KR20000060428A - Method for enhancing soft/softer handoff using direct connection between BTSs in a CDMA system - Google Patents

Abstract

PURPOSE: A method for hardening soft/softer handoff is provided to prevent calls from being concentrated on a specific radio resource by making a source base station refer to radio resource information of a target base station to request other resource assignments, and by making the target base station suggest radio resources for being assigned to the source base station. CONSTITUTION: A source base station requests an A7-handoff to a target base station when a mobile station moves to the target base station from the source base station. The target base station decides whether radio resource assignments requested by the source base station fail, or whether a suggestion for assigning other radio resources has to be done. If the target base station fails to assign the radio resources or transmits information for assigning other radio resources, the target base station examines self radio resource information. The target base station transmits an A7-handoff request Ack to the source base station. The source base station designates radio resources to request a handoff to the target base station. The target base station initializes an A3 connection to transmit an A3-connection message to the source base station. The source base station completes the A3-connection to transmit a response message. An architecture B system transmits the response message for the A7-handoff request Ack, and an architecture A system transmits the response message after transceiving frames. The source base station transmits a handoff direction message to the mobile station. The mobile station performs a handoff process to transmit a handoff completion message to the source base station.

Description

Method for enhancing soft / softer handoff using direct connection between BTSs in a CDMA system}

The present invention enhances soft / softer handoff using direct BS to BS connection in a code division multiple access (CDMA) system. In particular, the method relates to a soft / softener using direct connection between base stations used in a code division multiple access system applying IS-634A or IS-634B, an international standard that defines an interface between a base station and a mobile switching center (MSC). The present invention relates to a method for supporting a hard handoff in which a radio resource change occurs, such as an inter-frequency handoff or a frame offset change handoff.

In general, in a code division multiple access system, a handoff occurs when a mobile station (MS) moves from a base station in service to an adjacent base station. This handoff is a function that enables continuous service even when the mobile station moves from a currently serving base station to an adjacent base station, and includes a soft handoff and a hard handoff.

Soft handoff refers to a case where a handoff occurs without changing the frequency, frame offset, etc., and hard handoff refers to a case where frequency channel, frame offset, and pseudo noise (PN) offset switching occurs.

Meanwhile, in IS-634A or IS-634B, soft / soft handoff using direct connection between base stations is divided into architecture A and structure B. In structure A, a selection / distribution unit (SDU) is located in a base station. It refers to the structure included in, and structure B means a structure in which the SDU is independent of the base station.

In the IS-634A or IS-634B, the interface between the SDU and the base station is called an A3 interface, the interface between the source base station and the target base station is called an A7 interface, and the call control element in the SDU and the base station is called. The interface with (Call Control Component) was named A4 interface.

1 is a flowchart illustrating a successful handoff processing method using direct connection between base stations in a structure A system defined in IS-634A or IS-634B, and FIG. 2 is a base station in structure B system defined in IS-634A or IS-634B. Is a flowchart illustrating a method of processing a successful handoff using a direct connection between two nodes. However, since the processing processes are similar to those of FIG. 1 and FIG. 2 only in the system structure, the handoff processing method in the prior art will be described with reference to FIG.

When the mobile station 100 moves from the source base station 200 to the target base station 400, the source base station 200 requests a handoff to the target base station 400 (A7-Handoff Request) (s10), the handoff Upon receiving the request, the target base station 400 determines whether the radio resource allocation requested by the source base station is unsuccessful or whether to propose information to the source base station to allocate other radio resource information (S20). If it is determined that it is unsuccessful or to propose other radio resource information, the A7 handoff request acknowledgment is transmitted to the source base station (s90), and when it is determined otherwise, the A3 connection is initialized and the source base station ( Send an A3 connection message (A3-Connect) (s30). Then, the source base station 200 completes the A3 connection and sends an A3 connection acknowledgment message to the target base station 400 (A3-Connect Ack) (s40).

Thereafter, the structure B system sends an A7 handoff request acknowledgment message, and the structure A system sends an A7 handoff request acknowledgment message after sending and receiving a frame through the A3 interface (A7-Handoff Request Ack) (s50). At this time, the target base station 400 allocates a radio resource requested by the source base station 200 and then sends an A7 handoff request acknowledgment message.

