KR100442265B1 - Method for Controlling Quality of Mobile Communication Service - Google Patents

Abstract

In the packet service method of a mobile switching center, the present invention compares a QoS limit set for each routing area with a requested QoS and allocates resources to allocate a packet when a large number of service subscribers are registered in a specific area or the traffic load in that area is high. To reduce the rejection rate to provide a service quality control method of a mobile communication system that can improve the service satisfaction of a plurality of subscribers.

Description

Service quality control method of mobile communication system {Method for Controlling Quality of Mobile Communication Service}

The present invention relates to a packet mobile communication service, and more particularly, to a method for controlling service quality of a mobile communication system.

Existing general exchangers mainly support voice-oriented services or even data services through circuits even in the case of data services. Thus, call control was performed without quality of service (QoS) control.

Recently, interest in the IMT-2000 service has increased and in particular, the technology using the wireless Internet has been developed. In the asynchronous mobile communication system, the serving GPRS, which is a switch that provides a packet-only service in a general packet radio service (GPRS), is supported. Serving GPRS Support Node (SGSN) (hereinafter abbreviated as SGSN) is being developed, and call control is performed through QoS of subscribers registered in the Home Location Register (HLR) linked to the SGSN. have.

1 is a configuration diagram of a mobile communication system network for a general packet service, and includes a radio access network (RAN) (hereinafter, RAN) that provides packet service to a subscriber through a mobile station (MS) 11. 12, a packet switch 13, which is the core of service control, a home location register (HLR) 14 that processes mobile communication subscriber calls in conjunction with the packet switch 13, and an IP. It consists of a gateway 15 that acts as a gateway to the network 16.

Before receiving a packet service, the mobile terminal 11 must register with the home location register 14.

The home location register (14) contains two types of information: subscriber information and mobile terminal (11) information to route incoming calls to mobile subscribers.

Hereinafter, a QoS allocation procedure of a packet switch according to the prior art will be described with reference to FIG. 2.

When the packet switch 13 receives the packet call request message and the subscriber request QoS (hereinafter referred to as QoS_Requested) from the mobile terminal 11 via the radio access network 12 (201), the QoS_Requested and the home location register 14 ) And compares the QoS of the subscriber (hereinafter referred to as QoS_Subscribed) registered with the subscriber.

As a result of the comparison, if the QoS_Requested is greater than the QoS_Subscribed, the QoS_Requested is replaced with the QoS_Subscribed value (203), and according to the replaced QoS_Requested, traffic resources are allocated and packet service is provided (204).

Conversely, if the QoS_Requested is less than QoS_Subscribed, traffic resources are allocated according to the QoS_Requested value received from the user and packet service is provided (204).

However, in the conventional mobile communication service described above, there is no method of controlling QoS by using the location information of the subscriber. Therefore, when there are very many subscribers registered in a specific area or the traffic load rate generated in a specific area is high. In a very large case, there is a problem in that the frequency of the packet call request of the subscriber requesting the service at the location becomes high.

Accordingly, the present invention has been made in view of the above-mentioned problems of the prior art, and by controlling the QoS using subscriber location information, the traffic load and service of the entire system can be controlled in a situation where multiple subscribers simultaneously request various QoS. An object of the present invention is to provide a service quality control method of a mobile communication system that can improve satisfaction.

In particular, it is an object of the present invention to provide a method for controlling a service quality of a mobile communication system, which is advantageous when there are a large number of subscribers in a specific region or when a traffic load in a specific region is large.

According to a feature of the present invention for achieving the above object, it is characterized in that the resource allocation by comparing the QoS limit set for each routing area and the requested QoS.

More specifically, the routing area is characterized by a routing area identifier (RAI).

In more detail, the QoS limit is set according to the number of mobile terminals and the traffic load.

In more detail, the QoS limit value is set for each routing area and stored in the QoS table.

More specifically, the QoS table is characterized by automatically or manually setting the QoS limit value including a threshold variable for automatic control.

More specifically, the manual setting method includes the steps of monitoring the number of registered subscribers and the traffic load in real time in a routing area, and comparing the monitored registered subscribers and the traffic load with the set number of subscribers and the traffic load to set a QoS limit value. Determining whether or not to reset, and after the determination step, calculating and resetting the QoS limit value according to a predetermined equation.

More specifically, the automatic setting method includes the steps of periodically monitoring the number of registered subscribers and the traffic load in the routing area, comparing the number of registered subscribers and the traffic load with a threshold, and in the comparison step If it is larger than the threshold, characterized in that it comprises the step of automatically calculating and resetting the QoS limit value according to a predetermined equation.

