KR100447059B1 - Traffic Handling Processor Block Assignment Method of RNC in Wireless Communication System - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a method for allocating a traffic handling block of a control station in a wireless communication system.

2. The technical problem to be solved by the invention

According to the present invention, in order to efficiently use channel resources when various traffics exist and the number of channels to be allocated at the time of a call request of each traffic is different, various embodiments such as voice, packet, and video traffic can be used. A method of allocating a traffic handling block of a control station for efficiently using channel resources in an environment in which traffic types exist, and a computer-readable recording medium having recorded thereon a program for realizing the method.

3. Summary of Solution to Invention

According to the present invention, in a method for allocating a traffic handling processing (THP) block of a control station in a wireless communication system, each traffic type is dedicated based on a channel share occupied by each traffic type (a ratio of each traffic in the total channel resources). Calculating a number of the THP blocks to be used as the first step; A second step of allocating a traffic channel to the corresponding channel or a free block not used exclusively by each traffic, depending on whether or not channel allocation is possible in the THP block used exclusively at the time of the call request. ; And at the end of the call, reclaim the channel and determine whether the number of dedicated THP blocks of traffic is greater than the minimum number of dedicated THP blocks, depending on whether there is another busy channel in the THP block to which this channel belongs, and as a result And a third step of converting the THP block into a spare THP block and including it in the spare THP block.

4. Important uses of the invention

The present invention is used in a wireless communication system.

Description

Traffic Handling Processor Block Assignment Method of RNC in Wireless Communication System

The present invention relates to a traffic handling processor (THP) block allocation technique of a control station in a wireless communication system. In particular, the present invention relates to a traffic channel resource of a THP block in an IMT-2000 asynchronous system control station. To use, it searches for and allocates available channels at the time of call request, controls the assigned channel at call acceptance, and adjusts the assigned channel at the end of call so that the number of channels required by one call is different. The present invention relates to a traffic handling processing block allocation method of a control station for efficiently using channel resources in the presence of various kinds of services, and a computer-readable recording medium having recorded thereon a program for realizing the method.

In general mobile communication systems, channel resources are limited, and resources must be managed and used as efficiently as possible in order to provide a service that satisfies the needs of customers by using the limited resources. In the IMT-2000 system that accommodates various traffic such as voice, packet, and video traffic, different call quality and transmission rate are required for each traffic type, so the efficient use of channel resources becomes more important.

FIG. 1 is an explanatory diagram illustrating a case in which each general traffic type shares and uses the entire channel resource and allocates the traffic channel resource proposed by the present invention.

As shown in FIG. 1, when each type of traffic shares and uses the entire channel resource, some of the traffic channel support proposed in the present invention is used exclusively by specific traffic, and part of each traffic is required when necessary. The following describes how to allocate a spare THP block for use by changing to dedicated.

That is, FIG. 1 shows two channel allocation schemes. First, when channel resources of a channel are shared and used, each traffic shares and uses traffic channels of all THP blocks. Therefore, since there are many channels available for voice traffic with a small number of channels required by a call, the blocking probability is relatively low compared to packet and video traffic. However, each C ₂ channels and C ₃ channel the probability present in the additional increase in traffic more is C ₂ packets which require a channel and a C _3-channel video traffic for that channel is one of THP block is not allocated for requiring The lower the probability of blocking, the higher the expected probability.

Therefore, in the current technical field, some of the THP block resources are dedicated to each traffic, and some are dedicated to each traffic at a specific time using the minimum dedicated THP block allocation scheme proposed by the present invention. By changing the free THP block to a dedicated block to allocate the block, and if the number of dedicated blocks allocated at the end of the call is larger than the minimum dedicated THP block, the block is changed to a free block so that other traffic can use it. Required. Accordingly, when the number of THP blocks to be dedicated to each traffic is properly calculated and the channel is allocated at the time of call request, channel resources can be used more efficiently than when sharing resources.

The present invention has been proposed in order to meet the above-described requirements, and efficiently utilizes channel resources when there are various traffics as in the IMT-2000 system and the number of channels to be allocated at the time of call request of each traffic is different. A computer recording a traffic handling processing block allocation method of a control station for efficiently using channel resources in an environment in which various types of traffic such as voice, packet, and video traffic exist for use, and a program for realizing the method. The purpose is to provide a recording medium that can be read by.

1 is a diagram illustrating a case in which each general traffic type shares and uses the entire channel resource and a case in which the traffic channel resource proposed by the present invention is allocated.

