KR100955568B1 - System and Method for controlling handover of mobile terminal - Google Patents

Abstract

The present invention provides a handover control system from a source base station to a target base station of a mobile terminal, wherein the mobile terminal adds a radio link addition request message including a scrambling code assigned to the handover region when the mobile terminal enters a handover region. Transmitting an active set update message to the mobile terminal simultaneously with the base station and the target base station; when the mobile station enters the target base station area, the physical channel reset message including a scrambling code assigned to the target base station is received. And a base station controller for transmitting to the mobile station, wherein the source base station and the target base station receiving the radio link addition request message generate the same signal including the scrambling code and the channel code included in the message and transmit the same to the mobile terminal. The mobile terminal A signal including the same code is received from the source base station and the target base station by an active set update message, and when the physical channel reset message is received, a signal including a scrambling code and a channel code assigned to the target base station is received. As such, since the mobile terminal performing the handover receives the same signal from two base stations, the handover performance may be increased.

Handover, Base Station, Scrambling Code

Description

System and Method for controlling handover of mobile terminal

The present invention relates to a system and method for handover control of a mobile terminal, and more particularly, when a mobile terminal performing a handover enters a handover region, a signal having a source scrambling code and a channel code having the same scrambling code and channel code. The present invention relates to a system and a method for handover control of a mobile terminal for increasing the capacity of a cell by using another scrambling code in addition to the scrambling code used by two cells during handover by transmitting to the mobile station.

Time-division synchronous CDMA (TD-SCDMA) system based on TDD (Time Division Duplex) divides a cell into three sectors and uses a different scrambling code for each sector to distinguish the sectors. In addition, different channel codes are used to distinguish mobile terminals belonging to one sector.

However, the TD-SCDMA system can connect up to eight mobile terminals to the base station simultaneously in the case of voice signals.

In addition, TD-SCDMA system is one of the core technologies to perform multi-cell joint detection. By using this technology, performance can be improved by eliminating interference from not only an intra cell but also an inter cell.

In addition, the baton handover applied to the TD-SCDMA system receives a downlink signal from a current cell, which is a cell to which a currently connected base station belongs, while a mobile terminal performing a handover performs a handover. After handover is completed after transmitting an uplink signal to a target cell, which is a cell to which the cell belongs, the current cell is disconnected and a connection with the target cell is maintained using a pre-assigned scrambling code and a channel code. At this time, the base station in the target cell should allocate a channel code for the mobile terminal performing the handover.

However, since the number of mobile terminals that can be connected simultaneously in uplink and downlink is small, when two different channel codes are assigned to the mobile station performing the handover, the number of channel codes to be allocated to the mobile terminals belonging to each cell is reduced. The number of mobile terminals to be connected simultaneously in the cell is reduced.

1 is a diagram illustrating a scrambling code and a channel code allocated to each mobile terminal when a conventional mobile terminal performs handover.

For convenience of description, only one sector is considered in two cells, and it is assumed that a channel code can be assigned to up to four mobile terminals at the same time.

Referring to FIG. 1, the first base station 100a and the second base station 100b allocate codes of S1, W4, S2, and W4 to the mobile terminal 110 performing the handover. At this time, the mobile terminal 110 receives a signal assigned S1 and W4 from the first base station 100a and transmits a signal assigned S2 and W4 to the second base station 100b.

However, in the conventional case as described above, since the S2 and W4 cannot be used for another mobile terminal that does not perform the handover in the second base station, the mobile terminal connected to the second base station does not perform the handover while performing the handover. Since the number of channel codes to be used for the mobile terminal is reduced, the system capacity of the cell is reduced at the second base station.

Accordingly, an object of the present invention is to provide a mobile terminal handover control system and method for increasing handover performance by allowing a mobile terminal performing handover to receive the same signal from two base stations.

Another object of the present invention is to provide a mobile terminal handover control system and method for increasing the capacity of a cell by using another scrambling code in addition to the scrambling code used in two cells during handover.

It is still another object of the present invention to provide a system and method for handover control of a mobile station that receives the same downlink signal from a current cell and a target cell when the mobile station enters a handoff area.

