KR20020076802A - Method for Call Processing for Channel Assignment into Soft/Softer Handoff in Access Handoff - Google Patents

Abstract

PURPOSE: A call process method for assigning a channel into a soft/softer hand-off when performing an access hand-off is provided to prevent call attempt failure in case of an abnormal state capable of being generating in a traffic channel assignment process by analyzing peripheral BTS(Base Transceiver System)/sector information extracted in an MS(Mobile Station) and assigning a traffic channel to a BTS/sector in which the probability of the movement of the MS is high. CONSTITUTION: Each of BCPs(BTS Control Processors)(311a-311c) transmits a sector-classified traffic channel assignment result to a CCP(Call Control Processor)(315) and notifies that the traffic channel assignment is completed(S317). The CCP(315) collects the notified traffic channel assignment results, generates a channel list, and transmits the generated channel list to each of BCPs(311a-311c)(S319). The each of BCPs(311a-311c) receives the channel list and notifies the traffic channel assignment result to each of CCs(Channel Cards)(309a-309c), and the each of CCs(309a-309c) receives the traffic channel assignment result, generates an extended channel assignment message, transmits the generated extended channel assignment message, and notifies the result to each of BCP(311a-311c)(S321). The CCP(315) transmits a call setting request message including channel information to an SCP(Selector Control Processor)(313) and requests traffic channel setting with an MS(301)(S323). The SCP(313) sets a link with each of CCs(309a-309c)(S325). The each of CCs(309a-309c) sets the traffic channel with the MS(301)(S327) for completing the traffic channel setting.

Description

Method for Call Processing for Channel Assignment into Soft / Softer Handoff in Access Handoff}

The present invention relates to call processing in a code division multiple access (CDMA) system, and more particularly to a computer that records a call processing method and a program for realizing the method when a handoff is performed in an access state. The present invention relates to a recording medium which can be read by.

As shown in FIG. 1, in the normal operation state, the mobile station is initialized (Initialization State) 101, the mobile station call state (Idle State) 103, the system access state (105) and the call channel state (Traffic State) 107 is classified into four states. When power is supplied to the mobile station for the first time or enters the coverage area in the shaded area, the mobile station starts from the initialization state 101. At this time, the mobile station selects a system of the mobile communication company in which the mobile station is registered by using the information stored in the mobile station, and uses a pilot channel and a synchronization channel to make a short PN code and a long PN code. Synchronize tasks with timing and get information about system configuration and time. Next, the state enters the call waiting state 103 for monitoring the call channel. The mobile station in call waiting state 103 transitions to an access state 105 when it receives a call channel message requiring a response from the base station, makes a call attempt at the mobile station, or when the mobile registers a location. In the access state 105, the base station transmits a neighbor base station list message (Neighbor List Message) indicating the PN offset information of the neighbor base station to the mobile station, and the mobile station transmits the necessary message to the base station through the access channel. When the mobile station is instructed to set the call channel to the base station in the access state 105, the mobile station switches to the call state 107, and when the call is terminated, the mobile station automatically resumes from the initial state 101, which is the initial state, and receives the reception state 103 Will return.

On the other hand, the pre-IS-95B standard does not allow handoff in the access state 105. Therefore, the fast moving mobile station has a problem that the call attempt fails if the mobile station moves to another base station area before receiving a response from the base station at the time of access attempt.

In order to solve this problem, the standard after IS-95B defines a technology that allows handoff in the access state 105, that is, an access handoff, and an Extended Channel Assignment Message is applied. Through this, the mobile station can be assigned to multiple communication channels.

