KR101543999B1 - System and Method for processing call of mobile terminal located border - Google Patents

Abstract

The present invention relates to a system and method for processing a call of a mobile station located in a boundary area between a source base station area and a target base station area. When a source base station controller receives a handover request from a mobile station, The target base station controller requests the call to the target base station controller in which the target base station is located if the two session information do not correspond to each other and the signal strength of the target base station is equal to or greater than a specific threshold, The base station controller transmits a traffic channel assignment request message to the target base station in response to the call setup request and transmits a session change request message to the mobile terminal when a traffic channel assignment disable message is received in response thereto, .

Therefore, according to the present invention, it is possible to solve the ping-pong problem caused by Hand-Down / Up, which may cause a problem in the border region between Rev.0 and Rev.A, thereby contributing to improvement of service quality.

Session, Rev.A, handover, session, boundary

Description

Technical Field [0001] The present invention relates to a system and a method for processing a call of a mobile terminal located in a border area,

The present invention relates to a system and a method for processing a call of a mobile station located in a border area, and more particularly, to a system and method for processing a call of a mobile station located in a border area, If the signal strength of the target base station is not equal to or greater than a specific threshold, the mobile station requests a call setup to the target base station controller where the target base station is located, And more particularly,

The synchronous network system includes CDMA2000 1X (Code Division Multiple Access 2000 1X), 1xEV-DO Rev. 0 (1xEV-DO Revision 0), 1xEV-DO Rev. A (1xEV-DO Revision A) stem. The synchronous network system has been configured in such a way as to support it in an initial system in the background of similar technology.

Based on the first implemented CDMA2000 1X system, the 1xEV-DO Rev. 0 has been configured to add only channel cards that handle PHY and MAC as hardware.

The new specification, 1xEV-DO Rev. A also adds a new channel card to the Rev. A service is available.

1xEV-DO Rev. 0 system and 1xEV-DO Rev. A system is basically evolving over the same evolutionary standard, and the 1xEV-DO Rev. A standard is 1xEV-DO Rev. 0 for the backward compatibility.

Therefore, 1xEV-DO Rev. A system is a 1xEV-DO Rev. A or 1xEV-DO Rev. 0 < / RTI > 0 System also supports 1xEV-DO Rev. A terminal and 1xEV-DO Rev. 0 terminal.

However, the 1xEV-DO Rev. A system, the 1xEV-DO Rev. 0 < / RTI > 0, 1xEV-DO Rev. A terminal, 1xEV-DO Rev. A, it does not seem to be a problem, but from a real system point of view, 1xEV-DO Rev. A system with 1xEV-DO Rev. 0 terminal, the overall system performance is degraded due to the difference in performance caused by the difference in the standard.

Also, 1xEV-DO Rev. 0 system is a 1xEV-DO Rev. 1xEV-DO Rev. 0 service, but the 1xEV-DO Rev. A terminal, the 1xEV-DO Rev. 0 services.

FIG. 1 is a diagram illustrating a method for processing a call of a mobile terminal in which conventional session information is located in another boundary area.

The mobile terminal described below requests Rev. A session call setup while supporting Rev.A and Rev.0, and the source base station is a Rev. A base station and the target base station is a Rev. A base station (or Rev.0) A supporting base station).

Referring to FIG. 1, a mobile station supporting Rev.A and Rev. 0 identifies parameters for handover based on Ec / Io values of neighbor base stations and Ec / Io values of a source base station while moving. If a base station (hereinafter, referred to as a target base station) having an Ec / Io value equal to or greater than the first threshold T_add is confirmed, a handover request message is transmitted to the base station controller (S100). Here, the first threshold is a value of a base station pilot strength that the neighboring base station should satisfy in order to enter the candidate base station, and is a T_add value.

The base station controller determines whether to perform a handover based on the handover request message and transmits a traffic channel allocation request message to the target base station in step S102.