According to an aspect of the present invention to achieve the above object, in the handover control system from the source base station to the target base station of the mobile terminal, using the measurement report message received from the mobile terminal to determine whether to handover, As a result of the determination, when the mobile terminal enters the handover region, the mobile terminal adds a radio link addition request message including a scrambling code allocated to the handover region to the source base station and the target base station and simultaneously the scrambling code to the mobile terminal. And a base station controller for transmitting an active set update message including a physical channel reconfiguration message including a scrambling code assigned to the target base station when the mobile station enters the target base station area. But request to add the radio link The source base station and the target base station receiving the message generate the same signal including the scrambling code included in the message and the channel code assigned to the mobile terminal and transmit the same signal to the mobile terminal, and the mobile terminal transmits the active set update message. Receiving a signal including the same code from the source base station and the target base station by the controller, and receiving a signal including a scrambling code and a channel code assigned to the target base station when a physical channel reset message is received from the base station controller. A handover control system for a mobile terminal is provided.

The radio link addition message includes a mobile station identification number, a scrambling code assigned to the handover region, and a channel code assigned to the mobile terminal.

According to another aspect of the present invention, a base station controller for controlling handover from a source base station to a target base station of a mobile terminal, the code information database storing a scrambling code allocated to each sector of each base station and a channel code of each mobile terminal, A handover determination unit determining whether the mobile terminal is handover by using the measurement report message transmitted from the mobile terminal, and when the mobile terminal enters a handover region, the code information Search the database to extract the scrambling code assigned to the handover area and the channel code of the mobile terminal, and allocates, and when the mobile terminal is handed over to the target base station area, the code information database is searched to the target base station Assigned scrambling code and the A code allocation unit for extracting and allocating a channel code of a terminal and generating a message including a scrambling code and channel code information allocated by the code allocation unit and transmitting the generated message to the mobile station, the source base station and the target base station; A base station controller is provided.

The scrambling code allocated to each sector of each base station and the scrambling code allocated to the handover area are stored in the code information database in advance.

When the mobile station enters the handover area, the message generator generates a radio link addition request message including a scrambling code and a channel code allocated to the handover area and transmits the message to the source base station and the target base station. An active set update message including a scrambling code and a channel code allocated to the handover area is generated and transmitted to the mobile station.

The source base station and the target base station receiving the radio link addition message generate the same signal including the scrambling code and the channel code included in the radio link addition request message and provide the same to the mobile station.

In addition, when the mobile station is handed over to the target base station, the message generator generates a physical channel reset message including a scrambling code and a channel code of the target base station allocated by the code allocator and transmits the generated physical channel reset message to the mobile station. .

According to another aspect of the present invention, a method for controlling handover from a source base station to a target base station of a mobile terminal, the method comprising: (a) a base station controller whether to handover using a measurement report message transmitted from the mobile terminal; If it is determined that the access point is entered into the handover area, a radio link establishment request message including a scrambling code and a channel code allocated to the handover area is generated and transmitted to the source base station and the target base station and the handover area. Generating and transmitting an active set update message including a scrambling code and a channel code allocated to the mobile station; and (b) the mobile terminal receiving the active set update message sends an active set update complete message to the base station controller. Transmit to the source and target base stations Simultaneously receiving the same signal to which the data scrambling code and the channel code are applied, (c) when the mobile terminal is handed over to the target base station in the base station controller, a physical information including a scrambling code and a channel code for the target base station Generating and transmitting a channel reset message to the mobile terminal; (d) a signal to which a scrambling code and a channel code included in the physical channel reset message are applied to the base station controller; It provides a handover control method of a mobile terminal, comprising the step of receiving from the target base station.

The active set update message is a message for the mobile terminal to connect uplink and downlink with a source base station and a target base station.

After the step (c), if the mobile station completes the handover in the base station controller, transmitting a session release request message to the source base station; release the session with the mobile station at the source base station and complete the session release completion message. A method for handover control of a mobile terminal is provided, further comprising the step of transmitting to the base station controller.

As described above, according to the present invention, since a mobile terminal performing a handover receives the same signal from two base stations, it is possible to provide a system and method for handover control of a mobile terminal in which handover performance is increased.

In addition, since a different scrambling code is used in addition to the scrambling code used in the two cells during the handover, a handover control system and method of a mobile terminal can increase the capacity of a cell.

 In addition, when the mobile station receives the same signal with the same scrambling code and channel code assigned from the current cell and the destination cell, the mobile station can combine the signals received from the two cells, thereby obtaining the gain of MRC. As a result of increasing the power-to-interference ratio (SINR) of the received signal, a handover control system and method of a mobile terminal capable of increasing the performance of handover can be provided.