In addition, in 3GPP2's IOS 4.0 (3GPP2.A.S0001-A), when a mobile station attempts to make a call, the mobile station is assigned a call channel of several base stations to start a call state 107, that is, a soft / soft handoff. Channel Assignment into Soft / Softer Handoff is defined. When a mobile station generally initiates a call, the mobile station receives a channel from the base station that transmitted the originating or incoming call message and starts the call state 107 through one communication channel. However, with Channel Assignment into Soft / Softer Handoff, a mobile station can assign a channel to not only the base station that attempted the incoming / outgoing call but also the neighboring base station to which the mobile station may move and transmit an Extended Channel Assignment Message to the mobile station with the channel assignment result. Enable call state 107 to be initiated through the two call channels. FIG. 2A is a transaction flow defining Channel Assignment into Soft / Softer Handoff in 3GPP2.A.S0001-A, and FIG. 2B defines an internal specification between a base station system (BTS) and a control station (BSC). This is a call processing flow that follows the INTERFACE (A3 / A7) between Abis INTERFACE as defined in Recommendation SP-3693 and BTS as defined in IOS4.0.

However, the call processing procedure defined in IOS 4.0 defines the procedure without distinguishing between the base transceiver system (BTS) and the control station (BSC) (base station controller), so the call processing between BTS and BSC is defined. According to the call processing procedure of Abis INTERFACE of Recommendation SP-3693 and INTERFACE (A3 / A7) defined in IOS4.0, which define the internal specification between BTS and BSC as shown in FIG. 2B, In the system divided into BTS and BSC, the complexity of call processing function is increased. That is, if the call processing procedure defined in IOS 4.0 is followed, the BTS must support not only the IOS 4.0 standard but also the IS-95 standard. Likewise, the BSC supports the IS-95 standard.

In addition, in case of assigning multiple call channels using Channel Assignment into Soft / Softer Handoff, the mobile station acquires a mobile station due to a failure in time synchronization acquisition or the channel card not recognizing null traffic data transmitted by the mobile station. In the case of abnormal call processing is not specified because the mobile acquisition is not specified, there is a problem that call processing is impossible.

Furthermore, if the mobile station fails to properly analyze the randomly measured pilot list information in the process of implementing channel assignment into soft / softer handoff, normal call processing cannot be performed. Therefore, radio resource allocation to one or more base stations is required. There is a need for a pilot PN information analysis method for allocating sectors.

Accordingly, the present invention has been made to solve the above problems, and in the system structure of the base station is divided into BTS and BSC, Access Handoff and Channel Assignment into Soft defined in IS-95B / IS-2000 / IOS4.0 An object of the present invention is to provide a call processing method capable of implementing / Softer Handoff and a computer-readable recording medium recording a program for realizing the method.

In order to solve the above problems, the present invention also provides a method for properly analyzing the pilot list information randomly measured by the mobile station in an access state, and a computer-readable recording medium recording a program for realizing the method. There is a purpose.

Furthermore, the present invention is to eliminate the abnormal Active Set generated during the call channel setting process to eliminate the inconsistency between the mobile station and the BTS / BSC and a computer-readable recording program for realizing the method The purpose is to provide a recording medium.

1 is a transition diagram of a call processing state of a mobile station;

Figure 2a is a transaction flow defining Channel Assignment into Soft / Softer Handoff in 3GPP2.A.S0001-A,

FIG. 2B shows Abis INTERFACE defined in Recommendation SP-3693 and BTS defined in IOS4.0 (A3), which defines an internal specification between a base transceiver system (BTS) and a control station (BSC, Base Station Controller). Call flow diagram,

3 is a transaction flow diagram illustrating a call processing procedure capable of implementing Access Handoff and Channel Assignment into Soft / Softer Handoff according to an embodiment of the present invention;

4 is a flowchart illustrating a process of selecting a BTS and a sector using a pilot list in a CCP according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

301: mobile station 303: base station

305: base station controller 307: mobile switching center

309: base station channel card 311: base station control processor

313: selector control processor 315: call control processor

In order to achieve the above object, the present invention provides a call processing method for channel assignment (EXTENDED CHANNEL ASSIGNMENT INTO SOFT / SOFTER HANDOFF) in a code division multiple access (CDMA) mobile communication network, A first step of receiving, by a base station controller (BSC), an origination message from a mobile station through a base station (BTS), the base station controller (BSC) is based on a pilot list included in the origination message; A second step of selecting an sector to form an active set, a third step of transmitting an extended channel assignment message (EXTENDED CHANNEL ASSIGNMENT MESSAGE) to the mobile station by the base station (BTS) of the active set; A fourth step in which a mobile station configures an active set based on the extended channel assignment message, and the mobile station and the base station controller (BSC); Property set offers a call processing method of claim 5 including a step of setting the at least one traffic channel between the base station (BTS) of (ACTIVE SET).