In step S102, the target BS compares the session information included in the traffic channel assignment request message with its own session information, and transmits a traffic channel allocation disable message to the BS controller if the comparison result does not match.

That is, while the mobile terminal supports Rev.A while the target base station does not support Rev.A, the sessions do not match. Therefore, since the target BS can not allocate the traffic channel to the MS, the target BS transmits a traffic channel allocation disabled message to the BS controller.

Then, the BSC transmits a session change request message for requesting a change of the session of the MS to the MS through the source BS (S106). The session change request message includes the session type of the target BS.

The mobile terminal changes the current session to a session type included in the session change request message and transmits a session change completion message to the base station controller (S108). That is, the mobile terminal changes the Rev. A session to the session type Rev.0 of the target base station.

Then, the base station controller notifies the mobile terminal of the call release through the source base station (S110), and the mobile terminal informs the base station controller of the completion of call release (S112). Then, the connection between the mobile terminal and the source base station is released, and the call between the mobile terminal and the target base station is connected.

That is, in order for the mobile station to use the Rev. 0 Session, the base station controller transmits a session change request message designating the Personality Index 0 to the mobile station through the ControlChannel, and at the same time, A to Rev.0 is registered in the location register.

Thereafter, the MN sets a Connection by transmitting a ConnectionRequest in a state of using the Rev.0 session (Personality Index 0).

(Rev. 0), the mobile station having a changed session in Rev. 0 will make a call with the Rev. 0 session. At this time, the radio environment changes and the signal of the Rev. A base station prevails rather than the signal of the target base station The mobile station requests a call setup to the Rev. A base station, and a ping-pong phenomenon occurs.

In addition, a ping-pong phenomenon may occur in the border region between the Rev.0 base station area and the Rev. A base station area due to the radio environment change after the personality change. In the worst case, loop). Therefore, the problem of not being set up in the subscriber is caused.

It is an object of the present invention to provide a handover method for a mobile terminal located in a border area to solve a ping-pong problem due to Hand-Down / Up, which may be a problem in a border area between a Rev.0 base station area and a Rev. A base station area And to provide a system and method for providing the same.

Another object of the present invention is to confirm whether a session change of a mobile terminal can be confirmed by confirming a session type of a mobile terminal and a session type of a base station and to identify a session inconsistency that may occur in Personality Change in a border region between Rev.0 and Rev.A The present invention provides a system and a method for processing a call of a mobile terminal located in a border area that can solve a problem caused by a mobile terminal.

According to an aspect of the present invention, there is provided a call processing system of a mobile station located in a boundary region between a source base station region and a target base station region, the mobile station including: The source base station compares the session information of the source base station and determines whether or not the target base station is compatible. If the two session information do not correspond to each other and the signal strength of the target base station is greater than or equal to a specific threshold, The source base station controller transmits a traffic channel allocation request message to the target base station upon receipt of a call setup request from the source base station controller, and transmits a session change request message to the mobile station Side base station control The system for call processing in the mobile station located in the boundary area including a is provided.

The mobile terminal changes the current session to a session type included in the session change request message from the target base station controller and transmits a session change completion message to the target base station controller.

The target BS compares the session information of the MS with the session information of the MS included in the traffic channel allocation request message and transmits a traffic channel allocation disable message to the target BS controller when the target BS does not match.

The source-side base station controller and the target-side base station controller support different session information.

According to another aspect of the present invention, there is provided a base station controller for processing a call of a mobile terminal, the base station being located in a different boundary area, the base station information being stored in its own area and the base station information And searching the database to check session information of the target base station when the handover request is received from the mobile terminal. If the determined session information does not correspond to the session information of the source base station and the signal strength of the target base station is greater than or equal to a specific threshold, There is provided a base station controller including a handover processing module for requesting call setup to a target base station controller in which a base station is located.

The base station controller further includes a traffic channel assignment processor for transmitting a traffic channel assignment request message to the target base station when the call setup request message is received and requesting a session change of the mobile terminal when the traffic channel assignment message is received in response thereto can do.

