KR20050033326A - Fa operating method in the base station equipment - Google Patents

Abstract

A method for operating a plurality of FAs in a base station is provided to make a channel list of normal FAs for efficient FA operations with respect to a speech call and a data call, and allocate a traffic channel resource of a data only FA when a data call is requested. A method for operating a plurality of FAs in a base station comprises a step(S37) of transmitting and a step of allocating. In the transmitting step, the base station separates data only FAs from normal FAs according to a FA type, manages the separated FAs, and makes a channel list including the normal FAs to transmit the channel list to each mobile station. In the allocating step, the base station allocates a traffic channel resource of the data only FAs when a data call is requested from a predetermined mobile station located within a coverage of the base station.

Description

FA Operating Method In The Base Station Equipment

The present invention relates to FA (Frequency Assignment) operation in the base station, and in particular, for efficient FA operation for voice calls and data calls, the channel list is composed of only a normal FA, and data only when data calls are requested (Data Only). The present invention relates to a method for operating an FA at a base station to allocate a traffic channel resource of an FA.

In general, in a mobile communication system of a code division multiple access (CDMA) method, a base station operates one or more frequency assignments for frequency allocation, and each FA has an overhead channel and voice / data for access and control of a mobile station. It consists of traffic channels for the call.

The overhead channel includes a pilot channel for providing synchronization time and phase information to the mobile station, a synchronization channel for providing baseband information such as system synchronization and system parameters, and a system configuration. It consists of a number of paging channels used for parameter provision and terminal calling, and an access channel used by a mobile station for response to a call or for requesting a call channel.

These overhead channels and traffic channels are mapped to each channel element of the channel card provided in the base station, and assigned by a resource management module mounted on a base station processor (BSP), which is a base station master processor. The resource management module operates and manages the aforementioned overhead channels and traffic channels for each FA.

In addition, the base station prepares a channel list of the frequency information of the FAs it serves and transmits it to each mobile station. In this case, the channel list includes frequency information of all FAs available at the base station, and is loaded on the BSP. Maintain and manage channel lists in the Data Handling module.

Channel configuration and channel list operation of each FA in the above-described conventional base station is illustrated in the accompanying drawings, as illustrated in FIG. 1, the FA1, FA2 and FA3 managed as a channel list in the base station are respectively overhead channels (PICH, SYCH, PCH). , ACH) and traffic channels (TCH [...]) and include FAs of each other, that is, all FAs (FA1, FA2, FA3) in the channel list. When the mobile station connected to any FA requests a predetermined traffic channel for the call while managing the channel list, the mobile station can allocate the traffic channel of the corresponding FA so that the mobile station can make a call.

In the conventional base station, in configuring a channel list in a BSP, which is a master processor, FAs that are active among FAs operating in the base station are included in the channel list, and the channel list thus configured is transmitted to each mobile station.

Meanwhile, in providing a voice and data communication service in a mobile communication system, a voice call must be guaranteed in real time (a certain transmission error rate is allowed), and in the case of a data call, the transmission error rate may cause retransmission and worsen the data transmission rate. Therefore, there is a characteristic that the data transmission rate should be improved by lowering the transmission error rate. When a channel list is configured in the same manner as described above at the base station, when allocating traffic channels for voice call and data call to one FA, There was a problem that each other is adversely affected by the above-described characteristic difference. In other words, if the transmission power is lowered for the voice call, the data transmission error rate is increased, thereby deteriorating the transmission rate of other data calls assigned to the same FA. On the contrary, if the transmission power is increased to lower the transmission error rate of the data call, it is assigned to the same FA. There was a problem that causes interference to other voice calls.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to distinguish a data-only FA and a general FA from a base station to configure and manage a channel list using only a general FA, and at the same time, request a data-only FA for a mobile call. Allocating traffic channel resources of

It is another object of the present invention to construct a channel list using only general FAs and to allocate traffic channel resources of data dedicated FAs when requesting data calls, thereby assigning different FAs to voice calls and data calls having different characteristics. This, in turn, provides the efficiency and flexibility of FA operations.