In more detail, the calculating of the QoS limit value may include calculating a QoS limit value by adding a weighting constant of the corresponding routing area to a QoS average value of a packet call requested by a subscriber located in the corresponding routing area.

In more detail, the weighting constant of the corresponding routing area may be set to an arbitrary value between 0 and 1 in consideration of changes in time and position of the packet switch.

1 is a configuration diagram of a mobile communication system network for a general packet service;

2 is a flowchart illustrating a QoS allocation procedure according to the prior art,

3 is a conceptual diagram of the present invention,

FIG. 4A is a flowchart illustrating a procedure for manually adjusting QoS values of routing areas of a location-QoS table. FIG.

4B is a flowchart illustrating a procedure for automatically adjusting QoS values for each routing area of a location-QoS table.

5 is a flowchart illustrating a QoS control procedure according to an embodiment of the present invention.

Hereinafter, a service quality control method of a mobile communication system according to the present invention will be described with reference to the accompanying drawings.

3 is a conceptual diagram of the present invention, in which the area controlled by one packet switch 21 is divided into a plurality of routing areas (RAs).

Before receiving the packet service, the mobile station 31 must perform location registration with the packet switch 32. Routing area identifiers unique to each routing area RA to distinguish the routing area RA. Identifier: RAI) is assigned and configured to have QoS limit value (QoS_RA) for each routing area (RA).

For example, the routing area identifier for the first routing area is RA1, and the QoS limit in this RA1 is QoS_RA1, and the routing area identifier (RAI) and routing area-specific QoS in the same way for the other routing areas. The limit value QoS_RA is assigned.

When registering a location, the mobile station 31 stores an identifier (RAI) for the routing area in which the mobile station 31 is located in the packet switch 32. When the routing area changes due to the movement of the mobile station 31, the routing is performed. The area identifier (RAI) will be modified to the new value. In addition, since hand-off is possible, modification is possible even if the routing area is changed during a call.

Table 1 below is an example of a location-QoS table representing QoS related data for each routing area.

Routing area identifier Total number of mobile terminals Traffic load QoS limit Threshold Variables for Automatic Control (SubsNum, TrafficLoad) RA1 3556 56 QoS_RA1 (3000, 50) RA2 1245 32 QoS_RA2 (2000, 50) RA3 1324 23 QoS_RA3 None ... ... ... ... ...

The location-QoS table is measured / managed by the packet switch 32. When the total number of mobile stations, traffic load rate, QoS limit value, and QoS limit value are automatically controlled for each routing area RA1, RA2, RA3, ... Required variables, such as automatic control thresholds, are recorded.

For example, the total number of mobile terminals in the routing area whose routing area identifier is RA1 is 3556, the traffic load rate is 56%, and the QoS limit in the area is QoS_RA1.

The automatic control threshold variable represents a threshold value (SubsNum) of the number of subscribers registered in a specific routing region and a traffic load threshold (TrafficLoad) occurring in the corresponding routing region, and is determined according to empirical knowledge of various operators. .

A procedure of adjusting the QoS limit value of the location-QoS table will be described with reference to FIGS. 4A and 4B.

QoS limits can be controlled manually and automatically. The control method is determined according to whether a predetermined automatic control threshold variable exists in the location-QoS table.

If there is an automatic control threshold variable in the location-QoS table, the QoS limit value is automatically adjusted. If there is no automatic control threshold variable in the location-QoS table as shown in RA3 of Table 1, the QoS limit value is manually set by the operator. Adjust

First, a process of manually adjusting the QoS limit value will be described with reference to FIG. 4A.

First, the operator monitors the number of subscribers and traffic loads registered in the routing area RA in real time (401).

Then, the number of monitored subscribers and the traffic load are compared with the number of subscribers and the traffic load obtained by the operator's empirical knowledge, respectively, and it is determined whether the control of location-based QoS in each routing area is necessary according to the comparison result (402).

If QoS control is needed, the operator adjusts the QoS limit by the operator's operation (403) and replaces the QoS limit with the adjusted QoS limit. On the other hand, if QoS control is not required, the QoS limit value is maintained.

In order to manually control the location-based QoS, it is cumbersome for the operator to continuously monitor the number of subscribers and the traffic load rate in a specific region. However, the method of automatically controlling the location-based QoS described below has the advantage that there is no such troublesome point. .

Next, a procedure for automatically adjusting location based QoS will be described with reference to FIG. 4B.

First, the packet exchanger periodically measures the number of subscribers and traffic loads registered in each routing area RA (411).