The specific threshold value refers to a sum of a first threshold value and a comparison threshold value, the first threshold value is a T_add value, and the comparison threshold value is a T_comp value.

If the handover processing module requests handover from the mobile station, the handover processing module searches the database to identify the target base station controller where the target base station is located. If the target base station controller is different from the target base station controller, A session information determiner for determining whether the signal strength of the target base station corresponds to the session information of the source base station; and a determination unit for determining whether the signal strength of the target base station is hand- A hand-down determination unit for determining whether hand-down is to be handed down to the target base station controller when the determination result of the hand-down determination unit is a hand-down result; And a handover processing unit.

The database includes a base station information database in which session information supported by the PN and the FA is registered for the neighbor list of each base station located in the own area, PN and FA for the neighbor list of the base station managed by the local area base station controller And a base station information database for each boundary-area base station controller in which the supported session information is registered.

According to another aspect of the present invention, there is provided a mobile communication system including: (a) a source base station controller, upon receiving a handover request message from a mobile station, determining whether session information of the target base station corresponds to session information of the source base station, (B) if the signal strength of the target base station is greater than or equal to a certain threshold as a result of the determination in step (a), the target base station controller determines whether the signal strength of the target base station is greater than a predetermined threshold (C) the target base station controller transmits a traffic channel assignment request message to the target base station in response to a call setup request from the source base station controller, (d) ) If the target BS determines that the session information included in the traffic channel assignment request message includes its own session information (E) when the target base station controller has received a traffic channel allocation disable message, determining whether the target base station controller has received the traffic channel allocation message, (F) a step in which the mobile terminal changes the current session to a session type included in the session change request message and transmits the session change request message to the target base station controller There is provided a method for processing a call of a mobile terminal located in a border area including transmitting a session change complete message.

The method for processing a call of a mobile terminal located in the border area may further include updating the session information of the mobile terminal to a location register when the target base station controller receives a session change completion message from the mobile terminal have.

Wherein the step (a) comprises the steps of: if a handover is requested from the mobile terminal, searching a database provided to the target base station controller to identify the target base station controller where the target base station is located; Comparing the session information supported by the target base station with the session information of the source base station; comparing the session information of the target base station with session information of the source base station; comparing the signal strength of the target base station with a threshold value And a step of determining whether or not it is possible.

In the step (a), when the session information of the target base station corresponds to the session information of the source base station, the base station determines that the handover request is a normal case and requests the target base station for call setup .

In step (b), if the signal strength of the target BS is greater than or equal to a predetermined threshold value, it is determined that the handover request is a hand-down case, and the target base station controller can request a call setup.

According to another aspect of the present invention, there is provided a method for processing a call of a mobile terminal located in a boundary area of a base station controller, the method comprising: receiving a handover request message from the mobile terminal; Determining whether the session information of the target base station corresponds to the session information of the source base station, determining whether the signal strength of the target base station is greater than or equal to a predetermined threshold, And requesting call setup to the target base station controller in which the target base station is located when the signal strength of the target base station is greater than or equal to a predetermined threshold value.

The method for processing a call of a mobile station located in the border area may further include setting a call by requesting a traffic channel allocation to the target base station when the session information of the target base station and the session information of the source base station correspond to each other can do.

The method for processing a call of a mobile station located in the boundary area may further include terminating a call when the signal strength of the target base station is not equal to or greater than a second threshold value.

According to another aspect of the present invention, there is provided a recording medium on which a method for processing a call of a mobile station located in a border area of a base station controller is recorded by a program.

As described above, according to the present invention, it is possible to solve the ping-pong problem due to Hand-Down / Up, which may cause a problem in the border region between the Rev. 0 base station area and the Rev. A base station area, .

Also, since the session type of the mobile terminal and the session type of the base station can be checked, it is possible to know whether or not the session of the mobile terminal is changed. Therefore, the session inconsistency which may occur in the case of Personality Change in the border region between Rev.0 base station area and Rev.A base station area It is possible to provide a system and a method for processing a call of a mobile terminal located in a border area that can solve a problem caused by a problem.