In order to achieve the above object, the present invention also provides a code division multiple access (CDMA) mobile communication network for a channel assignment to soft / soft handoff. A base station controller (BSC) selects a base station (BTS) and a sector based on a first function of receiving an origination message through a BTS and a pilot list included in the origination message. A second function of configuring an active set, and a base station (BTS) of the active set transmits an extended channel assignment message (EXTENDED CHANNEL ASSIGNMENT MESSAGE) to the mobile station; A fourth function in which the mobile station forms an active set based on an assigned message assignment and the mobile station and the base station controller (BSC) and the active set; Provided is a computer-readable recording medium having recorded thereon a program for realizing a fifth function of establishing at least one communication channel between a base station (BTS).

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.

3 is a transaction flow illustrating a call processing procedure capable of implementing Access Handoff and Channel Assignmentinto Soft / Softer Handoff according to an embodiment of the present invention.

As shown in the figure, BTS1 (303a), BTS2 (303b), and BTS3 (303c), which are likely to belong to their jurisdiction as the mobile station (301) moves as a BTS to which the current mobile station (301) belongs and a neighboring BTS. The BCS 305 and the Mobile Switching Center (MSC) 307, which govern the BTSs 303a through 303c, constitute a mobile communication system.

The mobile station 301 transmits the first orientation message to the BTS1 303a in the access state 105 (S301). Through this first origination message, the mobile station 301 measures the strength of another pilot signal of the same frequency and reports it to the BTS. That is, the mobile station 301 generates an access handoff list (ACCESS_HO_LIST) and other reported base station list (OTHER_REPORTED_LIST) and transmits the list to the BTS when an incoming or outgoing call is attempted. Where ACCESS_HO_LIST is a list of pilots allowed to access the handoff, OTHER_REPORTED_LIST is T_ADD (pilot reception reference value set to determine a base station capable of handoff, the base station capable of handoff when a pilot signal strength of T_ADD or more is received by the mobile station 301). This means a list of pilots with pilot strengths greater than (but not included in the ACCESS_HO_LIST), both of which are defined in the IS-2000 standard document. Up to six pilot information is included in both lists, and each pilot information includes a pilot PN phase of the corresponding pilot. There may be several sectors belonging to a BTS in the pilot list and only one sector may exist. To illustrate this embodiment, it is assumed that the first origination message has been lost over the air so that the BTS1 303a has not received the first origination message.

The mobile station 301 executes an access probe handoff to transmit a second origination message to a base station controller (BCP, BTS Control Processor) 311b of the BTS2 303b (S303).

The BCP2 311b of the BTS2 303b that has received the second origination message sends the acknowledgment message of the second origination message to the mobile station 301, and sends the second origination message to the BSC 305. It transmits to a call control processor (CCP, Call Control Processor, 315) (S305). As described above, the origination message includes ACCESS_HO-LIST and OTHER_REPORTED_LIST, and the CCP 315 merges the list and proceeds with the process. To explain the embodiment according to the present invention, it is assumed that the acknowledgment message transmitted by the BCP2 to the mobile station 301 is lost in the radio section and thus the mobile station 301 does not receive the acknowledgment message.

The CCP 315 receiving the second origination message stores the ACCESS_HO-LIST and OTHER_REPORTED_LIST, that is, the pilot list for each BTS and sector, in the internal database, and the predetermined pilot signal is likely to be activated in the largest order. Select the number of base stations. In this embodiment, up to three base stations BTS1 303a, BTS2 303b, and BTS3 303c are selected as predetermined numbers. A method of dividing the pilot list by BTS and sector will be described later with reference to FIG. 4.

