KR100456239B1 - Method for Resource Assigning in Radio Mobile Communication System - Google Patents

Abstract

The present invention relates to a method for allocating a resource in a wireless mobile communication system that allows a control station to share resource information of a base station so as to efficiently use resources.

Conventionally, since the BSC does not manage the resources for the BTS in allocating resources for data, the BTS additionally allocates / recovers the resources of the BTS according to the request of the BSC, and the BSC continues to allocate resources to the BTS whenever additional resources are needed. It is supposed to demand. Therefore, there is a problem that can not provide the subscriber with the stability and efficient data service of the system.

The present invention reports the resource information currently available in the BSP to the CCP of the BSC at a predetermined time interval in the BSP of the BTS performing the data call service in conjunction with the CCP of the BSC, and the CCP transmits this information to the selector to selector. By determining whether to add the resource allocation based on the reported resource information, it is possible to efficiently use the resources and at the same time stabilize the system.

Description

Resource allocation method in wireless mobile communication system {Method for Resource Assigning in Radio Mobile Communication System}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resource allocation method in a wireless mobile communication system, and more particularly, to a resource allocation method in a wireless mobile communication system in which a control station can share resource information of a base station to efficiently use resources.

In the existing IS-95 series system which mainly performs voice communication using the synchronous method, the data call is processed using the voice call resource without allocating a separate resource for the data call.

On the other hand, the IS-95B wireless standard, which defines medium data rate data service that increased the existing 8K / 13K data rate from 64Kbps to 104Kbps, was introduced, so the data rate is supported at 64Kbps or higher. Accordingly, the concept of resource allocation for data calls and quality of service (QoS) for data services has emerged.

1 is a flowchart illustrating a resource allocation method in a conventional IS-95B system.

First, the selector provided in the base station controller (BSC) to control traffic is a higher level processor (hereinafter referred to as CCP (Call) that controls the entire BSC to process the traffic when the traffic packets flowing from the packet network are accumulated in a buffer. Control processor), and additional resource allocation is requested (S10, S12).

The CCP, which is requested to allocate additional resources from the selector in step S12, further allocates resources to a BTS controller (hereinafter referred to as a BTS control processor) of a BTS (Base Transceiver System) that processes a data call currently being processed. (S14).

In step S14, the BSP, which is requested to allocate additional resources from the CCP of the BSC, determines whether there are free resources, and if there are free resources, allocates resources according to the additional resource allocation request of the CCP and reports them to the CCP. If there is no free resource, the failure to allocate the resource is reported to the CCP (S16, S18, S20, S22).

On the other hand, the CCP requesting the additional resource allocation to the BSP of the BTS through the above process S14 receives the result of the additional resource allocation from the BSP and transfers it to the selector (S24), and the selector receiving the reception result from the CCP receives the reception result. If the additional resource allocation is successfully performed, the terminal requests to increase the data rate by transmitting the additionally allocated resource information to the corresponding mobile terminal. If the resource allocation is not successful, the traffic continuously flowing from the packet network is handled. To this end, the CCP continues to request additional allocation of resources (S26 and S28).

As described above, conventionally, in allocating a resource for data, the BTS resource is additionally allocated / recovered according to the request of the BSC, so that the BSC continuously requests the resource to the BTS whenever additional resources are needed. .

That is, when there is no spare resource in the BSP, signaling procedures for additional resource request and failure response continue to occur between the BSC and the BTS, thereby increasing the signaling load of the system.

Therefore, a problem arises that the system fails to provide the subscriber with stability and efficient data service.

The present invention has been made to solve the above-described problem, and the selector determines whether to add the resource allocation based on the resource information reported by the BTS to the BSC at a predetermined time interval, thereby efficiently using the resource without additional signaling procedure. An object of the present invention is to provide a resource allocation method in a wireless mobile communication system.

1 is a flowchart for explaining a resource allocation method in a conventional IS-95B system.

2 is a diagram illustrating a configuration of an IS-2000 system to which a resource allocation method according to the present invention is applied.