2 is an exemplary configuration diagram of an IMT-2000 asynchronous system radio network control station (RNC) to which the present invention is applied.

3 is a diagram illustrating a channel searching process for allocating a channel to a corresponding call when a call request of voice, packet, and video traffic is performed in a THP block allocation method of a control station according to the present invention.

4 is a flowchart illustrating a control process for a call request for voice, packet, and video traffic in a THP block allocation method of a control station according to the present invention;

5 is a flowchart illustrating a control process for call termination of voice, packet, and video traffic in a THP block allocation method of a control station according to the present invention;

The present invention for achieving the above object, in the traffic handling processing (THP) block allocation method of the control station in a wireless communication system, based on the channel occupancy (rate of each of the total channel resources) occupied by each traffic type Calculating a number of the THP blocks dedicated to each traffic type; A second step of allocating a traffic channel to the corresponding channel or a free block not used exclusively by each traffic, depending on whether or not channel allocation is possible in the THP block used exclusively at the time of the call request. ; And at the end of the call, reclaim the channel and determine whether the number of dedicated THP blocks of traffic is greater than the minimum number of dedicated THP blocks, depending on whether there are other active channels in the THP block to which this channel belongs, and as a result And a third step of changing the THP block into a spare THP block and including it in the spare THP block.

In addition, the present invention, the number of the THP block dedicated to each traffic type based on the channel share (the ratio of each traffic in the total channel resources) of each traffic type in a wireless communication system having a processor A first function of calculating; A second function of allocating a traffic channel to a corresponding channel or a free block that each traffic is not dedicated to, depending on whether or not channel allocation is possible in the THP block to be used for the call request. ; And at the end of the call, reclaim the channel and determine whether the number of dedicated THP blocks of traffic is greater than the minimum number of dedicated THP blocks, depending on whether there are other active channels in the THP block to which this channel belongs, and as a result According to the present invention, there is provided a computer-readable recording medium having recorded thereon a program for realizing a third function of changing a THP block into a spare THP block and including it in the spare THP block.

In the IMT-2000 system, various services requiring different quality of service (QoS) such as voice, packet, and video traffic must be provided.

In the present invention, the 12.2 Kbps voice traffic, 64 Kbps packet traffic, and 384 Kbps video traffic is applied to the traffic handling block (THP) in the IMT-2000 Asynchronous Radio Network Controller (RNC). We propose a THP block allocation scheme for efficient use of channel resources.

Assume the amount of resources (number of channels) required by a call of 12.2 Kbps voice, 64 Kbps packet, and 384 Kbps video traffic as C ₁ channel, C ₂ channel, and C ₃ channel, respectively. It is assumed that a channel available for traffic can be allocated only if a C ₁ channel, a C ₂ channel, and a C ₃ channel exist in one traffic processing block (THP). It is assumed that one traffic processing block (THP) can accommodate 60 channels, and one subsystem includes a total of 32 THP blocks, and thus there are 1,920 channel resources.

When all traffic types share 1,920 channels for various traffic types, additional traffic is increased, and voice calls with a small number of channels required by one call have a C _{1 of} unused channels among 1,920 channels. If more than one is present, the blocking probability is almost zero since the call can be accepted.

However, in the case of packet and video traffic having a large number of channels required by a call, the probability of blocking C ₂ and C ₃ is less likely to exist in a channel that is not used in one THP block, so that the blocking probability increases. Therefore, in the present invention, in order to efficiently use the channel resources of the control station, after determining the minimum number of THP blocks so that a part of the total traffic channel resources are dedicated to a specific type of traffic, the minimum number of THP blocks is always specified. Keeps the traffic available for use, and the remaining THP blocks use the traffic channel block, which is dedicated to specific traffic according to the call situation, the control method upon call request, and the retrieval method of the allocated traffic channel block at the end of the call. present.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an exemplary configuration diagram of an IMT-2000 asynchronous system radio network control station (RNC) to which the present invention is applied, and is a resource management of an access control subsystem (ACS) in an RCS (RNC Control Subsystem) which is a control block of a radio network control station. Represents a RRMB (RNC Resource Management Block) block that is responsible for the function.

As shown in FIG. 2, the RRMB in charge of the resource management function of the access control subsystem (ACS) in the RCS (RNC Control Subsystem), which is a control block of the IMT-2000 asynchronous system Radio Network Controller (RNC) Is implemented.

The RRMB is a block that implements a management function for resources that are allocated and released dynamically by the ACS, a call processing block in the RNC. When a call is requested, a THP block is selected and a task available within the selected THP block is allocated. In other words, it performs the function of allocating when the resource is required and basically releases the function after the use of the resource is finished, and performs the functions such as the change of resource status and the recovery of errors that occur during resource management. do.