It is still another object of the present invention to allocate traffic channel resources of different FAs to voice calls and data calls, thereby minimizing mutual influences between them and further providing improved voice and data quality of service.

A feature of the present invention for achieving the above object is that the base station distinguishes and manages a data dedicated FA and a general FA according to the FA type, and forms a channel list including the general FAs and transmits them to each mobile station. Process; The present invention provides a method for operating a base station in a base station including a step of allocating a traffic channel resource of the data dedicated FA when a data call is requested by a mobile station located in the base station.

The process of transmitting the channel list including the general FAs to each mobile station includes: sequentially searching for FAs managed by the terminal after initializing the channel list; Sequentially searching the FAs to determine whether the FAs are available in general or data-only FAs; And including the FAs identified as the available FAs in the channel list, constructing a channel list composed of the general FAs, and transmitting the FAs to each mobile station.

In addition, the process of allocating the traffic channel resources of the data-only FA includes: performing initial data call request processing to a general FA in which a corresponding mobile station is located when a data call request is received from any mobile station; Sequentially searching for FAs managed by the base station and extracting data-only FAs in which a traffic channel resource is available; And allocating the traffic channel resources of the data-only FA extracted from the mobile station requesting the data call.

Furthermore, as a result of sequentially searching for FAs managed by the base station, if there is no data dedicated FA with available traffic channel resources, allocating traffic channel resources of a general FA in which the mobile station requesting the data call is located; It characterized in that it further comprises.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, in operating a channel list for a voice call and a data call of a mobile station in a base station, all FAs available at a given base station are assigned to a data only FA and a normal according to the FA type (FA_TYPE). After dividing by FA, channel list is composed and managed only by general FA except data-only FA, and mobile station allocates traffic channel resource by newly allocating data-only FA when requesting data call. FA and data only FA must be operated.

That is, in the present invention, the base station uses the overhead channel (PICH, SYCH, PCH, ACH) for each FA (FA1, FA2, FA3), as shown in the channel configuration and channel list operation state of each FA illustrated in FIG. Is normally assigned, and in the channel list, only general FAs (FA1, FA3) are included, not including data-only FAs (FA2). That is, in FIG. 2, FA1 and FA3, which are general FAs, and FA2, which are data-only FAs, each have an overhead channel (PICH, SYCH, PCH, ACH) and a traffic channel (TCH [...]). Except FA2, which is a dedicated FA, only FA1 and FA3, which are general FAs, are included and managed.

By transmitting the channel list thus configured to each mobile station in the base station, each mobile station is located in the general FA (FA1 or FA3) included in the channel list. In this state, if any mobile station requests a data call, After the base station performs initial data call request processing to the general FA (ie, FA1 or FA3) where the mobile station is located, the resource management module searches for a data-only FA and allocates a traffic channel resource of FA2, which is a corresponding data-only FA, to the mobile station. To allow data communication.

The method of constructing a channel list in the base station according to the present invention described above will be described in detail with reference to FIG. 3.

First, the base station initializes the corresponding channel list for the channel list configuration (step S31), and then sequentially searches for FAs that are managed by the user one by one from the first FA (step S32), and the corresponding FA is located in the current base station. It is checked whether the FA (Active FA) in the available available state is being operated (step S33).

At this time, if it is determined that the FA is available FA, whether the corresponding FA is a general FA or a data-only FA is checked (step S34), and if it is confirmed as a general FA, it is included in the channel list (step S35). If it is confirmed as a data-only FA, it does not include it in the channel list and returns to step S32 to search for the next FA managed by its own operation.

In step S33, if the corresponding FA is identified as an FA that is not available, the base station searches for the next FA managed by the base station and returns to step S32 to form a channel list including general FAs that are available. The repetitive operation will be performed.