3 to 4b are flowcharts illustrating a resource allocation method in the IS-2000 system according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10-1, 10-2. Base Transceiver System (BTS),

10-1a, 10-2a. BTS (BTS Control Processor),

20. Base Station Controller (BSC), 20a. Selector,

20b. Call Control Processor (CCP), 30. MSC

According to an aspect of the present invention, there is provided a method of allocating a resource in a wireless mobile communication system, the method comprising: periodically receiving resource information currently available at the base station from a base station controller for processing the data call; When additional resource allocation is required, determining whether to allocate additional resources by referring to the received resource information; Requesting additional allocation of resources to the call controller when additional resource allocation is possible as a result of the determination; Receiving a result of resource allocation and transferring the result to the traffic controller; And if the additional allocation of resources is successfully performed according to the received result, transmitting the additionally allocated resource information to the corresponding mobile terminal.

Here, the process of periodically receiving the resource information from the base station, the base station control unit of the base station to check whether there is available resources at a predetermined time interval and to transfer the resource information currently available at the base station to the call control unit; ; And transmitting the received resource information from the call controller to the traffic controller.

And when a handoff occurs due to a movement of a subscriber provided with the data call service, requesting handoff from the base station controller of the base station currently performing the data call processing to the call controller; Requesting handoff from the call control unit to a base station control unit of another base station to perform the data call processing according to the handoff request; Allocating a resource to be used for data call processing to be handed off by checking whether there is an available resource in a base station controller of the other station according to the handoff request; Transmitting resource information currently available at the other station to the call processor in a response message including the resource allocation result; Analyzing, by the call processor, the received response message to determine whether resource allocation is successful; If the resource allocation is successful as a result of the determination, transmitting a command to the traffic controller to perform a handoff procedure including resource information allocated to the data call to be handed off and resource information currently available at the other station. Process; And performing a handoff with the corresponding mobile terminal according to the handoff procedure execution command.

Further, when the resource allocation fails as a result of the determination, the method further comprises the step of transmitting a command to stop the handoff procedure to the traffic control unit.

The base station control unit of the other base station processing the handed-off data call in cooperation with the call control unit checks whether there are available resources at a predetermined time interval, and transmits resource information currently available at the other base station to the call control unit. Process of doing; Transmitting the received resource information from the call controller to a traffic controller; Determining whether additional resource allocation is required according to the traffic received from the packet network in the traffic controller which has received the resource information through the call controller; If it is determined that additional resource allocation is necessary, determining whether resource allocation is possible with reference to the resource information; If the resource allocation is possible as a result of the determination, the method further comprises the step of requesting additional resource allocation to the call controller.

Hereinafter, a resource allocation method in a wireless mobile communication system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram illustrating a configuration of an IS-2000 system to which a resource allocation method according to the present invention is applied, Base Transceiver System (BTS) 10-1, 10-2, Base Station Controller (BSC) 20, And a mobile switching center (MSC) 30.

In such a configuration, the BTSs 10-1 and 10-2 are directly connected to the subscriber station by performing baseband signal processing, wired / wireless conversion, and transmission and reception of radio signals, and the BTSs 10-1 and 10. -2) BSPs 10-1a and 10-2a for controlling the whole.

The BSC 20 is a system that is located between the BTSs 10-1 and 10-2 and the MSC 30 to manage and control the BSC 20. The BSC 20 flows in from a packet network through a PDSN (Packet Data Serving Node). And a selector 20a for controlling traffic, and a Call Control Processor (CCP) 20b for controlling a call in the BSC 20.

MSC (30) is a wired / wireless hybrid digital switch that provides wired communication (PSTN / ISDN) and mobile communication functions. It provides basic and additional service processing, incoming and outgoing call processing, subscriber registration and handoff. Perform procedural processing functions.

3 to 4b are flowcharts illustrating a resource allocation method in the IS-2000 system according to the present invention.

First, as shown in FIG. 3, the BSP 10-1a of the BTS 10-1 which started data call service in association with the CCP 20b of the BSC 20 has available resources at predetermined time intervals. And the resource information currently available in the BTS 10-1 is transferred to the CCP 20b of the BSC 20 (S30 and S32).

The CCP 20b, which has received the resource information currently available in the BTS 10-1 from the BSP 10-1a through the process S32, selects the resource information received from the BSP 10-1a 20a. Transfer to (S34).