The source base station 200 receiving the A7 handoff request acknowledgment message sends a handoff direction message to the mobile station 100 to instruct handoff execution (s60), and receives the handoff indication message (s60). ) Completes the normal handoff by sending a handoff completion message (S70) to the base station 200 (s80).

As described above, the conventional handoff proposed by the IS-634A and the IS-634B does not have any problem when the target base station 400 allocates the radio resource requested from the source base station 200 normally. If a traffic channel or frame offset of the corresponding frequency is not available among the resources, the target base station 400 is configured to transmit the cause of the failure in the A7 handoff request acknowledgment message.

As shown in FIG. 4, the target base station 400 transmits a cause list and a cell identifier list to the source base station 200 upon failure, but more information (target Since the base station 200 cannot transmit the information of the base station, the source base station 200 has no other information about the target base station 400, but has no choice but to request another A7 handoff request message by setting a different offset or frame offset. In this case, since the source base station 200 has no information on the target base station 400, the source base station 200 makes a request based on its own frequency or frame offset, thereby increasing the probability of a situation in which the target base station 400 fails again. Calls may be concentrated at a specific frequency, or the like, which may be disadvantageous to load balance between frequencies.

Therefore, in the prior art operating as described above, when the resource setting required by the source base station 200 is not assignable or fails in the target base station 400, the cause of the failure of the target base station 400 to the source base station 200 is about. Informing the next handoff again, the source base station 200 has a problem that it is likely to fail again by requesting resource allocation again without information on the target base station 400. In addition, when the resource allocation failure in the target base station 400, the source base station 200 has a problem that the call can be concentrated on a specific frequency by requesting a handoff again without information on the resources of the target base station 400.

Accordingly, the present invention has been devised to solve the above-mentioned problems, and the A7 handoff request acknowledgment message includes an information element called an IS-95 Channel IDentifier which is also used in the A7 handoff request message. In addition, when the target base station fails to allocate the resources requested in the A7 handoff request message, the target base station inserts information of its own radio resource into an information element called an IS-95 channel identifier and transmits the A7 handoff request acknowledgment message to the source base station. The source base station requests the target base station for another radio resource using the IS-95 channel identifier and the cause list of the received A7 handoff request acknowledgment message. An object of the present invention is to provide a method for enhancing softener handoff.

1 is a flowchart illustrating a handoff process using direct connection between base stations in a structure A system defined in IS-634A or IS-634B.

2 is a flowchart illustrating a handoff processing method using direct connection between base stations in a structure B system defined in IS-634A or IS-634B.

3 is a block diagram of the processing procedure of FIGS. 1 and 2.

4 is a table showing the structure of an A7 handoff request acknowledgment message defined in IS-634B;

5 is a table showing the structure of an A7 handoff request acknowledgment message according to the present invention;

6 is a flowchart illustrating a handoff processing method using direct connection between base stations in the structure A system defined in IS-634A or IS-634B according to the present invention;

7 is a flowchart illustrating a handoff processing method using direct connection between base stations in a structure B system defined in IS-634A or IS-634B according to the present invention;

8 is a block diagram illustrating the processing procedure of FIGS. 6 and 7.

<Description of the code | symbol about the principal part of drawing>

100: mobile station 200: source base station

250: SDU 300: Exchange

400: target base station

In a code division multiple access system according to the present invention devised to achieve the above object, a preferred embodiment of a method for enhancing soft / soft handoff using direct connection between base stations is provided. Then, the source base station requests a handoff to the target base station (A7-Handoff Request) (s100), and the target base station fails to allocate radio resources requested by the source base station, or allocates another radio resource. Determining whether to transmit the information to the source base station (S110), when the target base station fails to allocate the radio resource requested by the source base station in the determining step, or sends information to the source base station to allocate another radio resource. If it is determined to forward, the target base station is assigned to the call Investigating desired radio resource information of the desired one (s120), The target base station sends the radio resource information of the investigation in the step to the source base station via an A7 handoff request acknowledgment message (A7-Handoff Request Ack) (s130), the source base station compares its radio resource information with radio resource information of the target base station to determine an appropriate radio resource (s140), and the source base station requests a handoff request back to the target base station; A7-Handoff Request (s150), the target base station receiving the handoff request initializes an A3 connection, sends an A3 connection message to the source base station (A3-Connect) (s160), and the source base station is Completing A3 connection, sending an A3 connection acknowledgment message to the target base station (A3-Connect Ack) (s170), and receiving the A3 connection acknowledgment message. The get base station sends an A7 handoff request acknowledgment message to the source base station (A7-Handoff Request Ack) (s180), and the source base station receiving the A7 handoff request acknowledgment message sends a handoff indication message to the mobile station. Handoff direction (s190, s200), and the mobile station completes a normal handoff by sending a handoff complete message to the source base station (Handoff Completion) (s210). .

