KR100335630B1 - Method for allocation basestation transceiver subsystem traffic channel in cdma system - Google Patents

Abstract

The present invention provides a method for allocating a base station traffic channel in a CDA mobile communication system, and more specifically, sets a voice and data traffic channel threshold for each base station when allocating a traffic channel of the base station so that traffic channel allocation is possible within each traffic channel threshold. The present invention relates to a method for allocating a base station traffic channel in a CDMA mobile communication system. The method for allocating a base station traffic channel in a CDMA mobile communication system according to the present invention provides maximum traffic channels for a general voice subscriber and a data communication subscriber. There is an excellent effect of providing a higher quality mobile communication service to users by achieving a relatively increased traffic channel capacity in the base station.

Description

METHODS FOR ALLOCATION BASESTATION TRANSCEIVER SUBSYSTEM TRAFFIC CHANNEL IN CDMA SYSTEM}

The present invention relates to a base station traffic channel allocation method in a code division multiple access (CDMA) mobile communication system, and more particularly, by setting a voice and data traffic channel threshold for each base station when assigning a traffic channel of a base station. The present invention relates to a base station traffic channel allocation method in a CDA mobile communication system that enables traffic channel allocation only within a traffic channel threshold.

As is well known, the current CDMA mobile communication system provides not only voice communication service but also data communication service such as text, video, image, etc. to the user, and data service is expected to develop more actively in the future. Accordingly, the base station in the current general CDA mobile communication system is provided with a plurality of channel elements to perform not only voice communication but also data communication.

In the conventional CDMA mobile communication system, the traffic channel allocation method of the base station is unconditional regardless of whether the traffic channel allocation request is an allocation request for a voice traffic channel or an allocation request for a data traffic channel. A method of selecting and assigning one unused channel element among a plurality of channel elements was used.

However, when the traffic channel of the base station is allocated using the conventional method as described above, the typical problem of the data communication service in the data communication service, that is, the call channel occupancy and the call channel rate is higher than that of the voice communication service, is relatively high. As a result, base station traffic channel capacity is reduced, which degrades the call quality of general voice communication subscribers.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to ensure a higher quality of traffic channel for general voice subscribers and data communication subscribers, thereby allowing users to move higher quality. The present invention provides a method for allocating a base station traffic channel in a CDA mobile communication system for providing a communication service.

In order to achieve the above object, the present invention provides a method for allocating a base station traffic channel in a CDMA mobile communication system, comprising: a control station having a CCP for outputting a traffic channel assignment command to a base station when a call is attempted or a handoff is performed; And a BCP for allocating one channel element among a plurality of channel elements to connect a call when receiving a traffic channel allocation command from the CCP in the control station, and a plurality of channel elements for performing modulation / demodulation functions for one call. In the base station traffic channel allocation method using a base station traffic channel allocation apparatus in a CDMA mobile communication system composed of one base station,

A first step of transmitting a traffic channel assignment command to the BCP in the base station as the CCP in the control station attempts a call or performs a handoff;

A second step of the BCP in the base station determining whether the new traffic channel is voice traffic or data traffic;

If the new traffic channel is voice traffic in the second step, the BCP reads and recognizes the voice traffic channel threshold already set in its internal memory;

A fourth step of determining, by the BCP, the number of channel elements currently being used for voice traffic among a plurality of channel elements;

A fifth step of comparing the number of channel elements currently used by the BCP for voice traffic with a voice traffic channel threshold; And

If the number of channel elements currently being used as voice traffic in the fifth step is less than the voice traffic channel threshold, the BCP is configured to return after allocating a new voice traffic channel among a plurality of unused channel elements. It features.