In addition, it is checked whether the search for all FAs is completed while performing the above-described repetitive operation (step S36), and after completing the search for all FAs, a list of channels configured so far, that is, an available state managed by the base station By transmitting the channel list composed of the general FAs to the respective mobile stations in the base station (step S37), the frequency information available to each mobile station is informed.

The traffic channel allocation operation for the data call in the base station managing and configuring the channel list as described above will be described in detail with reference to FIG. 4.

First, the base station checks whether there is a data call request from any mobile station (step S41), and if it is confirmed that there is a data call request, the base station performs initial data call request processing with the general FA (i.e., FA1) in which the corresponding mobile station is located. After that (step S42), FAs that are managed by themselves are sequentially searched (step S43), and if it is identified as a data-only FA, it is extracted (step S44).

Then, it is checked whether the traffic channel resources of the currently extracted data-only FA are available (step S45), and when it is determined that the traffic channel resources of the corresponding data-only FA are available, only data corresponding to the mobile station requesting the data call is available. The traffic channel resources of the FA are allocated (step S46).

In addition, when it is checked whether the traffic channel resources of the data-only FA extracted at step S45 are available, if the traffic channel resources of the corresponding data-only FA are found to be in an unusable state, the base station manages the next FA managed by itself. By returning to step S43 for retrieval and performing a repetitive operation, the data dedicated FA managed by the base station is extracted and the available traffic channel resources are allocated to the mobile station requesting the data call.

Although not shown in FIG. 4 in the present invention, when there is no data dedicated FA in which a traffic channel resource is available when a mobile station requests a data call, the traffic channel resource of the general FA in which the mobile station is currently allocated is allocated. .

On the other hand, the embodiment according to the present invention is not limited to the above, it can be carried out by various alternatives, modifications and changes within the scope apparent to those skilled in the art with respect to the present invention.

As described above, according to the present invention, the base station distinguishes the data dedicated FA and the general FA, configures and manages a channel list using only the normal FA, and allocates traffic channel resources of the data dedicated FA when requesting a data call of the mobile station, thereby providing different characteristics. It is possible to assign different FAs to voice calls and data calls, which can provide efficiency and flexibility in FA operation.

In addition, the present invention can allocate traffic channel resources of different FAs to voice calls and data calls, thereby minimizing mutual effects, and further providing improved voice and data quality of service.

1 is a diagram illustrating a FA channel configuration and a channel list operation state in a conventional base station.

2 is a diagram illustrating a FA channel configuration and a channel list operation state in a base station according to the present invention.

3 is a flowchart illustrating a method of constructing a channel list in a base station according to the present invention.

4 is a flowchart illustrating a traffic channel allocation operation for a data call in a base station according to the present invention.

Claims (4)

A base station classifying and managing data-only FAs and general FAs according to the FA type, and constructing a channel list including the general FAs and transmitting them to each mobile station; And allocating a traffic channel resource of the data dedicated FA when a data call is requested by any mobile station located in the base station. The method of claim 1, The process of transmitting the channel list including the general FAs to each mobile station includes: sequentially searching for FAs managed by the terminal after initializing the channel list; Sequentially searching the FAs to determine whether the FAs are available in general or data-only FAs; And including the FAs identified as the available FAs in the channel list in a channel list, constructing a channel list consisting of the general FAs, and transmitting the same to each mobile station. The method of claim 1, The process of allocating a traffic channel resource of the data dedicated FA includes: performing initial data call request processing to a general FA in which a corresponding mobile station is located when a data call request is received from any mobile station; Sequentially searching for FAs managed by the base station and extracting data-only FAs in which a traffic channel resource is available; And allocating a traffic channel resource of the extracted data dedicated FA to the mobile station requesting the data call. The method of claim 3, wherein As a result of sequentially searching for FAs managed by the base station, if there is no data-only FA in which traffic channel resources are available, allocating traffic channel resources of the general FA in which the mobile station requesting the data call is located; F operating method in the base station comprising a.