In addition, since the scrambling code assigned to the mobile terminal performing the handover is not used in the current cell and the target cell, the hand of the mobile terminal that can alleviate the limitation of the number of channel codes to be allocated to the mobile terminal that does not perform the handover. It is possible to provide an over control system and method.

Details of the above-described objects and technical configurations of the present invention and the effects thereof according to the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

2 is a view showing a handover control system of a mobile terminal according to the present invention.

Referring to FIG. 2, when the mobile station 200 hands over from the first base station area A to the second base station area B, the base station controller 220 may scrambling code and channel code to the mobile station 200. Allocate

That is, the base station controller 220 determines whether to handover by using the measurement report message received from the mobile terminal 200, and if the mobile terminal 200 enters the handover area C as a result of the determination And transmitting the radio link addition request message including a scrambling code allocated to the handover area C to the first base station 210a and the base station 210b and simultaneously sending the scrambling code to the mobile terminal 200. Transmit an active set update message including a.

In addition, when the mobile station 200 enters the second base station area B, the base station controller 220 moves the physical channel reconfiguration message including a scrambling code assigned to the second base station 210b. Transmit to the terminal 200.

The first base station 210a and the second base station 210b that receive the radio link addition request message generate a signal including a scrambling code included in the message and a channel code assigned to the mobile terminal 200. It transmits to the mobile terminal 200.

The mobile station 200 receives a signal including the same code from the first base station 210a and the second base station 210b by the active set update message, and receives a physical channel reset message from the base station controller 220. When is received, a signal including a scrambling code and a channel code allocated to the second base station 210b is received.

In more detail, the mobile terminal 200 is assigned a code of S1, W1 in the first base station region (A).

When the mobile terminal 200 enters the handover area C, the base station controller 220 allocates S3 and W1 not allocated to the first base station area A and the second base station area B. FIG. The radio link addition request message is transmitted to the first base station 210a and the second base station 210b, and an active set update message for allocating S3 and W1 to the mobile terminal 200 is transmitted.

Then, the first base station 210a and the second base station 210b generate a signal including S3 and W1 included in the radio link addition request message and transmit the generated signal to the mobile terminal 200.

The mobile terminal 200 entering the handover area C receives the same signal including S3 and W1 from the first base station 210a and the second base station 210b, and combines the received signals. .

When the mobile terminal 200 enters the second base station area B through the handover area C, the second base station 210b transmits a signal including S2 and W1 assigned thereto. Transmit to 200.

As described above, the base station controller 220 transmits the scrambling code and channel code information to be allocated during the handover to the mobile terminal 200 and the scrambling code and channel code information to be used by the target base station after the handover is completed.

In addition, when the mobile terminal 200 enters the handover area C, the base station controller 220 may use the scrambling code and channel code allocated to the second base station 210b. The radio link addition request message is transmitted to the channel code.

Here, the base stations 210a and 210b may be named differently according to the type of network, for example, a base transceiver station (BTS) for a second generation network, a Node B for a third generation network, and the like. For example, 220 may be named differently according to a network such as a base station controller (BSC) for a second generation network and a radio network controller (RNC) for a third generation network.

A detailed description of the base station controller performing the above role will be given with reference to FIG. 3.

3 is a block diagram schematically showing the configuration of a base station controller according to the present invention.

Referring to FIG. 3, the base station controller includes a communication unit 300 for communication with a base station, a handover determination unit 310 for determining whether to handover, a code information database 320, a code allocation unit 330, and a message. The generation unit 340 is included.

The code information database 320 stores a scrambling code allocated to each sector of each base station and a channel code of each mobile terminal. That is, the scrambling code allocated to each sector of each base station and the scrambling code allocated to the handover area are stored in the code information database 320 in advance.

The handover determination unit 310 determines whether the mobile terminal is handed over using the measurement report message transmitted from the mobile terminal.

The code allocator 330 searches for the code information database 320 and the scrambling code allocated to the handover area when the mobile terminal enters the handover area as a result of the determination of the handover decision unit 310. And extracts and allocates a channel code of the mobile terminal, and when the mobile terminal is handed over to a target base station area, the scrambling code assigned to the target base station and the channel of the mobile terminal are searched by searching the code information database 320. Extract the code and assign it.