1 is a functional block diagram showing the configuration of a base station traffic channel allocation apparatus in a CDA mobile communication system according to an embodiment of the present invention;

2 is an operation flowchart showing a base station traffic channel allocation method in a CDA mobile communication system according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

100: control station 101: CCP

200: base station 201: BCP

202: channel element

Hereinafter, a method for allocating a base station traffic channel in a CDA mobile communication system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram of a base station traffic channel allocation apparatus in a CDA mobile communication system according to an embodiment of the present invention. The base station traffic channel allocation apparatus in a CDA mobile communication system according to an embodiment of the present invention is a CCP ( A control station 100 having a Call Control Processor (hereinafter referred to as CCP) 101; BCP (hereinafter referred to as BCP) 201 and a base station 200 having a plurality of channel elements 202.

The CCP 101 mounted in the control station 100 includes call processing control functions such as call setup and call release, handoff processing functions related to soft handoff and hard handoff, selector management function, paging support function, and overload control. A processor that performs a function and a function related to system maintenance, and outputs a traffic channel allocation command to the BCP 201 in the base station 200 when a call is attempted or a handoff is performed.

On the other hand, the BCP 201 mounted in the base station 200 controls / manages the sub-devices mounted in the base station 200, provides a smooth interface between the control station 100 and the sub-devices, The processor performs the functions of call processing, shape information management, statistics and measurement, and error / error processing, which are inherent in 200), and stores the voice traffic channel allocation threshold and data traffic channel allocation threshold in the internal memory. It receives a traffic channel allocation command from the CCP 101 in the control station 100 and allocates one channel element 202 of the plurality of channel elements 202 to connect a call.

In addition, the plurality of channel elements 202 mounted in the base station 200 performs a role of performing a modulation / demodulation function for one call when performing call processing.

Next, a method of allocating a base station traffic channel in a CDA mobile communication system according to an embodiment of the present invention using a base station traffic channel assignment apparatus in a CDA mobile communication system having the above configuration will be described.

2 is a flowchart illustrating a method for allocating a base station traffic channel in a CDA mobile communication system according to an embodiment of the present invention.

First, when the call is attempted or the handoff is performed, the CCP 101 in the control station 100 transmits a traffic channel assignment command to the BCP 201 in the base station 200 (S1).

Then, the BCP 210 in the base station 200 receives a traffic channel allocation command output from the CCP 101 in the control station 100 and simultaneously inputs a new traffic channel to be assigned as voice traffic or data traffic. It is determined whether or not the recognition (S2).

At this time, if the new traffic channel is voice traffic in the second step (S2), the BCP 201 reads the voice traffic channel threshold set in its internal memory and recognizes it (S3). Here, the voice traffic channel threshold is, for example, when the total number of channel elements 202 mounted in the base station 200 is 20, the maximum channel element that can be allocated to voice traffic among the 20 traffic channels. It means the number of. Thus, the channels that can be allocated for voice traffic among the entire channel element 202 can never exceed the voice traffic channel threshold described above.

Thereafter, the BCP 201 determines the number of channel elements 202 currently being used as voice traffic among the plurality of channel elements 202 (S4).

Subsequently, the BCP 201 compares the number of channel elements 202 currently used for voice traffic with the voice traffic channel threshold (S5).

At this time, if the number of channel elements 202 currently being used for voice traffic in the fifth step S5 is less than the voice traffic channel threshold, the BCP 201 may generate a new voice among the plurality of unused channel elements 202. It allocates one traffic channel and returns it (S6).

On the other hand, if the number of channel elements 202 currently being used for voice traffic in the fifth step S5 is equal to the voice traffic channel threshold, then the BCP 201 in the base station 200 has a new voice traffic channel allocation. After transmitting a message that it is impossible to the CCP 101 in the control station 100, the process proceeds to the first step S1 (S7).

On the other hand, if the new traffic channel is data traffic in the second step (S2), the BCP 201 reads and recognizes the already set data traffic channel threshold in its internal memory (S8). Here, the data traffic channel threshold is, for example, when the total number of channel elements 202 mounted in the base station 200 is 20, the maximum channel element that can be allocated as data traffic among the 20 traffic channels. It means the number of (202). Thus, the channels that can be allocated for data traffic in the entire channel element 202 can never exceed the data traffic channel threshold described above.