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

2 is a diagram illustrating a call processing system of a mobile terminal located in a border area according to the present invention.

The source base station controller 300a in which the source base station 200a and the source base station 200a are located supports Rev.A and the target base station 200b and the target base station 200b are located, The terminal 300b does not support Rev.A, and the mobile terminal 100 is a terminal having a Rev.A session.

2, a call processing system of a mobile station located in a boundary area between a source base station coverage that supports Rev.A and a target base station coverage that does not support Rev.A includes a mobile terminal 100, Base stations 200a and 200b, base station controllers 300a and 300b, and DLR (Location Register) (not shown) for wireless connection.

The MS 100 is allocated to the channel of the source base station 200a in the source base station controller area A to continuously search idle channel pilot sizes of neighbor BSs while performing a call.

At this time, the mobile terminal 100 checks the parameter for handover based on the Ec / Io value of the target base station 200b and the Ec / Io value of the source base station 200a while moving. The base station controller 300a recognizes the Ec / Io value as a time point of the handover if the Ec / Io value of the base station 200b is equal to or greater than the first threshold T_add and transmits a Pilot Strength Measurement Message (PSMM) Signal. Here, the first threshold value is a value of a base station pilot strength that the neighboring base station should satisfy in order to enter the candidate base station, and can be understood as a T_add value in the CDMA system. Even if the name is different in other mobile communication networks, If this is the case,

When the mobile terminal 100 receives a session change request message from the base station controllers 300a and 300b, the mobile terminal 100 changes the current session to a session type included in the session change request message, (300a, 300b).

The mobile terminal 100 that performs the above-mentioned role is a terminal supporting both the Rev.0 system and the Rev. A system, and stores the respective sessions corresponding to Rev.0 and Rev.A systems in the terminal , And these sessions are called Personality.

Session refers to a state in which a parameter (or protocol) and an attribute to be used between the mobile terminal 100 and the system are shared. That is, a parameter and an attribute set to be used in the Rev.0 system means one session, and a parameter and an attribute set to be used in the Rev. A system form another session.

Rev.A terminal can operate in Rev.0 or Rev.A according to the system specifications at the current position. If only the Rev.0 system is supported in the current location, the mobile terminal 100 must open a session corresponding to Rev.0.

If the mobile terminal 100 having the Rev. 0 session moves to the area supporting the Rev. A, the mobile terminal 100 has to reopen the Rev. A. session, and thus the process of changing the existing session to another session Is called Personality change. The opposite case is also called Personality change.

When receiving a traffic channel assignment request message from the base station controllers 300a and 300b, the base stations 200a and 200b compare the session information of the mobile terminal 100 included in the message with their session information, And transmits a traffic channel unassignment message to the base station controllers 300a and 300b if the resultant session information does not match.

In addition, the base stations 200a and 200b connect the call with the mobile terminal 100 when the session information of the mobile terminal 100 matches the session information of the mobile terminal 100 itself.

The base station controllers 300a and 300b request session information from the DLR (Location Register, not shown) when a call connection request message is received from the mobile terminal 100, and when the session information is received from the DLR (not shown) And transmits a traffic channel allocation request message to the base stations 200a and 200b.

Upon receiving a traffic channel allocation disable message in response to the traffic allocation request message, the base station controllers 300a and 300b transmit a session change request message to the mobile terminal 200 send.

The base station controllers 300a and 300b update the session information of the mobile terminal 100 stored in the DLR (not shown) when a session change completion message is received from the mobile terminal 200. [

The source base station controller 300a supporting Rev.A and the target base station controller 300b not supporting Rev.A are described for the base station controllers 300a and 300b performing the functions as described above .

When the source base station controller 300a requests the handover from the mobile terminal 100, the source base station controller 300a searches the provided database and confirms the session information of the target base station 200b.

