KR20020051656A - Resource assinment method in mobile communication systems - Google Patents

Abstract

PURPOSE: A method for allocating resources in a mobile system is provided to make a quick fault recovery by making a Node B reallocate a resource having a fault in case that the fault is generated in the Node B. CONSTITUTION: If an RNC(Radio Network Controller) transmits a cell setup request message to the software of a Node B in a UMTS(Universal Mobile Telecommunication System) using an NBAP(Node B Application Protocol)(S100), the software of the Node B stores channel creation information based on the cell setup request message. Then the software of the Node B transmits a channel creation command message to the hardware of the Node B(S101). And the software of the Node B transmits a cell setup response message to the RNC(S102). Receiving the cell setup response message, the RNC transmits a common transport channel setup request message to the software of the Node B(S103). The software of the Node B stores channel creation information dependent on the common channel setup request message. Then the software of the Node B transmits a channel creation command message to the hardware of the Node B(S104). And the software of the Node B transmits a common transport channel setup response message to the RNC(S105). In case that a fault is generated at the hardware of the Node B, a fault generation indication message is transferred to the software of the Node B(S106). The software of the Node B looks for a channel allocated to the fault resource. In case that a major channel has been allocated to the fault resource, the software of the Node B reallocates a resource not having a fault using the stored channel creation information and creates a channel(S107). Then the software of the Node B transmits a resource status indication message to the RNC using the NBAP(S108).

Description

Resource allocation method in mobile communication systems

The present invention relates to the next generation mobile communication, and more particularly, to a resource allocation method of a mobile communication system adapted to effectively allocate resources of a base station (Node-B) in a UTRAN in a basic structure of a UMTS.

In general, the UMTS structure is composed of a user equipment (hereinafter, referred to as UE) 30, a UTRAN 20, and a core network 10, which is abbreviated as CN 10. Shown in

FIG. 2 is a block diagram showing the connection between CN 10 and UTRAN 20 in the basic structure of UMTS and the basic structure of UTRAN 20. The UTRAN 20 is connected to CN 10 via a logical interface called Iu. And a plurality of wireless network subsystems (hereinafter referred to as RNS) (21, 22) in connection with.

One RNS 21 or 22 is one Radio Network Controller (hereinafter abbreviated as RNC) 21a or 22a and one or more logical nodes 21b, 21c, 22b, 22c. It is composed of Each logical node (hereinafter abbreviated as Node B) 21b, 21c, 22b, 22c is responsible for radio transmission with various UEs 30 located within its service area, and Node B (21b, 21c, 22b, 22c). Is connected to the RNC 21a or 22a in its RNS 21 or 22 through an interface called Iub.

Node B (21b, 21c, 22b, 22c) can support frequency division duplex (FDD) mode and time division duplex (TDD) mode, and also supports dual mode operation including these two modes. Can support

The RNC 21a or 22a is responsible for controlling the use and integrity of radio resources, and is responsible for handover requiring signal processing to various UEs, and different Node Bs 21b, 21c, 22b, It consists of combining / separating functional blocks to support large-scale diversity between 22c).

Also within the UTRAN 20 each RNC 21a or 22a of the different RNS 21, 22 is connected via a logical interface called Iur.

In general, the main channel recovery of the base station reports to the control station when the base station fails, and waits for a command to create a channel again.

3 is a flowchart illustrating resource allocation in a conventional mobile communication system.

Referring to FIG. 1, first, a cell setup request message is transmitted from the RNC 20 to software of a base station Node B. (S10)

After receiving the Cell Setup Request message, a channel generation command message is transmitted from the software of the base station Node B to the hardware of the base station Node B. (S11)

Here, the channel generation is a synchronization channel, a pilot channel, and the like.

When the synchronization channel and the pilot channel are generated in the hardware of the base station node B that has received the channel generation command message, the cell setup response is transmitted from the software of the base station Node B to the control station RNC. Response) message is transmitted (S12).

Upon receiving the cell setup response message, the control station RNC transmits a common transport channel setup request message to the software of the base station Node B. (S13)

Upon receiving the common transport channel setup request message, the software of the base station Node B transmits a channel creation command message to the hardware of the base station Node B (S14).

Here, the channel generation is a paging channel, an access channel, and the like.

When the paging channel, the access channel, etc. are generated in the hardware of the base station Node B receiving the channel generation message, the common transport channel response from the software of the base station Node B to the control station RNC. Channel Setup Response) message (S15).

At this time, if the common transport channel setup procedure is performed, main channels such as the paging channel and the access channel are generated and operation starts.

If a failure occurs in the hardware of the base station Node B while generating the main channel and starting operation, the hardware of the failed base station Node B transmits a failure report message to the software of the base station Node B. (S17)

The software of the base station Node B that has received the failure occurrence message from the hardware of the base station Node B marks the resource status indication message as disabled in the operating state to the control station RNC. To transmit. (S17)

The control station receiving the Resource Status Indication message transmits a Cell Setup Request message to the Node B software again to generate a synchronization channel and a pilot channel. (S18)

The software of the base station Node B which has received the Cell Setup Request message again transmits a channel creation command message to the hardware of the base station Node B (S20).