The RRMB is a method of allocating and freeing resources for call request and call release by the THP performing the traffic selection function, and selecting the THP block, which is a physical component, and a logical task within the block. The resource management method of selecting the step is used. The RRMB consists of a storage space consisting of resource information spaces and related information spaces, and initialization, management, and status units, each of which consists of a number of function calls.

FIG. 3 is a diagram illustrating a channel search process for allocating a channel to a corresponding call when a call request of voice, packet, and video traffic is performed in a THP block allocation method of a control station according to the present invention. In order to allocate a channel to a corresponding call when a call of traffic is requested, a description is given of a process of searching for a channel not currently used in a dedicated THP block area and a spare THP block area.

The operation of the traffic handling processing block allocation method of the control station in the wireless communication system of the present invention having the above structure will be described in detail as follows.

According to the present invention, the number of THP blocks to be used exclusively by each traffic type is calculated based on the occupancy rate of the channel that is expected to be occupied by each traffic type requiring different transmission rates for each traffic type, and the actual input traffic is estimated. Because there may be differences from the traffic, prepare a spare THP block that can be used by various traffic types.

Therefore, when a call request is made, first, it is checked whether channel allocation is possible in the dedicated THP block area, and if possible, a channel is allocated to the call request. Otherwise, a spare THP block that each traffic is not dedicated to. A dedicated THP block is allocated to the channel to allocate a channel. If there is no spare THP block, the call request is rejected. At the end of the call, the channel is recovered first, and if there are no other busy channels in the THP block to which this channel belongs, and the number of dedicated THP blocks for this traffic is larger than the minimum number of dedicated THP blocks, this THP block is free. To include in the spare THP block area.

Therefore, it is necessary to determine the minimum number of THP blocks that each traffic type uses exclusively. Based on the estimated amount of traffic (the rate of occupying the entire channel for each traffic) in the system implementation, Calculate the number. In addition, the minimum number of THP blocks to be used exclusively is calculated from traffic having a large amount of resources (number of channels) required by one call, that is, from a traffic type requiring a high transmission rate.

First, the number of channels to be allocated for each traffic type is calculated as follows based on the channel occupancy of each traffic type (the ratio of each traffic to the total channel resources). The ratio of channel resources occupied by 12.2 Kbps voice, 64 Kbps packet, and 384 Kbps video traffic Let C be the total amount of channel resources (number of channels). Then, the number of channels required for voice traffic of 12.2 Kbps, packet traffic of 64 Kbps, video traffic of 384 Kbps, Is calculated by Equation 1 below based on the channel occupancy of each traffic type.

The number of THPs to allocate for each traffic type Is calculated as shown in Equation 2 below.

On the other hand, since channel resources are separated and used in THP units (one THP consists of 60 channels), taking an integer value, the minimum number of THP blocks that can be allocated exclusively to video and packet traffic. Is calculated as shown in Equation 3 below.

here, Is the maximum of integers less than or equal to X.

Is a weighting factor determined by the user so that the user can adjust the number of channels according to the call occurrence situation when obtaining the minimum number of THP blocks that video and packet traffic can use exclusively. The sum should be weighted so that the sum does not exceed 32. Also, if you want to determine the minimum number of THP blocks that 12.2 Kbps of voice traffic can use exclusively, the number of THP Is calculated as shown in Equation 4 below.

Where S is the minimum number of free THP blocks, Has a range of.

Also, since it is impossible to accurately predict the amount of each input traffic, each type of traffic All free THP blocks can be shared except for. Then, theoretically, each traffic type is the maximum number of THP blocks available. Is calculated as shown in Equation 5 below.

Here, the voice, packet, and video traffic means that all remaining THP blocks other than the dedicated THP block area can be changed to be used as a dedicated.

4 and 5, which will be described later, a method of allocating a THP block of a control station according to an embodiment of the present invention will be described in detail.

4 is a flowchart illustrating a control process for a call request for voice, packet, and video traffic in a THP block allocation method of a control station according to the present invention.

As shown in FIG. 4, in the THP block allocation method of the control station according to the present invention, a control process for a call request of voice, packet, and video traffic is first received by a voice, packet, and video call. If an allocation request is made (401), the THP block area allocated for use only for the corresponding traffic (voice call is the area A of Figs. 1 and 3, packet call is the B area of Figs. It is checked whether there is a usable channel in region 1 and region C of FIG. 3 (402).