In addition, the CCP 315 transmits a confirmation message indicating that the origination message has been received to the BTS2 303b that has transmitted the second origination message, and sends the origination message to the remaining two BTS1 303a and BTS3 303c. In step S307, an origination acknowledgment message including the terminal identification number of the mobile station 301 that transmitted the nation message is transmitted. Subsequently, when the same mobile station 301 that has not received the acknowledgment message from the BTS2 303b performs an access probe handoff and transmits a third origination message, the BTS1 303a or BTS3 303c that has received the message has received it. Only transmits the origination confirmation message to the mobile station 301 and does not have to transmit the origination message to the CCP (S311). In this figure, the BTS3 303c receives a third origination message and transmits an acknowledgment message to the mobile station 301.

Meanwhile, the CCP 315 transmits a call setup request message to a mobile switching center (MSC) 307 and the MSC 307 responds with a channel allocation request (S309).

The CCP 315 receiving the channel assignment transmits a traffic channel assignment request message to the BTS1 303a, the BTS2 303b, and the BTS3 303c (S313). Upon receiving the traffic channel allocation request message, the BCPs 311a to 311c transmit information for initializing the traffic channel to the CC1 309a, CC2 309b, and CC3 309c that each of the BTSs 303a to 303c has. Selects a traffic channel and requests the corresponding CCs 309a to 309c to set sectors to be activated, and each CC 309a to 309c responds to each of BCP1 311a, BCP2 311b, and BCP3 311c (S315). ).

Next, each BCP 311a to 311c reports that the traffic channel allocation is completed by transmitting the sector-specific traffic channel allocation result to the CCP 315 (S317), and the CCP 315 collects the reported traffic channel allocation result. After generating the channel list, it is transmitted to each BCP (311a to 311c) (S319).

Each BCP 311a to 311c receiving the channel list notifies each CC 309a to 309c of the traffic channel assignment result, and each CC 309a to 309c notified of the traffic channel assignment result generates an Extended Channel Assignment Message. After transmission to the mobile station 301, the result is reported to each BCP 311a to 311c (S321). At this time, the mobile station 301 receives an Extended Channel Assignment Message from each CC 309a to 309c regardless of which BTS region it is in. Accordingly, the mobile station 301 configures an ACTIVE SET as a pilot of the sector based on the channels set in the sectors of the respective BTSs 303a to 303c and prepares to switch to the call state 107. The BCPs 311a to 311c inform the CCP 315 that an Extended Channel Assignment Message has been transmitted to the terminal. The CCP 315 transmits a call setup request message including channel information to a selector control processor (SCP) 313 to request a call channel setup with the mobile station 301 (S323). Accordingly, SCP 313 first establishes a link with each CC 309a to 309c (S325), and each CC 309a to 309c establishes a traffic channel with the mobile station 301 (S327) to set up a call channel. To complete. Here, when the call channel setting between the mobile station 301-CC 309a to 309c-SCP 313 is normally set, the mobile station 301 returns to the call state 107 by completing service negotiation between the mobile station 301 and the base station. It is switched (S333). The case where the call channel setting between the mobile stations 301-CCs 309a to 309c-SCP 313 is not set normally, that is, an abnormal case will be described later.

4 is a flowchart illustrating a process of selecting a BTS and a sector using a pilot list in the CCP 305 according to an embodiment of the present invention. As shown in the figure, according to the present invention, the CCP 305 analyzes the pilot lists (ACCESS_HO_LIST and OTHER_REPORTED_LIST) transmitted by the mobile station 301 at the time of the call attempt, and separates them for each BTS / sector and stores them in an internal database. . This BTS / sector selection method is indispensable for the CCP 305 to communicate with multiple BTSs.