According to the present embodiment, when it is not determined that the target base station fails to allocate radio resources requested by the source base station in the determining step or transmits information to the source base station to allocate another radio resource (s110). The target base station further requests for connection to the source base station (s160), and performs handoff (s170 to s210).

In addition, in the present embodiment, the radio resource information of the target base station is defined in the IS-95 identifier, which is an information element defined in IS-634A or IS-634B, and transmitted along with the other information element through the handoff request acknowledgment message. The IS-95 channel identifier may include an A1 element identifier field, a length field, a hard handoff field, a number of channels to add field, and a frame offset. ) Field, Walsh Code Channel Index field, low part pilot PN Code field, high part pilot pseudo noise code field, power bind It is composed of a Power Combined) field, a frequency included field, a reserved field, an Absolute Radio Frequency Channel Number (ARFCN) field of a low part, and an ARFCN field of a high part.

According to the present invention, if the radio resource allocation requested by the target base station receiving the A7 handoff request message fails when performing soft / soft handoff using the direct connection between the base stations, or if another radio resource allocation is proposed to the source base station, The present invention relates to a method for enabling radio resource information of a target base station to be transmitted to a source base station using an A7 handoff request acknowledgment message defined in IS-634A or IS-634B.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention allows the addition of an information element called an IS-95 channel identifier to the A7 handoff request acknowledgment messages of IS-634A and IS-634B of FIG. 4, as shown in FIG.

The IS-95 channel identifier is an information element defined in IS-634A and IS-634B, and includes an A1 element identifier field, a length field, a hard handoff field, and an added channel number. (Number of Channels to Add) field, Frame offset field, Walsh Code Channel Index field, Low part Pilot PN Code field, High part ( High Pseudo Pseudo Noise Code Field, Power Combined Field, Frequency Included Field, Reserved Field, Low Part Absolute Radio Frequency Channel Number (ARFCN) Field, and High Part It consists of the ARFCN field of the part.

At this time, the IS-95 channel identifier information element to be used in the A7 handoff request acknowledgment message does not use this information element if the radio resource allocation is successful and cannot allocate the radio resource requested by the source base station or other radio. Use it when you want to suggest a resource.

6 is a flowchart illustrating a handoff processing method using direct connection between base stations in the structure A system defined in IS-634A or IS-634B according to the present invention, and FIG. 7 is an IS-634A or IS-634B according to the present invention. A flowchart illustrating a handoff processing method using direct connection between base stations in a structure B system defined in FIG. However, the processing method is similar to that of FIG. 6 and FIG. 7 except that the system structure is different as in the conventional art, and thus the handoff processing method according to the present invention will be described with reference to FIG.

When the mobile station 100 moves from the source base station 200 to the target base station 400, the source base station 200 requests a handoff to the target base station 400 (A7-Handoff Request) (s100), the handoff Upon receiving the request, the target base station 400 determines whether the radio resource allocation requested by the source base station is unsuccessful or whether to propose information to the source base station to allocate other radio resource information (s110). If it is determined that the radio resource allocation requested by the source base station 200, or to transmit information to the source base station 200 to allocate other radio resources, the target base station 400 is to determine its radio resource information After the investigation (s120), the radio resource information desired to be allocated to the call is defined in an information element called an IS-95 channel identifier, and then an appropriate cause is defined in a cause list along with other information elements. 7 A handoff request acknowledgment message is sent to the source base station 200 (A7-Handoff Request Ack) (s130).

The source base station 200 receives the A7 handoff request acknowledgment message and the information and cause list included in the information element called IS-95 channel identifier of the A7 handoff request acknowledgment message sent when the requested radio resource allocation fails. After determining whether to request the allocation of other radio resources by using the radio resource information and determine the appropriate radio resources (s140), and to request a handoff to the target base station 400 again (s150).