The check result 402, if there is a channel available, allocates a channel to the call request (403), otherwise checks if there is a spare THP block (S region in FIGS. 1 and 3) (404).

The check result 404, if there is a free THP block available, includes this THP block in the traffic-only THP block area and allocates a channel for that call (405). If there is no spare THP block, the corresponding block is blocked (406).

5 is a flowchart illustrating a control process for call termination of voice, packet, and video traffic in a THP block allocation method of a control station according to the present invention.

As shown in FIG. 5, in the THP block allocation method of the control station according to the present invention, the control process for the call termination of voice, packet, and video traffic is terminated when the call is terminated and the control station requests termination of the channel (501). First, the allocation of the currently allocated channel is terminated (502), and it is checked whether there is a channel allocated to another call in the THP block to which this channel belongs (503).

The check result 503 shows the number of traffic-only THP blocks if no channel is allocated. (504).

As a result of the comparison (504), the number of call-only THP blocks If greater than this THP block is added to the free THP block area (505), and the number of traffic-only THP blocks If it is less than or equal to the system, the system is shut down. If there is a channel assigned to another call in the THP block to which this channel belongs, the system is shut down.

The method of the present invention as described above may be implemented as a program and stored in a computer-readable recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.).

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the present invention provides a channel block calculation method dedicated to each traffic type and an THP allocated exclusively for a call request in an environment in which there are various types of traffic such as voice, packet, and video traffic. If the channel is allocated to the block area first, and if there is no available channel, it checks whether there is an available THP in the free THP block area, allocates the channel, and converts the dedicated THP block to the free THP block according to the situation. By changing, the channel resource can be used more efficiently than when the entire radio resource is shared and used.

Claims (6)

A method for allocating a traffic handling processing (THP) block of a control station in a wireless communication system, A first step of calculating the number of the THP blocks each traffic type uses exclusively based on the channel occupancy (the ratio of each traffic among the total channel resources) of each traffic type; A second step of allocating a traffic channel to the corresponding channel or a free block not used exclusively by each traffic, depending on whether or not channel allocation is possible in the THP block used exclusively at the time of the call request. ; And At the end of the call, the channel is recovered and the number of dedicated THP blocks of traffic is greater than the minimum number of dedicated THP blocks, depending on whether there are other busy channels in the THP block to which they belong. The third step of changing the THP block into a spare THP block accordingly Traffic handling processing block allocation method of a control station in a wireless communication system comprising a. The method of claim 1, The first step is, A fourth step of calculating each traffic allocation channel number to calculate the number of minimum dedicated THP blocks using weights to adjust some channel numbers according to channel occupancy or call occurrence situation occupied by the predicted traffic type; A fifth step of calculating the number of THP blocks to be allocated to each of the traffic types; And Sixth step of calculating the minimum number of dedicated THP blocks for data, video traffic, and voice traffic Traffic handling processing block allocation method of a control station in a wireless communication system comprising a. The method according to claim 1 or 2, The process of calculating the number of the minimum dedicated THP blocks, A seventh step of calculating the number of minimum dedicated THP blocks of each traffic; An eighth step of setting a THP block as a dedicated block for each traffic by the number of minimum dedicated THP blocks after performing the seventh step; And The ninth step of setting a minimum dedicated THP block for each traffic and setting the remaining THP blocks as free THP blocks Traffic handling processing block allocation method of a control station in a wireless communication system comprising a. The method of claim 3, wherein The second step, And assigning a call to an available channel by controlling channel resources in the calculated dedicated THP block area and the spare THP block area to control the call. The method of claim 3, wherein The third step, When the number of dedicated THP blocks currently in use is larger than the calculated number of dedicated THP blocks, the traffic handling of the control station in the wireless communication system is characterized by converting the THP blocks into free THP blocks for use by other types of traffic. Process block allocation method. In a wireless communication system having a processor, A first function of calculating the number of the THP blocks dedicated to each traffic type based on the channel occupancy (the ratio of each traffic among the total channel resources) occupied by each traffic type; A second function of allocating a traffic channel to a corresponding channel or a free block that each traffic is not dedicated to, depending on whether or not channel allocation is possible in the THP block to be used for the call request. ; And At the end of the call, the channel is recovered and the number of dedicated THP blocks of traffic is greater than the minimum number of dedicated THP blocks, depending on whether there are other busy channels in the THP block to which they belong. A third function of changing the THP block into a spare THP block accordingly and including it in the spare THP block A computer-readable recording medium having recorded thereon a program for realizing this.