Receiving an origination message or paging response message from the mobile station 301 (S401), the CCP 305 merges the ACCESS_HO_LIST and OTHER_REPORTED_LIST included in the message into one pilot list, and then pilots the pilot information included in the list. In order of the intensity of (S403), the pilot pn phase included in the pilot information is converted into a pilot pn offset (S405).

Next, the CCP 305 searches the internal database based on the pilot pn offset, retrieves the sector ID of each pilot and the BTS ID including the sector, and then includes the sector ID and the BTS ID in the pilot list ( S407). Therefore, the pilot list includes sector ID and BTS ID information of each pilot for each strength of the pilot that the mobile station 301 randomly searches for and transmits in the access state 105.

Hereinafter, a process of configuring an active set based on a pilot list is performed. First, the BTS attempting to access is defined as a CURRENT BTS to sequentially search for a pilot list (S409). It is determined whether or not the corresponding BTS ID and CURRENT BTS ID of each pilot stored in the pilot list match (S411). If they match, the offset information, sector ID, and BTS ID of the pilot are stored in the ACTIVE SET (S413). The next item is searched for (S415 and S417). If the corresponding BTS ID and CURRENT BTS ID of each pilot do not match in step S417, the next item of the pilot list is searched (S415 and S417).

It is determined whether the pilot list has been searched to the last (S415), and if it is searched to the last, it is determined whether a BRR different from the CURRENT BTS exists in the pilot list (S419). It is determined whether the number of BTSs belonging to the pilot exceeds a predetermined number (S421). In this embodiment, three pieces are used. If the number of pilot BTSs of the pilot currently stored in the active set does not exceed three, the new BTS is defined as a CURRENT BTS and the above process is repeated (S423).

If there is no BTS different from the CURRENT BTS in the pilot list (S419), or if the number of BTSs belonging to the pilot currently stored in the ACTIVE SET exceeds a predetermined number even if another BTS exists (S421), the ACTIVE SET is added. The procedure is terminated without any configuration.

In the above manner, the ACTIVE SET managed by the CCP 305 stores the BTS / sector most likely to perform the soft / soft handoff and the offset information of the corresponding pilot. As described above, the ACTIVE SET information is included in the Extended Channel Message transmitted by each BTS 303a to 303c. Based on this, the mobile station 301 configures an ACTIVE SET managed by the mobile station 301.

However, when the traffic channel between CC 309a to 309c and SCP 313 or the traffic channel between CC 309a to 309c and mobile station 301 is established (S325 and S327), the mobile station 301 constitutes an ACTIVE SET. After (S321), therefore, a call processing procedure is necessary for an abnormal case caused by a failure in establishing a traffic channel, that is, a case where the ACTIVE SET between the mobile station 301 and the CCP 305 does not match.

Hereinafter, a call processing procedure in an abnormal case will be described with reference to FIG. 3.

Channel Assignment into Soft / Softer Handoff requires establishing a traffic channel between one or more BTSs / sectors and mobile station 301 at a time, thus establishing a call channel between mobile station 301-CC (309a to 309c)-SCP (313). An abnormal case may occur in steps S325 and S327, and in this case, the entire call processing may be impossible because the ACTIVE SET managed by the mobile station 301 and the ACTIVE SET managed by the CCP 315 are inconsistent. .

Accordingly, the time point S321 at which the extended channel message is transmitted to the mobile station 301 (S321) and the time point S325 and S327 at which a traffic channel is established between the mobile stations 301-CCs 309a to 309c-SCP 313 are different. ) Does not set up a traffic channel with any CC 309a, 309b or 309c, or if a CC 309a, 309b or 309c fails Mobile Acquistion, the reverse traffic channel setup between the mobile station 301 and the CCs 309a through 309c If not, the traffic channel known by the mobile station 301 and the traffic channel known by the BTS / BSC 305 do not coincide with each other. Accordingly, if a mismatched path occurs in the process of setting up a traffic channel between the mobile stations 301-CC 309a to 309c-SCP 313, the mobile station 301 no longer processes the mismatched traffic channel. The handoff direction message (HDM) is transmitted to the mobile station 301, and the CCP 305 is also notified of the transmission result to match the ACTIVE SET between the mobile station 301 / CCP 305. It should not affect the handoff and the call status 107 to proceed.