The selector 20a, which has received the resource information currently available in the BTS 10-1 from the BSP 10-1a through the CCP 20b, allocates additional resources for processing traffic received from the packet network during data call processing. If necessary, it is determined whether additional resource allocation is possible by referring to the resource information currently available in the BTS 10-1 received from the BSP 10-1a through the CCP 20b (S36 and S38).

If the additional resource allocation is not possible as a result of the determination of step S38, the additional resource allocation request is not performed to the CCP 20b (S40). If the additional resource allocation is possible, the additional resource allocation is performed to the CCP 20b. Request (S42).

In step S42, the CCP 20b that is requested to allocate additional resources from the selector 20a requests additional allocation of resources to the BSP 10-1a of the BTS 10-1 that processes the corresponding data call. The result of the additional resource allocation is reported from the BSP 10-1a and transmitted to the selector 20a (S44).

The selector 20a receiving the additional resource allocation result from the CCP 20b, when the additional resource allocation is successfully performed according to the reception result, requests the mobile terminal to increase the data rate by delivering additional allocated resource information to the corresponding mobile terminal. If the resource allocation is not successful, it is checked whether additional resource allocation is possible continuously in order to process the traffic continuously flowing from the packet network (S46 and S48).

As described above, when a mobile subscriber who has received data call service through the BTS 10-1 and the BSC 20 moves from a current cell to a neighboring cell, a handoff procedure is performed. 4A and 4B, when a handoff occurs, the BSP 10-1a of the BTS 10-1 currently performing data call processing of the mobile subscriber is the neighbor to which the mobile subscriber has moved. In order to keep the call in the other BTS (10-2) in charge of the cell is required to handoff to the CCP (20b), CCP (20b) is requested to handoff from the BSP (10-1a) The mobile subscriber requests a handoff to the BSP 10-2a of the other BTS 10-2 that manages the cell in which the mobile subscriber is located (S50, S52, S54).

In step S54, the BSP 10-2a of the other BTS 10-2 that is requested to handoff from the CCP 20b checks whether there are available resources (S56).

If the available resource does not exist as a result of the check in step S56, the resource is not allocated. If the available resource exists, the resource to be used for the data call processing to be handed off is allocated according to the handoff request (S58 and S60). .

After allocating resources to be used for data call processing to be handed off in step S60, a response message including the resource allocation result according to the handoff request is transmitted to the CCP 20b of the BSC 20. In addition, the response message includes the resource information currently available in the other BTS 10-2 together and is transmitted (S62).

In the CCP 20b receiving the response message from the BSP 10-2a of the other BTS 10-2 in step S62, the response message received from the BSP 10-2a of the other BTS 10-2. It is determined whether the resource allocation to be used for the data call processing to be handed off is successful (S64).

When the resource allocation fails as a result of the determination in step S64, the commander 20a transmits a command to stop the handoff procedure according to the handoff request to the selector 20a. At this time, the CCP 20b fails to allocate the resource. And, the other BTS (10-2) and transmits the currently available resource information together (S66).

On the other hand, if the resource allocation is successful as a result of the determination of step S64, the command to perform a handoff procedure according to the handoff request to the selector 20a, the CCP (20b) is to be handed off The resource information allocated to the data call and the resource information currently available in the other BTS 10-2 are transferred together (S68).

The selector 20a that has received a command to perform a handoff procedure from the CCP 20b in step S68 performs a handoff procedure with the corresponding mobile terminal according to the handoff execution command (S70).

As described above, the BSP 10-2a of the other BTS 10-2 processing the data call handed off in conjunction with the CCP 20b by the successful handoff procedure is available at predetermined time intervals. It checks whether there is, and transmits the resource information currently available in the other BTS (10-2) to the CCP (20b) of the BSC (20) (S72, S74).

The CCP 20b that has received the resource information currently available in the other BTS 10-2 from the BSP 10-2a of the other BTS 10-2 through the above-described process S74 is the other BTS 10-2. The resource information received from the BSP 10-2a is transferred to the selector 20a (S76).

