KR19990055269A - Load Control Method of Base Station Call Control Processor in Mobile Communication System - Google Patents

Abstract

The present invention is to calculate the maximum subscribers that can be accommodated in one base station by measuring the call setup and release and resource management capabilities of the base station call control processor, the present invention is a call setup processor in the access / paging channel When a call is established by receiving a call setup response from the call processing processor in the base station call control processor, the base station call control processor sets up a channel to perform a call, then releases the call and records statistics. It is possible to measure the call establishment and release of the control processor and the resource management capability and to calculate the maximum subscribers that can be accommodated by one base station. Since there is no real resource traffic channel allocation, there is no limit on the number of resource channel cards. Of the call processing program in the base station call control processor The efficiency of the resource allocation algorithm can be measured.

Description

Load Control Method of Base Station Call Control Processor in Mobile Communication System

The present invention relates to a method for measuring a load of a base station call control processor in a mobile communication system. In particular, a base station call control processor (BCP) measures a call setup and release and resource management capabilities of one base station (BTS). A method for calculating the maximum subscribers that can be accommodated in a station).

In general, a mobile communication system is a system that allows a mobile station (mobile terminal) to communicate while moving. In addition, the base station call control processor performs call processing control, selector management, and system maintenance tasks such as call setup, call release, soft handoff support, hard handoff support, paging support, selector management, overload control, and resource ( Vocoder) A processor that performs management.

In this general mobile communication system, a conventional BS call control processor load measuring apparatus includes one or more access channels 2 for generating a call as busy call hour attempt (BHCA) to be measured, as shown in FIG. ), One or more paging channels (3) for processing the generated call in the call processing flow, and one or more traffic channels (4) for processing the call with traffic resources. 1) and; A high frequency signal processor (5) which processes and transmits the call processed by the self 1 as a radio frequency signal (RF); An IPC network (6) for allowing a call of the self (1) to be connected with a base station call control processor by Inter Process Communication (IPC); It is composed of a base station call control processor (7) connected to the IPC network (6) to perform tasks required for call processing control, selector management, and system maintenance of the base station.

The conventional base station call control processor load measurement apparatus configured as described above requires one or more access channels 2, one or more paging channels 3, and one or more traffic channels 4 per self. Therefore, since channel cards belonging to a specific shelf (1) cannot be assigned to another shelf, several shelves (1) are required to measure the processing performance of the base station call control processor (7) for several shelves. The high frequency signal processor 5 is required as many as

However, there is a problem in that a high cost is required to mount the high frequency signal processing unit as many as the number of the self 1.

On the other hand, the conventional method for measuring the load of the base station call control processor (7) is to load the simulator by generating a call and processing the call by modifying the call processing program of the actual channel card resources to the channel card.

However, it is easy to construct a simulator, but there is a problem in that a large amount of channel cards must be mounted in order to measure a large processing performance. For example, to measure the performance of the base station call control processor 7 for eight base station configurations, 96 channel cards are required. Not only is it difficult to prepare a large amount of expensive channel card, but also a problem has to be prepared with the call processing program and resources of the control station.

In order to measure the base station call control processor with a small number of channel cards, it is necessary to shorten the call time and reduce the number of resources needed. This method is effective for measuring an algorithm for finding available resources in the call processing program of the base station call control processor. There was a problem that it was not.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to measure the call setup and release and resource management capabilities of a base station call control processor and to accommodate a maximum subscriber in one base station. The present invention provides a method for measuring a load of a base station call control processor of a mobile communication system.

In order to achieve the above object, the base station call control processor load measurement method of a mobile communication system according to an embodiment of the present invention,

Transmitting a call setup request to a call processing processor in an access / paging channel and receiving a call setup response from the call processing processor at a base station call control processor; When the call setup is made, the base station call control processor establishes a channel, performs a call, releases the call, and records statistical values.

In order to achieve the above object, a base station call control processor load measurement method of a mobile communication system according to another embodiment of the present invention,

Setting up a call channel in the base station call control processor when the personal computer transmits a call setup request to the base station call control processor; The technical configuration is characterized by the step of releasing a call and recording a statistical value after performing a call on the set communication channel.

1 is a block diagram of a base station call control processor load measurement apparatus of a conventional mobile communication system;

2 is a block diagram of a mobile communication system base station to which the present invention is applied;

3 is a block diagram of a personal computer and a base station call control processor to which the present invention is applied;

4 is a flowchart illustrating a load measurement method in a mobile communication system base station according to the present invention;

5 is a flowchart illustrating a load measurement method in a personal computer and a base station call control processor according to the present invention.