In FIG. 3, SCP 313 checks the path connection with the mobile station 301 and up to three CCs 309a through 309c, and if not, sends a handoff direction message (HDM) to the mobile station. 301 requests the pilot information of the sector whose path is not set to be removed from the ACTIVE SET (S329). The removed result is notified to the CCP 305 (S331). The CCP 305 notified of this also removes the pilot information of the sector not set in the ACTIVE SET. As a result, the ACTIVE SET managed by the mobile station 301 and the CCP 305 coincide with each other to perform channel assignment into soft / softer handoff in access handoff without failing in a call attempt when the access handoff occurs. It becomes possible to switch to (S333).

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 technical field of the present invention 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 analyzes the neighboring BTS / sector information randomly extracted by the mobile station 301 to allocate a call channel to the BTS / sector with a high probability of the mobile station 301 moving, and may occur during the call channel allocation process. In this case, it is effective to implement Channel Assignment into Soft / Softer Handoff in Access Handoff.

Claims (13)

In a call processing method for channel assignment (EXTENDED CHANNEL ASSIGNMENT INTO SOFT / SOFTER HANDOFF) in a code division multiple access (CDMA) mobile communication network, A first step of receiving, by a base station controller (BSC), an origination message from a mobile station via a base station (BTS); A second step of the base station controller (BSC) selecting a base station (BTS) and a sector to form an active set based on a pilot list included in the origination message; A base station (BTS) of the active set transmits an extended channel assignment message (EXTENDED CHANNEL ASSIGNMENT MESSAGE) to the mobile station; A fourth step of the mobile station configuring an active set based on the extended channel assignment message (EXTENDED CHANNEL ASSIGNMENT MESSAGE); And A fifth step of establishing at least one communication channel between the mobile station and a base station controller (BSC) and a base station (BTS) of the active set; Call processing method comprising a. The method of claim 1, A sixth step of matching an active set of the base station controller BSC and an active set of the mobile station when the at least one call channel setup fails in the fifth step; Call processing method further comprising. The method of claim 2, The sixth step A seventh step of transmitting, by the base station controller (BSC), a handoff direction message (HANDOFF DIRECTION MESSAGE) to a mobile station; An eighth step of deleting base station (BTS) and sector information for which a communication channel is not set in an active set of the mobile station according to the HANDOFF DIRECTION MESSAGE; A ninth step of notifying a base station controller (BSC) of the execution result of the eighth step; And A tenth step of deleting base station (BTS) and sector information for which a communication channel is not set in the active set of the base station controller BSC; Call processing method comprising a. The method of claim 2, The case of failing to establish a call channel is a case of failing to establish a call channel between a base station (BTS) and a base station controller (BSC). The method of claim 2, If the call channel setting fails, the call channel setting between the base station (BTS) and the mobile station fails. The method according to any one of claims 1 to 5, The second step is An eleventh step of arranging pilot information of the pilot list in the order of the strength of a pilot signal; A twelfth step of identifying a base station (BTS) and a sector based on the pilot information of the pilot list; And A thirteenth step of configuring an active set of the base station controller BSC by selecting pilot information belonging to a predetermined number of BTSs from the pilot list; Call processing method comprising a. The method of claim 6, The thirteenth step is A fourteenth step of defining a base station (BTS) that the mobile station has attempted to access as a reference base station (BTS); A fifteenth step of storing, in an active set, pilot information belonging to a base station (BTS) matching the reference base station (BTS) among pilots stored in the pilot list; When there is no pilot belonging to the base station (BTS) and the other base station (BTS) by determining whether a pilot belonging to a base station (BTS) different from the reference base station (BTS) exists among the pilots stored in the pilot list. Terminating the active set configuration; When there is a pilot belonging to a base station (BTS) different from the reference base station (BTS), it is determined whether the number of the base stations (BTS) to which