The source base station controller 300a then determines whether the signal strength of the target base station 200b is equal to or greater than a second threshold value when the confirmed session information does not correspond to the session information of the source base station 200a, If the result is equal to or greater than the second threshold, the target base station controller 200b requests the target base station controller 300b to set up the call. Here, the second threshold refers to a sum of a first threshold and a comparison threshold, the first threshold is a T_add value of a base station pilot strength, and the comparison threshold is a T_comp value of a base station pilot strength. T_comp is a reference value to be compared with the activation set.

If the source base station controller 300a determines that the signal strength of the target base station 200b is equal to or greater than the second threshold value, the source base station controller 300a requests the target base station 200b for call setup.

The target base station controller 300b transmits a traffic channel allocation request message to the target base station 200b in response to a call setup request from the source base station controller 300a, The mobile terminal 100 transmits a session change request message to the mobile terminal 100.

The base station controllers 300a and 300b performing the above functions will be described in detail with reference to FIG.

The DLR (not shown) stores current session information for each mobile terminal and extracts session information of the corresponding mobile terminal 100 when the session information request message is received from the base station controllers 300a and 300b .

3 is a block diagram schematically illustrating a configuration of a base station controller for processing a call of a mobile station whose session information is located in another boundary area according to the present invention.

3, a base station controller 300 for processing a call of a mobile station whose session information is located in another boundary area includes a communication unit 310 for communication with a base station or a DLR, base station information located in its own area, A database 320 in which base station information managed by the BTS controller 320 is stored, a handover processing module 330 for processing a handover, and a traffic channel assignment processor 340.

The database 320 includes a base station information database 322 in which session information supported by PN (Pseudo Noise) and FA (Frequency Assignment) is registered for a neighbor list of each base station located in its own area, And a base station information database 324 for each boundary node B controller in which session information supported by the PN and the FA is registered for the neighbor list of the base station managed by the base station.

For example, if the first base station controller and the second base station controller are designated as a border (boundary area base station controller), the database list of the base stations managed by the base station controller designated as Border is denoted PN and Whether the FA supports Rev.0 or Rev.A is stored.

When handover is requested from the mobile station, the handover processing module 330 searches the database 320 for session information of the target base station, and if the checked session information does not correspond to the session information of the source base station , Determines whether the signal strength of the target base station is equal to or greater than a second threshold value, and requests the base station controller located at the target base station for call setup.

The handover processing module 330 includes a session information determination unit 332, a hand-down determination unit 334, and a handover processing unit 336.

When the handover is requested from the mobile terminal, the session information determiner 332 searches the database 320 to determine whether the target base station is located in another base station controller region. If the target base station is located in another base station controller region, , It checks the session information supported by the target base station and determines whether it corresponds to the session information of the source base station.

Also, the session information determination unit 332 can check the PN or FA of the target base station by searching the database 320, and confirm the session information mapped with the confirmed PN or FA.

When the session information does not correspond to the session information, the hand-down determination unit 334 determines whether the signal strength of the target BS is greater than or equal to a second threshold, . Here, hand-down refers to handover from the Rev. A system to the Rev.0 system, which is a term used for distinction from handover.

If the hand-down processing unit 336 determines that the target base station is hand-down as a result of the hand-down determination unit 334, the handover processing unit 336 requests the base station controller to which the target base station is located, Request a call setup.

The traffic channel assignment processor 340 transmits a traffic channel assignment request message to the target base station when a call setup request message is received and requests a change of a session of the mobile terminal when a traffic channel assignment disabled message is received in response to the traffic channel assignment request message .

4 is a diagram illustrating a method for processing a call of a mobile station whose session information is located in another border area according to the present invention.

Referring to FIG. 4, the mobile station checks a parameter for handover based on the Ec / Io value of the neighbor base stations and the Ec / Io value of the source base station while moving. The Ec / Io value of the neighbor base stations is the first threshold (Hereinafter referred to as a target base station) that is greater than or equal to T_add, the handover request message is transmitted to the source base station controller located in the source base station (S400).