Thereafter, the BCP 201 determines the number of channel elements 202 currently being used as data traffic among the plurality of channel elements 202 (S9).

Subsequently, the BCP 201 compares the number of channel elements currently being used as data traffic with the data traffic channel threshold (S10).

In this case, if the number of channel elements currently being used as data traffic in the tenth step S10 is less than the data traffic channel threshold, the BCP 201 establishes a new data traffic channel among the plurality of unused channel elements 202. After the allocation, the process proceeds to the first step S1 again (S11).

On the other hand, if the number of channel elements 202 currently being used for data traffic in the tenth step S10 is the same as the data traffic channel threshold, the BCP 201 in the base station 200 has a new data traffic channel allocation. After transmitting a message that it is impossible to the CCP 101 in the control station 100, the process proceeds to the first step S1 (S12).

As described above, according to the method for allocating a base station traffic channel in a CDA mobile communication system according to the present invention, when assigning a traffic channel of a base station, a voice and data traffic channel threshold is set for each base station so that traffic channel allocation is performed only within each traffic channel threshold. In addition to ensuring maximum traffic channels for general voice subscribers and data communication subscribers, this enables the increase of the relative traffic channel capacity within the base station to provide higher quality mobile communication services to users. There is an outstanding effect.

Claims (4)

A control station having a CCP for outputting a traffic channel assignment command to the base station when a call is attempted or a handoff is performed; And a BCP for allocating one channel element among a plurality of channel elements to connect a call when receiving a traffic channel allocation command from the CCP in the control station, and a plurality of channel elements for performing modulation / demodulation functions for one call. In the base station traffic channel allocation method using a base station traffic channel allocation apparatus in a CDMA mobile communication system composed of one base station, A first step of transmitting a traffic channel assignment command to the BCP in the base station as the CCP in the control station attempts a call or performs a handoff; A second step of the BCP in the base station determining whether the new traffic channel is voice traffic or data traffic; If the new traffic channel is voice traffic in the second step, the BCP reads and recognizes the voice traffic channel threshold already set in its internal memory; A fourth step of determining, by the BCP, the number of channel elements currently being used for voice traffic among a plurality of channel elements; A fifth step of comparing the number of channel elements currently used by the BCP for voice traffic with a voice traffic channel threshold; And If the number of channel elements currently being used as voice traffic in the fifth step is less than the voice traffic channel threshold, the BCP is configured to return after allocating a new voice traffic channel among a plurality of unused channel elements. A base station traffic channel allocation method in a CDMA mobile communication system. The method of claim 1, In the fifth step, if the number of channel elements currently being used for voice traffic is equal to the voice traffic channel threshold, the first BCP in the base station transmits a message indicating that a new voice traffic channel cannot be allocated to the CCP in the control station. And a seventh step of advancing to the step. The method of claim 1, An eighth step of, if the new traffic channel is data traffic in the second step, the BCP reads and recognizes the already set data traffic channel threshold in its internal memory; A ninth step of identifying, by the BCP, the number of channel elements currently being used as data traffic among a plurality of channel elements; A tenth step of comparing the number of channel elements currently used by the BCP for data traffic with a data traffic channel threshold; And If the number of channel elements currently being used as data traffic in the tenth step is less than the data traffic channel threshold, the BCP allocates a new data traffic channel among a plurality of unused channel elements and proceeds to the first step. A base station traffic channel allocation method in a CDA mobile communication system, comprising 11 steps. The method of claim 3, wherein In the tenth step, if the number of channel elements currently being used as data traffic is equal to the data traffic channel threshold, the first BCP in the base station transmits a message to the CCP in the control station that a new data traffic channel cannot be allocated, and then the first number. And a twelfth step proceeding to the step.