The message generator 340 generates a message including a scrambling code and channel code information allocated by the code allocator 330 and transmits the message to the mobile station, the source base station and the target base station.

That is, when the mobile station enters a handover area, the message generator 340 generates a radio link addition request message including a scrambling code and a channel code allocated to the handover area, thereby generating the source base station and the target. In addition to transmitting to the base station, it generates an active set update message including a scrambling code and a channel code allocated to the handover region and transmits the generated message to the mobile station.

Here, the source base station and the target base station receiving the radio link addition message generate a signal including a scrambling code and a channel code included in the radio link addition request message and provide the signal to the mobile station.

In addition, the message generator 340 generates a physical channel reset message including a scrambling code and a channel code of the target base station allocated by the code allocator 330 when the mobile terminal is handed over to the target base station. To transmit to the mobile terminal.

4 is a conceptual diagram illustrating an inter-cell handover belonging to one cluster according to the present invention.

Hereinafter, for convenience of description, it is assumed that three cells are bundled into one cluster, and only one sector is considered in a cell divided into three sectors, and a channel code can be assigned to up to three mobile terminals at the same time. .

Referring to FIG. 4, in order to distinguish a sector in each cell, the first cell A, the second cell B, and the third cell C each use different scrambling codes, and the mobile terminal belongs to each sector. Assign different channel codes to distinguish between them.

That is, S1 is allocated to the first cell A, S2 is allocated to the second cell B, and S3 is assigned to the third cell C.

The handover occurs when the size of the received signal from the base station in the current cell in the outer region of the cell is smaller than the target cell, so the handover is mainly performed in the outer region of the cell. Therefore, the outer constant area of the cell will be described as a handover area (D).

The base station controller allocates a new scrambling code S4 different from the scrambling code assigned to the current cell and the target cell for the mobile terminal performing handover between cells belonging to each cluster in the handover area D.

That is, the base station controller allocates S4 and W1 for the mobile terminal 400 performing the handover from the first cell A to the second cell B. FIG. Then, the first base station 410a and the second base station 410b transmit the same signal including the allocated S4 and W1 to the mobile station 400.

In addition, the base station controller allocates S4 and W2 for the mobile terminal 450 performing the handover from the third cell C to the second cell B. FIG. Then, the third base station 410c and the second base station 410b transmit the same signal including the allocated S4 and W2 to the mobile station 450.

As described above, when the mobile station receives the same signal with the same scrambling code and channel code assigned from the current cell and the target cell, the mobile station can combine the signals received from the two cells. Therefore, the benefits of MRC can be obtained. This results in an increase in the power-to-interference ratio (SINR) of the received signal, thereby increasing handover performance.

In addition, since the scrambling code assigned to the mobile terminal in the handover region is not used in the current cell and the target cell, the limitation of the number of channel codes to be allocated to the mobile terminal that does not perform the handover can be relaxed.

5 is a conceptual diagram illustrating an inter-cell handover belonging to another cluster according to the present invention.

Referring to FIG. 5, the first cell A and the second cell B are cells belonging to one cluster and the third cell C is a cell belonging to another cluster.

Therefore, different scrambling codes are allocated for the mobile terminal 500 performing the handover from the first cell A to the third cell C. FIG.

That is, the scramble code assigned for the mobile terminal performing the handover in the cluster to which the first cell A belongs is S4, and the mobile station performing the handover in the cluster to which the third cell C belongs is S7. The scrambling code of is assigned.

The mobile terminal 500 performing inter-cell handover belonging to another cluster receives a signal assigned S4 and W1 from the first base station 510a and receives a signal assigned S7 and W1 from the third base station 510c. Receive.

The mobile terminal 500, which has received a signal to which another scrambling code is assigned, detects a signal coming from a cell having a larger received signal from among signals received from two cells using multi-cell combined detection.

In this case, channel codes for mobile terminals performing inter-cell handovers belonging to different clusters have a higher priority.

That is, if the inter-cell handover process belonging to one cluster and the inter-cell handover process belonging to the other cluster are performed at the same time, the channel code is assigned to the mobile station performing the inter-cell handover belonging to each cluster, and then the remaining codes are assigned to the other cluster. Allocates to the mobile station to perform the inter-cell handover.