The source base station controller confirms the session information of the target base station and determines whether hand-down is to be performed using the confirmed target base station session information and the source base station session information (S402). That is, upon receiving the handover request message from the mobile terminal, the source base station controller checks the PN information of the target base station and confirms the mapped session information with the checked PN information.

The source base station controller then determines whether the identified target base station session information corresponds to the source base station session information. As a result of the determination, if the session information does not correspond, the source base station controller determines whether the signal strength of the target base station is equal to or greater than a second threshold value.

If the signal strength of the target BS is equal to or greater than the second threshold, the source base station controller determines that the handover request is a hand-down case, and determines that the handover request is a normal case if the signal strength is not equal to or greater than the second threshold.

If it is determined in step S402 that the handover request is a hand-down case (S404), the source base station controller requests call setup to the target base station controller located in the target base station through the exchange (S406).

Then, the target base station controller transmits a traffic channel allocation request message to the target base station in response to a call setup request from the source base station controller (S408).

The target BS compares the session information included in the traffic channel assignment request message with its own session information, and transmits a traffic channel unassignment message to the target base station controller if the comparison result does not match (S410 ).

For example, when the mobile terminal supports Rev.A and the target base station does not support Rev.A, the target base station can not allocate the traffic channel to the mobile terminal because the session information does not match. Accordingly, the target base station transmits a traffic channel assignment message to the target base station controller.

Looking back, if only the Rev.0 system is supported in the present location, the mobile terminal must open a session corresponding to Rev.0. Also, if a mobile terminal having a Rev.0 session moves to a region supporting Rev.A, the mobile terminal must reopen the Rev.A session.

In step S410, the target base station controller transmits a session change request message for requesting a session change of the mobile station to the mobile station in step S412.

The mobile terminal changes the current session to a session type included in the session change request message and transmits a session change completion message to the target base station controller (S414). The session change request message instructs to change the session of the mobile station to the session type of the target base station, and the mobile terminal changes the session type of the source base station to the session type of the target base station included in the message.

At this time, the source base station controller releases the call connected between the mobile terminal and the source base station, and the mobile terminal sets a call through the target base station (S416).

In addition, the target base station controller updates the session information of the mobile terminal to the location register when a session change complete message is received from the mobile terminal.

If it is determined in step S404 that the target base station session information and the source base station session information correspond to each other, the source base station controller requests a call setup to the target base station in step S418.

5 is a flowchart illustrating a method for processing a call of a mobile station located in a border area according to an embodiment of the present invention.

Here, the base station controller may be a source base station controller.

Referring to FIG. 5, when the handover request message is received from the mobile station (S500), the base station controller checks the PN information of the target base station (S502). That is, the base station controller searches the database and determines whether the target base station exists in its own area. As a result of the determination, if the BS does not exist in its own area, the BS controller searches the BS information database for each BS in the boundary area to check the PN information of the target BS.

Then, the base station controller determines the session information of the target base station using the confirmed PN information of the target base station (S504). That is, since the session information for each PN is supported for each PN in the database, the base station controller extracts the session information mapped with the confirmed PN information.

Then, the base station controller compares the determined target base station session information with the source base station session information to determine whether it corresponds (S506).

If it is determined in step S506 that the two session information does not correspond, the base station controller determines whether the signal strength of the target base station is equal to or greater than a second threshold value (S508).

If it is determined in step S508 that the signal strength of the target base station is not equal to or greater than the second threshold value, the base station controller cancels the call with the mobile station in step S510.

If the signal strength of the target base station is equal to or greater than the second threshold value, the base station controller requests the base station controller in which the target base station is located (S512).

If it is determined in step S506 that the session information of the target base station and the session information of the source base station correspond to each other, the base station controller requests the target base station to allocate a traffic channel and establishes a call in step S514.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

As described above, the system and method for processing a call of a mobile terminal located in a border area according to the present invention can be applied to a ping-pong problem due to Hand-Down / Up which may be a problem in the border region between Rev. 0 and Rev.A And the like.