The number of registered subscribers is compared with the threshold number of subscribers (SubsNum) of the location-QoS table (412), and the measured traffic load is compared with the threshold traffic load (TrafficLoad) of the location-QoS table (413). .

If the number of registered subscribers is greater than the threshold number of subscribers (SubsNum) and the measured traffic load is greater than the threshold traffic load (TrafficLoad), the QoS limit of the location-QoS table is automatically adjusted and the position-adjusted value is automatically adjusted. Substitute the QoS limit in the QoS table (414).

On the other hand, if the number of registered subscribers is less than the threshold number of subscribers (SubsNum) or if the number of registered subscribers is more than the threshold number of subscribers (SubsNum), the measured traffic load is less than the threshold traffic load (TrafficLoad). Keep it.

The QoS limit value, whether by automatic control or by manual control, is automatically calculated according to the following equation (1) or manually by the operator.

QoS limit = (QoS limit) avg × α_RA

Here, the (QoS limit value) avg is a QoS average value of a request packet call of subscribers located in a corresponding routing area, and α_RA is a weighting constant of the corresponding routing area.

The α_RA is set to a value between 0 and 1 in consideration of changes in time and position of the packet switch.

That is, the QoS limit value is calculated by multiplying the QoS average value of packet calls requested by subscribers located in the routing area by the weighting constant of the routing area.

Next, a method of controlling QoS of a requested packet call using the location-QoS table will be described with reference to FIG.

When the packet exchanger 32 receives the QoS requested by the subscriber together with the packet call request message (QoS_Requested) from the mobile terminal (501), the packet switch 32 compares the QoS_Requested with the QoS (QoS_Subscribed) of the subscriber registered in the home location register (HLR). (502).

As a result of the comparison, if the QoS_Requested is smaller than the QoS_Subscribed, the QoS_Requested value is kept as it is, and if the QoS_Requested is larger than the QoS_Subscribed, the QoS_Requested is replaced with the QoS_Subscribed value (503).

Subsequently, a QoS limit value (hereinafter referred to as QoS_RA) in a routing area where the mobile terminal 31 is located from the location-QoS table is obtained, and the QoS_RA is compared with the QoS_Requested value (504).

As a result of the comparison, if the QoS_Requested is less than the QoS_RA, traffic resources are allocated according to the QoS_Requested value and packet service is provided (506). Traffic resources are allocated according to the value and packet service is provided (506).

The service quality control method of the mobile communication system of the present invention as described above has the following effects.

First, by controlling the QoS to the appropriate level using the location information of subscribers, it is possible to reduce the packet rejection rate when a large number of service subscribers are registered in a specific area and the traffic load in that area is high, thus improving the service satisfaction of multiple subscribers. You can.

Second, since location-based QoS control can be performed automatically, convenient location-based QoS control is possible without the need for the operator to continuously monitor the number of subscribers or traffic load rate at a specific location.

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 embodiments, but should be defined by the claims.

Claims (9)

A method of controlling a quality of service of a mobile communication system, comprising: allocating a resource by comparing a QoS limit set for each routing area with a requested QoS The method of claim 1, And said routing area is identified by a routing area identifier (RAI). The method of claim 1, The QoS limit value is set according to the number of mobile terminals and the traffic load. The method of claim 1, The QoS limit value is set for each routing area and stored in a QoS table. The method of claim 4, wherein The QoS table is a quality control method of a mobile communication system, characterized in that for setting the QoS limit value automatically or manually including a threshold variable for automatic control. The method of claim 5, The manual setting method includes the steps of monitoring the number of subscribers and traffic loads registered in a routing area in real time; Comparing the monitored registered subscribers and the traffic load with the set subscribers and the traffic load to determine whether to reset the QoS limit value; And calculating and resetting the QoS limit value according to a predetermined equation after the determining step. The method of claim 5, The automatic setting method includes the steps of periodically monitoring the number of subscribers and traffic loads registered in a routing area; Comparing the number of registered subscribers and the traffic load with a threshold; And calculating and resetting the QoS limit value automatically according to a predetermined equation when the comparison step is larger than the threshold value. The method according to claim 6 or 7, The calculating of the QoS limit value And adding a weighting constant of the corresponding routing area to the QoS average value of the packet call requested by the subscriber located in the corresponding routing area, to calculate a QoS limit. The method of claim 8, The weighting constant of the corresponding routing area is A method of controlling a quality of service of a mobile communication system, characterized in that it is set to an arbitrary value between 0 and 1 in consideration of changes in time and position of a packet switch.