6 is a flowchart illustrating a handover control method of a mobile terminal according to the present invention.

Referring to FIG. 6, the mobile terminal transmits a measurement report message to a base station controller (S600), and the base station controller determines whether to perform handover of the mobile terminal using the measurement report message (S602). ). At this time, the mobile station transmits a measurement report message to the base station controller and performs open loop pre-synchronization with the base station of the target cell.

When the mobile station enters the handover region as a result of the determination of S602, the base station controller generates a radio link addition request message including a scramble code and a channel code not assigned to the source base station and the target base station. In step S604, the processor transmits the data to the source base station and the target base station.

The radio link addition request message is a message for changing a scrambling code and a channel code included in a signal transmitted to the mobile terminal, and the base station controller searches for a database provided with a scrambling code that is not allocated in a current cell and a target cell. The channel code is selected and included in the radio link addition request message and transmitted.

The source base station and the target base station receiving the radio link addition request message transmit a Radio Link addition Response message to the base station controller in response to the message (S606).

Then, the base station controller transmits an Active Set Update message including the selected scrambling code and channel code to the mobile terminal so that the mobile terminal performing the handover connects the uplink and downlink links of the current cell and the target cell (S608). ).

 That is, the base station controller allocates the selected scrambling code and channel code to the mobile terminal through the Active Set Update message.

The mobile station receiving the Active Set Update message transmits an Active Set Update Complete message to the base station controller (S610).

Then, the mobile terminal simultaneously receives signals to which the same scrambling code and channel code are applied from the current cell and the target cell (S612).

Then, when the mobile terminal enters the target base station area, the base station controller transmits a Measurement Control message to the mobile terminal to receive the measurement report of the target base station (S614).

Then, the mobile terminal transmits the information measured from the target base station to the base station controller through a Measurement Report message (S616).

That is, conventionally, since the scrambling code and channel code information of the target base station are received through the Active Set Update message, it is not necessary to newly receive the information of the target base station, but in the present invention, the scrambling code and channel code information of the target base station is received. Should receive

Therefore, the base station controller transmits a physical channel reconfiguration message including a scrambling code and a channel code assigned to a target base station to the mobile terminal (S618), and the mobile terminal transmits a physical channel if the message is normally received. A physical channel reconfiguration complete message is transmitted to the base station controller (S620).

Then, the base station controller determines that the handover is completed and transmits a Deletion Request message to the source base station (S622).

Then, the source base station releases the session with the mobile terminal and transmits a Deletion Request Complete message to the base station controller (S624).

Then, the mobile terminal maintains the connection with the target base station by using the information of the scrambling code and the channel code of the target base station received through the Physical Channel Reconfiguration message (S626).

Through this process, the channel code to be allocated to the mobile station performing the handover not only restricts the use of the channel code at the source base station and the target base station, but also performs the handover from the source base station and the target base station. By receiving a signal using the same scrambling code and channel code, a gain of maximum ratio combining (MRC) can be obtained.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the system and method for handover control of a mobile terminal according to the present invention is suitable for a technique for increasing handover performance of a mobile terminal as well as increasing capacity of a cell.

1 is a diagram illustrating a scrambling code and a channel code allocated to each mobile terminal when a conventional mobile terminal performs handover;

2 is a view showing a handover control system of a mobile terminal according to the present invention.

3 is a block diagram schematically showing the configuration of a base station controller according to the present invention;

4 is a conceptual diagram illustrating an inter-cell handover belonging to one cluster according to the present invention.

5 is a conceptual diagram illustrating intercell handover belonging to another cluster according to the present invention;

6 is a flowchart illustrating a handover control method of a mobile terminal according to the present invention;

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

100, 210, 410, 510: base station 110, 200, 400, 450, 500: mobile terminal

220: base station controller 300: communication unit

310: handover decision unit 320: code information DB

330: code allocation unit 340: message generating unit

Claims (15)