The target base station 400 receiving the handoff request initializes the A3 connection and sends an A3 connection message to the source base station 200 (A3-Connect) (s160). Then, the source base station 200 completes the A3 connection and sends an A3 connection acknowledgment message to the target base station 400 (A3-Connect Ack) (s170).

Thereafter, the structure B system sends an A7 handoff request acknowledgment message, and the structure A system sends an A7 handoff request acknowledgment message after sending and receiving a frame through the A3 interface (A7-Handoff Request Ack) (s180). At this time, the target base station 400 allocates a radio resource requested by the source base station 200 and then sends an A7 handoff request acknowledgment message.

The source base station 200 receiving the A7 handoff request acknowledgment message sends a handoff direction message to the mobile station 100 to instruct handoff execution (s190), and receives the handoff indication message (s190). ) Completes normal handoff performance by sending a handoff completion message (Handoff Completion Message) to the base station 200 after performing a handoff (s200).

On the other hand, if it is not determined that the target base station 400 fails to allocate radio resources requested by the source base station 200 during the handoff process, or transmits information to the source base station 200 to allocate another radio resource, As described above, the target base station 400 requests a connection to the source base station 200 (s160), and processes the handoff (s170, s180, s190, s200, and s210).

According to the present invention operating as described above, the target base station may transmit its radio resource information to the source base station at the time of soft / soft handoff using direct connection between base stations. When the radio resource allocation of the handoff requested by the A7 handoff request message fails, the source base station may make another radio resource allocation request by referring to the radio resource information proposed by the target base station. In addition, the target base station proposes an appropriate radio resource to be allocated to the source base station to the source base station, thereby properly operating the radio resource information that the target base station has.

As a result, the present invention can prevent the call from being concentrated on a specific radio resource and obtain an appropriate dispersion effect.

Claims (4)

If the mobile station moves from the source base station to the target base station, The source base station requesting a handoff to the target base station (A7-Handoff Request); Determining, by the target base station, whether the radio resource allocation required by the source base station has failed or whether to transmit information to the source base station to allocate another radio resource; If the target base station fails to allocate the radio resource requested by the source base station or transmits information to the source base station for allocating another radio resource, the target base station is responsible for assigning the call to the corresponding base station. Examining radio resource information; Sending, by the target base station, its radio resource information examined in the step to the source base station through an A7 handoff request acknowledgment message (A7-Handoff Request Ack); Determining, by the source base station, an appropriate radio resource by comparing and determining its radio resource information with radio resource information of the target base station; The source base station requesting a handoff request back to the target base station (A7-Handoff Request); The target base station receiving the handoff request initiates an A3 connection and sends an A3 connection message to the source base station (A3-Connect); The source base station completing an A3 connection and sending an A3 connection acknowledgment message to the target base station (A3-Connect Ack); The target base station receiving the A3 connection acknowledgment message sends an A7 handoff request acknowledgment message to the source base station (A7-Handoff Request Ack); A source base station receiving the A7 handoff request acknowledgment message, sending a handoff indication message to the mobile station to instruct handoff execution (Handoff Direction); And The mobile station enhances soft / soft handoff using direct connection between base stations in a code division multiple access system, comprising performing a handoff completion by sending a handoff complete message to the source base station. Way. The source base station according to claim 1, wherein if it is not determined in the determining step that the target base station fails to allocate radio resources requested by the source base station or delivers information to the source base station for allocating another radio resource, And performing a handoff by requesting a handoff to the target base station, wherein the soft / soft handoff using the direct connection between base stations in the code division multiple access system. The radio resource information of the target base station is defined in an IS-95 identifier, which is an information element defined in IS-634A or IS-634B, and is transmitted through the handoff request acknowledgment message along with other information elements. A method for enhancing soft / soft handoff using direct connection between base stations in a code division multiple access system. The method of claim 3, wherein the IS-95 channel identifier, An A1 Element Identifier field; Length field; Hard Handoff field; A Number of Channels to Add field; A frame offset field; Walsh Code Channel Index field; A pilot PN Code field of a low part; A high part pilot pseudo noise code field; A Power Combined field; A frequency included field; Reserved field; An Absolute Radio Frequency Channel Number (ARFCN) field of the low part; And A method for strengthening soft / soft handoff using direct link between base stations in a code division multiple access system, comprising a high part ARFCN field.