the pilot stored in the active set exceeds the predetermined number and determines the active set ( Step 17, when the number of the base stations (BTSs) to which the pilots stored in the ACTIVE SET belong to exceeds a predetermined number, ending the active set configuration; When the number of base stations (BTS) to which a pilot stored in the active set does not exceed a predetermined number, the base station (BTS) different from the reference base station (BTS) is defined as a reference base station (BTS) and the fifteenth 18th step of repeating steps 17-17 Call processing method comprising a. The method according to claim 6 or 7, And the predetermined number is three. In a code division multiple access (CDMA) mobile network, for channel assignment to soft / soft handoff (EXTENDED CHANNEL ASSIGNMENT INTO SOFT / SOFTER HANDOFF), A first function of receiving, by a base station controller (BSC), an origination message from a mobile station via a base station (BTS); A second function of the base station controller (BSC) selecting a base station (BTS) and a sector to form an active set based on a pilot list included in the origination message; A base station (BTS) of the active set has a third function of transmitting an extended channel assignment message (EXTENDED CHANNEL ASSIGNMENT MESSAGE) to the mobile station; A fourth function of configuring, by the mobile station, an active set based on the extended channel assignment message (EXTENDED CHANNEL ASSIGNMENT MESSAGE); And A fifth function of establishing at least one communication channel between the mobile station and a base station controller (BSC) and a base station (BTS) of the active set A computer-readable recording medium having recorded thereon a program for realizing the problem. The method of claim 9, A sixth function for matching an active set of the base station controller BSC and an active set of the mobile station when the at least one call channel setting fails in the fifth function; A computer-readable recording medium having recorded thereon a program for further realization. The method of claim 10, The sixth function A seventh function of transmitting, by the base station controller (BSC), a handoff direction message (HANDOFF DIRECTION MESSAGE) to a mobile station; An eighth function of deleting a base station (BTS) and sector information for which a communication channel is not set in an active set of the mobile station according to the HANDOFF DIRECTION MESSAGE; A ninth function of notifying a base station controller (BSC) of a result of performing the eighth step; And A tenth function of deleting base station (BTS) and sector information for which a talk channel is not set in an active set of the base station controller BSC; A computer-readable recording medium having recorded thereon a program for realizing the problem. The method according to any one of claims 9 to 11, The second function An eleventh function for arranging pilot information of the pilot list in the order of the strength of a pilot signal; A twelfth function of identifying a base station (BTS) and a sector based on the pilot information of the pilot list; And A thirteenth function for configuring an active set of a base station controller BSC by selecting pilot information belonging to a predetermined number of BTSs from the pilot list; A computer-readable recording medium having recorded thereon a program for realizing the problem. The method of claim 12, The thirteenth function is A fourteenth function of defining a base station (BTS) to which the mobile station has attempted to access as a reference base station (BTS); A fifteenth function of storing, in an active set, pilot information belonging to a base station (BTS) that matches the reference base station (BTS) among pilots stored in the pilot list; In the pilot stored in the pilot list, it is determined whether a pilot belonging to the base station (BTS) and another base station (BTS) is present and there is no pilot belonging to the base station (BTS) and another base station (BTS). A sixteenth function of terminating an active set configuration; When there is a pilot belonging to a base station (BTS) different from the reference base station (BTS), it is determined whether the number of the base stations (BTS) to which the pilot stored in the active set exceeds the predetermined number and determines the active set ( A seventeenth function of terminating an active set configuration when the number of base stations (BTSs) to which the pilots stored in the active set exceeds a predetermined number; When the number of base stations (BTS) to which a pilot stored in the active set does not exceed a predetermined number, the base station (BTS) different from the reference base station (BTS) is defined as a reference base station (BTS) and the fifteenth 18th function to repeat the function to the 17th function