In the handover control system from the source base station to the target base station of the mobile terminal, When the mobile terminal enters a handover region as a result of determining whether to handover by using the measurement report message received from the mobile terminal, the source base station and the radio base station to request a radio link addition request message including a scrambling code assigned to the handover region; A physical channel reset message including an scrambling code allocated to a target base station when the mobile station enters the target base station and simultaneously transmits an active set update message including the scrambling code to the mobile station. Including a base station controller for transmitting to the mobile terminal, The source base station and the target base station receiving the radio link addition request message generate and transmit the same signal to which the scrambling code included in the radio link addition request message and the channel code assigned to the mobile terminal are applied to the mobile terminal, The mobile station receives a signal including the same code from the source base station and the target base station by the active set update message, and when a physical channel reset message is received from the base station controller, the scrambling code and channel assigned to the target base station. Handover control system of a mobile terminal, characterized in that for receiving a signal comprising a code. The method of claim 1, The radio link addition request message includes a mobile station identification number, a scrambling code assigned to a handover region, and a channel code assigned to the mobile terminal. A base station controller for controlling handover from a source base station to a target base station of a mobile terminal, A code information database storing a scrambling code allocated to each sector of each base station and a channel code of each mobile terminal; A handover determination unit determining whether the mobile terminal is handover by using the measurement report message transmitted from the mobile terminal; As a result of the determination of the handover determination unit, when the mobile terminal enters the handover region, the code information database is searched, the scrambling code allocated to the handover region and the channel code of the mobile terminal are extracted and allocated, and the movement is performed. A code allocation unit for searching for the code information database and extracting and assigning a scrambling code allocated to the target base station and a channel code of the mobile terminal when the terminal is handed over to a target base station area; and Message generation unit for generating a message including a scrambling code and channel code information allocated by the code allocation unit to the mobile terminal, the source base station and the target base station A base station controller comprising a. The method of claim 3, And a scrambling code allocated to each sector of each base station and a scrambling code allocated to a handover area are stored in the code information database in advance. The method of claim 3, When the mobile station enters the handover area, the message generator generates a radio link addition request message including a scrambling code and a channel code allocated to the handover area and transmits the message to the source base station and the target base station. And generating and transmitting an active set update message including a scrambling code and a channel code allocated to the handover area to the mobile station. The method of claim 5, The base station and the target base station receiving the radio link addition request message generate the same signal to which the scrambling code and the channel code included in the radio link addition request message are applied to the mobile station, respectively. The method of claim 3, When the mobile station is handed over to the target base station, the message generator generates a physical channel reset message including a scrambling code and a channel code of the target base station allocated by the code allocator and transmits the generated physical channel reset message to the mobile station. Base station controller. In the method for controlling the handover from the source base station of the mobile terminal to the target base station,  (a) When the base station controller determines the handover using the measurement report message transmitted from the mobile terminal and enters the handover region, the radio link establishment request including a scrambling code and a channel code allocated to the handover region Generating and transmitting a message to the source base station and the target base station and simultaneously generating and transmitting an active set update message including a scrambling code and a channel code allocated to the handover area to the mobile station; (b) the mobile terminal receiving the active set update message transmitting an active set update complete message to the base station controller and simultaneously receiving the same signal to which the scrambling code and the channel code are applied from the source base station and the target base station; (c) generating a physical channel reconfiguration message including a scrambling code and a channel code for the target base station when the mobile terminal is handovered over to the target base station by the base station controller; (d) transmitting, by the mobile terminal, a physical channel reset completion message to the base station controller and receiving a signal to which a scrambling code and a channel code included in the physical channel reset message are applied from the target base station; Handover control method of a mobile terminal comprising a. The method of claim 8, After the step (b), the mobile station combines the signals transmitted from the source base station and the target base station, respectively. The method of claim 8, The scrambling code allocated to the handover area is a scrambling code not assigned to the source base station and the target base station. The method of claim 8, The active set update message is a handover control method of a mobile terminal, characterized in that the mobile terminal is a message for connecting uplink and downlink with a source base station and a target base station. The method of claim 8, After step (c), Transmitting, by the base station controller, a session release request message to the source base station when the mobile terminal is handed over; And releasing, at the source base station, the session with the mobile station and transmitting a session release completion message to the base station controller. The method of claim 1, The mobile communication network to which the handover control system of the mobile terminal is applied is a TDD-based cellular mobile communication network for performing multi-cell combined detection. The method of claim 3, The mobile communication network to which the base station controller is applied is a base station controller characterized in that the TDD-based cellular mobile communication network performing multi-cell combined detection. The method of claim 8, The mobile communication network to which the handover control method of the mobile terminal is applied is a TDD-based cellular mobile communication network which performs multi-cell combined detection.

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