The software of the base station Node B, which has transmitted the channel generation command message to the hardware of the base station Node B, transmits a cell setup response message to the control station RNC.

The control station (RNC) receiving the cell setup response message transmits a common transport channel setup request message to the software of the base station Node B again (S21).

After receiving the common transport channel setup request message, the software of the base station Node B transmits a channel creation command message to the hardware of the base station Node B. [S22]

In addition, when a paging channel and an access channel, which are main channels, are regenerated through the channel generation command message, the software of the base station Node B sends a common transport channel setup response message to the control station RNC. Send (S23).

The resource allocation of the base station is reported to the control station whenever a failure occurs, and waiting for the command again, there is a disadvantage that the rapid failure recovery is not made.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for allocating a resource in a mobile communication system for rapid failure recovery by reassigning a resource in which a failure occurs when a failure occurs in a base station. It is for.

According to an aspect of the present invention for achieving the above object, the step of the base station (node B) storing the resource information used in the cell, and, when a failure of the base station, the main channel by using the stored resource information Reassignment of resources, if any, and reporting to the control station (RNC) only the resources that have been reassigned and changed.

Preferably, the primary channel is a paging channel, an access channel.

If a primary channel is not assigned to the resource where the failure occurs, only a call failure is reported to the control station and not reallocated.

In addition, the resource is a channel card of the hardware device of the base station, and the changed resource refers to only the remaining resources minus the failed resource among the resources of the base station.

1 is a block diagram showing the basic structure of UMTS

2 is a block diagram showing the basic structure of UTRAN and connection between the core network (CN) and UTRAN in the existing structure of UMTS

3 is a flowchart illustrating resource allocation in a conventional mobile communication system.

4 is a flowchart illustrating resource allocation in a mobile communication system of the present invention.

* Description of the symbols for the main parts of the drawings *

100: base station (Node-B)

200: control station (RNC)

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

4 is a flowchart illustrating resource allocation in a mobile communication system of the present invention.

Referring to FIG. 4, first, a cell setup is performed from a control station (RNC) 200 to software of a base station Node B using NBAP, which is an Iub interface, in a resource allocation scheme of a base station Node B 100 of a UMTS system. Sends a Cell Setup Request message (S100).

The software of the base station (Node B) 100 that has received the Cell Setup Request message transmitted from the control station (RNC) 200 may generate channel generation information according to the Cell Setup Request message. Save it.

The channel generation information storage is information such as a synchronization channel and a pilot channel.

The software of the base station (Node B) 100 storing the synchronization channel, pilot channel, etc. transmits a channel generation command message to the hardware of the base station (Node B) 100 (S101).

In addition, the software of the base station Node B which has transmitted the channel generation command message transmits a Cell Setup Responce message to the control station 200 (S102).

In addition, the control station (RNC) 200 having received the Cell Setup Response message transmits a common transport channel setup request message to the base station Node B (S103). )

The software of the base station (Node B) 100 that receives the common transport channel setup request message may include a paging channel, which is a main channel according to the common transport channel setup request message, Stores channel generation information such as access channels.

In addition, software of the base station Node B 100 that stores channel generation information such as a paging channel and an access channel, which are main channels according to the common transport setup request message, is stored in the base station Node B ( The channel generation command message is transmitted to the hardware of 100) (S104).

The Node B 100 which has transmitted the channel creation command message sends a common transport channel setup response to the control station RNC according to the common transport channel setup request message. ) Send a message (S105).

After the cell setup procedure and the common transport channel setup procedure are performed, operation starts.

If a failure occurs in the hardware of the base station Node B 100 during the operation, a failure occurrence report message is transmitted from the hardware of the base station Node B 100 to the software of the base station Node B.

In this case, the software of the Node B, which has received the failure occurrence report message, searches for a channel allocated to the failed resource.

Then, if a primary channel is allocated to the resource in which the failure occurs, reallocation of the resource in which the failure does not occur is performed using the channel generation information stored through the cell setup procedure and the common transport channel setup procedure. To generate a channel (S107).

In addition, if a call is allocated to the failed resource, a call failure is reported to the control station (RNC).

After the failed channel resource is reallocated, only the resource change amount of the base station Node B is reported as a resource status indication message using a Node B Application Rrotocol (NBAP) from the base station Node B to the control station. (S108)

As described above, when the main channel of the base station Node B has a failure, the control station RNC does not wait for a setup command again and recovers from the base station Node B itself. By making a post-report to the RNC, fast recovery is possible.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (5)

Storing, by the base station (node B), resource information used for the cell; Reallocating resources when a primary channel is allocated using the stored resource information when a failure of the base station occurs; And reporting only changed resources to the control station (RNC) by the base station. The method of claim 1, wherein the primary channel is a paging channel or an access channel. 3. The method of claim 2, wherein if the main channel is not assigned to the resource in which the failure occurs and a call is allocated, only the call failure is reported to the control station and not reallocated. The method of claim 1, wherein the resource is a channel card of a hardware device of a base station. The method of claim 1, wherein the changed resource refers to only the remaining resources other than the failed resource among the resources of the base station.