The selector 20a which has received the resource information currently available in the other BTS 10-1 from the BSP 10-2a of the other BTS 10-2 via the CCP 20b is received from the packet network during data call processing. If additional resource allocation is required according to the traffic, referring to the resource information currently available in the other BTS 10-2 received from the BSP 10-2a of the other BTS 10-2 through the CCP 20b, It is determined whether to allocate resources (S78, S80).

If the additional resource allocation is not possible as a result of the determination of step S80, the additional resource allocation request is not performed by the CPCP 20b (S82), and when additional resource allocation is possible, the additional resource allocation is performed by the CCP 20b. Request (S84).

In step S84, the CCP 20b that is requested to allocate additional resources from the selector 20a requests additional allocation of resources to the BSP 10-2a of the BTS 10-2 that processes the corresponding data call. The result of the additional resource allocation is received from the BSP 10-2a and transmitted to the selector 20a (S86).

The selector 20a receiving the additional resource allocation result from the CCP 20b, when the additional resource allocation is successfully performed according to the reception result, requests the mobile terminal to increase the data rate by delivering additional allocated resource information to the corresponding mobile terminal. If the resource allocation is not successful, it is checked whether additional resource allocation is possible continuously in order to process the traffic continuously flowing from the packet network (S88, S90).

The resource allocation method in the wireless mobile communication system of the present invention is not limited to the above-described embodiments, and may be variously modified and implemented within the range allowed by the technical idea of the present invention.

According to the resource allocation method in the wireless mobile communication system of the present invention as described above, available in the current BSP as the CCP of the BSC at a predetermined time interval in the BSP of the BTS performing data call service in conjunction with the CCP of the BSC By reporting the resource information and determining whether to add resource allocation based on the reported resource information, it is possible to help efficient resource utilization and stable operation of the system.

Claims (6)

A resource allocation method in a wireless mobile communication system for allocating additional resources by requesting from a traffic controller of a control station to a call controller when additional resource allocation is required during a data call service, Periodically receiving resource information currently available in the base station from the base station controller processing the data call; When additional resource allocation is required, determining whether to allocate additional resources by referring to the received resource information; Requesting additional allocation of resources to the call controller when additional resource allocation is possible as a result of the determination; Receiving a result of resource allocation and transferring the result to the traffic controller; And if the additional allocation of resources is successfully performed according to the received result, transmitting the additionally allocated resource information to a corresponding mobile terminal. The method of claim 1, wherein the periodically receiving resource information from the base station comprises: Checking whether there is an available resource at a predetermined time interval by a base station controller of the base station and transferring resource information currently available at the base station to the call controller; And transmitting the received resource information from the call control unit to the traffic control unit. The method of claim 1, further comprising: requesting handoff from the base station control unit of the base station currently performing the data call processing to the call control unit when a handoff occurs due to the movement of the subscriber receiving the data call service; Requesting handoff from the call control unit to a base station control unit of another base station to perform the data call processing according to the handoff request; Allocating a resource to be used for data call processing to be handed off by checking whether there is an available resource in a base station controller of the other station according to the handoff request; Transmitting resource information currently available at the other station to the call processor in a response message including the resource allocation result; Analyzing, by the call processor, the received response message to determine whether resource allocation is successful; If the resource allocation is successful as a result of the determination, transmitting a command to the traffic controller to perform a handoff procedure including resource information allocated to the data call to be handed off and resource information currently available at the other station. Process; And performing a handoff with a corresponding mobile terminal according to the command for performing the handoff procedure. 4. The method of claim 3, further comprising: transmitting a command to stop the handoff procedure to the traffic controller when resource allocation fails as a result of the determination. 4. The method of claim 3, wherein the base station controller of the other station that processes the handed-off data call in conjunction with the call controller checks whether there are available resources at predetermined time intervals to determine the resource information currently available at the other station. Transmitting to a call controller; Transmitting the received resource information from the call controller to a traffic controller; Determining whether additional resource allocation is required according to the traffic received from the packet network in the traffic controller which has received the resource information through the call controller; If it is determined that additional resource allocation is necessary, determining whether resource allocation is possible with reference to the resource information; If the resource allocation is possible as a result of the determination, the method further comprises the step of requesting additional resource allocation to the call control unit. The method of claim 1, wherein the wireless mobile communication system complies with the IS-2000 standard.