1 is a diagram illustrating a method for processing a call of a mobile terminal in which conventional session information is located in another boundary area.

2 illustrates a call processing system of a mobile terminal located in a border area according to the present invention.

3 is a block diagram schematically illustrating a configuration of a base station controller for processing a call of a mobile station whose session information is located in another border area according to the present invention;

4 is a diagram illustrating a method for processing a call of a mobile terminal whose session information is located in another border area according to the present invention.

FIG. 5 is a flowchart illustrating a method for processing a call of a mobile station located in a border area according to an embodiment of the present invention; FIG.

Description of the Related Art

100: mobile terminal 200: base station

300: base station controller 310:

320: Database 330: Handover processing module

332: Session information determination unit 334: Hand-down determination unit

336: Handover processing unit 340: Traffic channel allocation processing unit

Claims (19)

delete delete delete delete A base station controller for processing a call of a mobile terminal supporting a session in a different border area, A database storing base station information located in the own area and base station information managed by the boundary area base station controller; If the signal strength of the target base station is equal to or greater than the first threshold and it is determined to be the handover time and the handover from the mobile station to the target base station is requested, the mobile station searches the database to check the session information of the target base station, Handover processing module for requesting call setup to a target base station controller located at the target base station when the signal strength of the target base station does not correspond to the session information of the source base station and the signal strength of the target base station is greater than or equal to the specific threshold value larger than the first threshold; / RTI > 6. The method of claim 5, And a traffic channel assignment processor for transmitting a traffic channel assignment request message to the target base station when the call setup request message is received and requesting a session change of the mobile terminal when a traffic channel assignment message is received in response to the message, . 6. The method of claim 5, Wherein the specific threshold value refers to a sum of the first threshold value and the comparison threshold value, the first threshold value is a T_add value, and the comparison threshold value is a T_comp value. 6. The method of claim 5, The handover processing module includes: When handover is requested from the mobile station, the target base station controller searches for the target base station by searching the database. If the target base station controller is different from the target base station controller, session information of the target base station is stored A session information judging unit for judging whether or not it corresponds; A hand-down determining unit for determining whether the signal strength of the target base station is hand-down based on whether the signal strength of the target base station is greater than or equal to a predetermined threshold value as a result of the determination by the session information determining unit; And a handover processor for requesting call setup to the target base station controller when hand-down is determined to be a hand-down result by the hand-down determination unit, . 6. The method of claim 5, Wherein the database comprises: a base station information database in which session information supported by PN and FA is registered for a neighbor list of each base station located in its own area; And a base station information database for each of the boundary region base station controllers in which session information supported by the PN and the FA is registered for the neighbor list of the base station managed by the boundary region base station controller. delete delete delete delete delete A method for processing a call of a mobile terminal located in a border area of a base station controller, Confirming the session information of the target base station when the handover request message to the target base station is received from the mobile station when the signal strength of the target base station is equal to or greater than the first threshold; Determining whether the session information of the target base station corresponds to the session information of the source base station; Determining whether the signal strength of the target BS is greater than or equal to the first threshold; Requesting a call to a target base station controller in which the target base station is located if the signal strength of the target base station is greater than or equal to a predetermined threshold; The method comprising the steps of: 16. The method of claim 15, Further comprising setting a call by requesting a traffic channel assignment to the target BS when the session information of the target BS corresponds to the session information of the source BS. 16. The method of claim 15, Wherein the specific threshold is a sum of the first threshold and the comparison threshold, the first threshold is a T_add value, and the comparison threshold is a T_comp value. 16. The method of claim 15, And terminating the call if the signal strength of the target base station is not equal to or greater than a predetermined threshold value. A recording medium on which a program for executing a method for processing a call of a mobile terminal according to any one of claims 15 to 18 is recorded.

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