in S 311, one of the control levels classified according to the occupancy of the CCP and BSP is determined (S 314). As already described in the related art, determining the level of control is already well known and thus further description thereof will be omitted.

It is determined whether the control level determined in S 314 is greater than zero (S 317). This is to determine the processor to be linked according to the control level. That is, when the control level is less than zero, the control level is notified only to the base station, whereas when the control level is greater than zero, the control level is notified not only to the base station but also to the mobile communication exchange. That is, as shown in Fig. 3, when the control level is less than 0, only the outgoing call needs to be controlled, and the incoming call is allowed to be 100%, and thus no control is necessary.

Therefore, if the control level is less than zero, the control level is sent to the base station so that the overload control for the outgoing call is performed in step S323.

On the other hand, if the control level is greater than zero, the control level is simultaneously sent to the base station and the mobile communication switchboard so that overload control is performed on the incoming call at the base station or the mobile communication switchboard at step S320. In this case, the base stations connected to the base station controller are provided with different overload control tables reflecting the amount of traffic that each base station can process. That is, as shown in Figs. 5 and 6, the overload control table provided in each base station is different according to the traffic amount of each base station. 5 is an overload control table provided in a base station having a large traffic amount, and FIG. 6 is an overload control table provided in a base station having a small traffic amount. The overload control tables shown in Figs. 5 and 6 are all equipped with 24 levels of control levels and the allowance and rejection rates.

For example, when the control level L determined in S314 is -2, the control level becomes less than zero, so that the control level L-2 is notified to all base stations connected to the base station controller. At this time, one base station (A) has a relatively large amount of traffic is provided with an overload control table as shown in Figure 5, the other base station (B) is a relatively small traffic amount is provided with an overload control table as shown in FIG. Of course, among the plurality of base stations, there may also be a base station provided with an overload control table as shown in FIG. 3.

Then, the base station A equipped with the overload control table of FIG. 5 receiving the control level L-2 performs control to reject all outgoing calls.

On the other hand, the base station B equipped with the overload control table of FIG. 6 receiving the control level (L) -2 performs control to allow 32.4% of the outgoing call and reject the remaining 67.6%.

As such, even when receiving the same control level from the base station controller, the overload control for the outgoing call is performed differently by the overload control table provided differently according to the traffic situation of each base station.

On the other hand, if the control level is greater than zero, the control level is sent not only to the base station but also to the mobile communication switchboard, where overload control is performed on the originating or terminating call in each.

If -12 indicating the control level is determined to be 10 consecutive times, the overload is released (S327).

As described above, the present invention has been described only when an overload occurs in the CCP provided in the base station controller, but the present invention may be applied even when the overload occurs in the base station or the mobile communication exchange.

For example, when an overload occurs in the BSP provided in the base station, the base station determines a control level as described above to control its own originating call using N / A when the control level is below a certain level. On the other hand, when the control level is above a certain level, the control level is sent to a base station controller equipped with a higher CCP to control the originating call of the BSP and the incoming call of the CCP, respectively.

In addition, when an overload occurs in the MSC, a control level is determined in the MSC, and the determined control level is sent to a base station controller equipped with a lower CCP to control the originating call of the CCP.

As described above, according to the present invention, when an overload occurs in any one of a base station, a base station controller, or a mobile communication exchange that constitutes a mobile communication system, a control level is sent to a lower or upper processor connected to each of the base station and the incoming call. This can reduce the burden on the overloaded processor.

As described above, according to the overload control method of the mobile communication system according to the present invention, when an overload occurs in the processor, by sending a control level to the upper or lower processor interworked with it to control an outgoing call or an incoming call in advance As a result, it is possible to perform a more efficient call processing by preventing an additional burden on the overloaded processor.

In addition, a plurality of base stations which have an overload in the base station controller and receive the control level determined therein are provided with different overload control tables reflecting the traffic volume of each base station, and even though the base station has received the same control level, different overload control tables By performing overload control differentially by means of this, an efficient and fair overload control method can be realized.

1 is a view showing the configuration of a general mobile communication system.

2 is a flowchart illustrating a method for controlling overload in a conventional mobile communication system.

3 is an exemplary view showing an overload control table used for overload control in a conventional mobile communication system.

4 is a flowchart illustrating a method for controlling overload in a mobile communication system according to a preferred embodiment of the present invention.

5 is an overload control table provided in a base station having a large traffic volume.

6 is an overload control table provided in a base station having a small traffic amount.

Claims (8)

In a mobile communication system consisting of a plurality of base stations, base station controllers and mobile communication exchange, When the base station controller interworking with the plurality of base stations and the mobile communication exchange is in an overload state, overload control is performed at the plurality of base stations and the mobile switching center according to a control level determined by the base station controller, respectively. Overload control method of communication system. The overload control method of claim 1, wherein the plurality of base stations have different overload control tables that reflect traffic conditions of the base stations. The overload control method of claim 1, wherein when the plurality of base stations is in an overloaded state, overload control is performed in the base station controller according to a control level determined by the plurality of base stations. The overload control method of claim 1, wherein when the mobile communication exchange is in an overloaded state, overload control is performed in the base station controller according to a control level determined by the mobile communication exchange. Determining whether the current processor is overloaded; If an overload occurs, determining the control level according to the occupancy rate; Selecting an incoming / outgoing call for overload control using the control level; And If the call to be overloaded is an outgoing call, sending the control level to a lower processor to perform an overload control on the outgoing call Overload control method of a mobile communication system comprising a. 6. The method of claim 5, wherein when an incoming call is selected, overload control of the incoming call is performed by sending the control level to a higher processor. Overload control method of a mobile communication system further comprising. The overload control method of claim 5, wherein the current processor is a processor provided in one of a plurality of base stations, a base station controller, or a mobile communication switch. The overload control method of claim 7, wherein the plurality of base stations are provided with different overload control tables that reflect traffic conditions of the base stations.