<Explanation of symbols for main parts of the drawings>

11: IPC network 12: access channel

13: paging channel 14: traffic channel

15: base station call control processor 16: call processing processor

17: Local IPC Network 18: Personal Computer

Hereinafter, an embodiment according to the technical spirit of the base station call control processor load measurement method of the present invention configured as described above will be described in detail.

2 is a block diagram of a mobile communication system base station to which the present invention is applied.

As shown therein, the IPC network 11 connects each block in the base station by internal processing communication; An access channel (12) connected to the IPC network (11) to generate a call as many as the time attempt call to be measured; A paging channel (13) connected to the IPC network (11) to process calls generated in the call processing flow; A traffic channel (14) connected to the IPC network (11) to process a call with traffic resources; A base station call control processor (15) connected to the IPC network (11) to perform tasks required for call processing control, selector management, and system maintenance of the base station; The call processing processor 16 is connected to the IPC network 11 to simulate a call progress generated.

3 is a block diagram of a personal computer and a base station call control processor to which the present invention is applied.

As shown therein, the base station call control processor 15 performs tasks required for call processing control, selector management, and system maintenance of the base station; A local IPC network 17 connecting the base station call control processor 15 with an external device; Connected to the local IPC network 17 and RS-422 (Recommended Standard-422) interface cable to receive all messages of the base station call control processor 15 and to transmit the desired message to the base station call control processor 15 It consists of a personal computer 18 that performs a call processing test.

4 is a flowchart illustrating a load measurement method in a mobile communication system base station according to the present invention.

As shown here, the call setup request is transmitted from the access / paging channel 12 and 13 to the call processing processor 16, and the base station call control processor 15 calls the call setup response of the call processing processor 16. FIG. Receiving steps ST11-ST16; When the call is established, the base station call control processor 15 sets up a channel to perform a call, releases the call, and records statistical values (ST17 to ST19).

Transmitting a call setup request from the access / paging channel 12 (13) to the call processing processor 16 and receiving a call setup response from the call processing processor 16 at the base station call control processor 15 ( ST11 to ST16 include: transmitting a call setup request from the access / paging channel (12) (13) to the base station call control processor (15) and receiving a call setup response (ST11) (ST12); Transmitting a channel establishment request from the base station call control processor (15) to the traffic channel (14); Transmitting a call setup request from the base station call control processor (15) to the call processing processor (16) and receiving a call setup response (ST14); The base station call control processor 15 receives a channel setup response of the traffic channel 14 (ST16).

In the step of setting a channel in the base station call control processor 15 to perform a call and then releasing a call, the access / paging channel 12 (13) in the base station call control processor 15 is performed. Transmitting a channel setup request to the channel setup request and receiving a channel setup completion from the traffic channel (14) (ST17) (ST18); The call channel is formed, and after performing a call, requesting the release of the call and recording the statistical value of the call state (ST19).

5 is a flowchart illustrating a load measurement method in a personal computer and a base station call control processor according to the present invention.

As shown therein, when the personal computer 18 transmits a call setup request from the personal computer 18 to the base station call control processor 15, setting a call channel in the base station call control processor 15 (ST21 to ST28); After performing a call on the set call channel, the call is released and a statistical value is recorded (ST29).

In the setting of the communication channel in the base station call control processor 15 (ST21 to ST28), the personal computer 18 transmits a call setup request to the base station call control processor 15 and receives a call setup response. Steps ST21 and ST22; Transmitting a channel setup request and a call setup request from the base station call control processor 15 to the personal computer 18, and receiving a call setup response and a channel setup response (ST23-ST26); And transmitting the channel setting request from the base station call control processor 15 to the personal computer 18 and receiving the channel setting response (ST27).

The operation of the base station call control processor load measurement method of the mobile communication system according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, the load measurement method of the base station call control processor 15 according to an embodiment of the present invention is as follows.

The call setup request is transmitted from the access / paging channel 12 (13) to the call processing processor 16, and the base station call control processor 15 receives the call setup response from the call processing processor 16 (ST11 to ST16). . That is, the call setup request is transmitted from the access / paging channel 12 (13) to the base station call control processor 15 and receives a call setup response (ST11) (ST12). The channel setting request is sent to (14) (ST13). Then, the base station call control processor 15 transmits a call setup request to the call processing processor 16 and receives a call setup response (ST14). In addition, the base station call control processor 15 receives the channel setting response of the traffic channel 14 (ST16).

Thus, when the call is set up, the base station call control processor 15 sets up a channel to perform a call, releases the call, and records a statistical value. This transmits the channel establishment request from the base station call control processor 15 to the access / paging channel 12 and 13 and receives the channel establishment completion from the traffic channel 14 to form a call channel (ST 17) (ST 18). . Then, the call channel is formed to perform the call, request the release of the call and record the statistics of the call state (ST19).

Meanwhile, the load measurement method of the base station call control processor 15 according to another embodiment of the present invention is as follows.

First, all channel cards and high frequency signal processing equipment are removed, and the base station call control processor 15 is operated normally by intercepting all IPC messages sent by the base station call control processor 15 and making a desired response. After changing the test node of the IPC network (BIN, BTS Interface Network) 11 to All Receive mode and connecting to the personal computer 18 using an RS-422 cable and an RS-422 interface card for the personal computer 18, All messages passing through the IPC network 11 can be received, and the desired messages can be transmitted to the base station call control processor 15.

Therefore, the base station call control processor 15 periodically checks the state of the channel card and resets the channel card when an abnormal state is found, and corresponds to the channel card according to the configuration data of the base station call control processor 15. Let's load the program. The simulator monitors the messages sent by the base station call control processor 15 to each channel card and responds appropriately as if the channel card responds. The simulator can receive configuration data of all channel cards and store them in a call table. The simulator also operates according to the configuration data of the base station call control processor 15. It is important for the base station call control processor 15 to ignore the message coming from the channel card that does not belong to its configuration data.

When various measurement parameters are input and the simulation starts, the access channel task uses a call table and an internal timer to construct a message as if an outgoing call came from the terminal, and then the base station call control processor (IPC) through the IPC network 11. 15). The base station call control processor 15 sends a message to the paging channel 13 and the traffic channel 14 through the IPC network 11 in accordance with a predetermined call processing flow. The message sent by the base station call control processor 15 enters the simulator through the test node of the IPC network 11, and the received message is interpreted by the router to interpret the address portion and the signal portion and the paging channel task area (Task). It is sent to the traffic channel workspace. Each simulator workspace generates virtually the outgoing signal from the terminal by creating an appropriate message according to the defined call processing flow, call table, and user input and sending it to the base station call control processor 15 through the IPC network 11. It becomes possible.

In the case of an incoming call, the same process as described above is used except that the work area of the call processing processor 16 that simulates the call processing of the control station starts a call.

This process will be described with reference to FIG.

When the personal computer 18 transmits the call setup request to the base station call control processor 15, the base station call control processor 15 establishes a call channel. It transmits a call setup request from the personal computer 18 to the base station call control processor 15, receives a call setup response (ST21) (ST22), and then sets up a channel from the base station call control processor 15 to the personal computer 18. A request and a call setup request are sent, and a call setup response and a channel setup response are received (ST23-ST26). Then, the base station call control processor 15 transmits the channel setting request to the personal computer 18 and receives the channel setting response to set the call channel (ST27) (ST28).

After performing the call on the set communication channel as described above, the call is released and the statistical value is recorded (ST29).

As such, the present invention measures the call establishment and release and resource management capabilities of the base station call control processor.

As described above, the base station call control processor load measurement method of the mobile communication system according to the present invention measures the call setup and release and resource management capabilities of the base station call control processor to calculate the maximum subscribers that can be accommodated in one base station It will work.

In addition, the present invention can measure the efficiency of the resource allocation algorithm of the call processing program in the base station call control processor while maintaining a large number of calls without being limited by the number of resource channel cards since there is no actual resource traffic channel allocation. It also works.

Claims (5)

Transmitting a call setup request to a call processing processor in an access / paging channel and receiving a call setup response from the call processing processor at a base station call control processor; And setting a channel in the base station call control processor when the call is set up, performing a call, releasing a call, and recording a statistical value. The method of claim 1, wherein the step of transmitting a call setup request from the access / paging channel to a call processing processor and receiving a call setup response from the call processing processor at a base station call control processor, Transmitting a call setup request from the access / paging channel to the base station call control processor and receiving a call setup response; Transmitting a channel establishment request on a traffic channel by the base station call control processor; Transmitting a call setup request from the base station call control processor to the call processing processor and receiving a call setup response; And receiving the channel establishment response of the traffic channel in the base station call control processor. The method of claim 1, wherein the establishing a channel in the base station call control processor to perform a call and then releasing the call comprises: Transmitting, by the base station call control processor, a channel establishment request to the access / paging channel and receiving a channel establishment completion from the traffic channel to form a call channel; And a call channel is formed to perform a call, request call release, and record statistical values of a call state. Setting up a call channel in the base station call control processor when the personal computer transmits a call setup request to the base station call control processor; And performing a call on the set communication channel, releasing a call, and recording a statistical value. The method of claim 4, wherein the step of establishing a talk channel in the base station call control processor, Transmitting a call setup request from the personal computer to the base station call control processor and receiving a call setup response; Transmitting a channel setup request and a call setup request from the base station call control processor to the personal computer, and receiving a call setup response and a channel setup response; And transmitting a channel setting request from the base station call control processor to the personal computer and receiving a channel setting response to set up a call channel.