KR20010008722A - Method for hand-off using location information in mobile telecommunication sysem - Google Patents

Abstract

PURPOSE: A handoff method is provided to mitigate interference affect of mobile stations at a handoff region by performing the handoff at a desired position of a mobile station. CONSTITUTION: A handoff method for use in a mobile communication system is described which uses position information. The handoff is judged in addition to not only the strength of base station signals received by a mobile station but also position information of the mobile station. Generation frequency of the handoff is lowered and the number of mobile stations receiving data from a plurality of base stations is reduced.

Description

Handoff method using location information in mobile communication system {METHOD FOR HAND-OFF USING LOCATION INFORMATION IN MOBILE TELECOMMUNICATION SYSEM}

The present invention relates to a handoff method of a mobile communication system, and more particularly, to a handoff method using location information.

In a mobile communication system, a base station may be divided into a base transceiver system and a base station controller controlling a plurality of base station transmission systems. In addition, the mobile communication system includes a base transceiver station for wireless communication with a mobile station, a base station controller for controlling the base station transmission system, a base station controller and a public switched telephone network (PSTN). Mobile Switching Ceneter which is responsible for transmitting / receiving data and control signals, and Base Station Manager which is in charge of operation and maintenance of each base station transmission system and base station controller. .

In the conventional mobile communication system, the conventional handoff scheme is based on the strength of base station signals received by the mobile station. The following description shows an example of a conventional handoff scheme in a mobile communication system. In other words, a so-called MAHO (Mobile Assist Handoff), the base station controller (Base Station Controller) determines whether to perform the handoff based on the information transmitted by the mobile station. The mobile station determines that the signal strength (Ec / Io) of the neighboring base transceiver systems received is a threshold value previously given from the serving base station transmission system. ), The mobile station sends a Pilot Strength Measurement Message (PSMM) to the service base station transmission system to indicate that handoff is required. The base station controller receiving the message from the service base station transmission system transmits a handoff direction message so that the mobile station simultaneously receives the same data from two base station transmission systems. That is, the base station controller controls the corresponding neighboring base station transmission system to transmit the same data simultaneously with the service base station transmission system. And the threshold ( The signal strength of the base station is a signal threshold having a strength that the mobile station can demodulate.

In addition, the mobile station has a certain threshold ( Even if it falls below), the mobile station sends a PSMM message to the serving base station transmission system. This causes the base station controller to send a Handoff Direction Message to stop the data transmission to the base station transmission system because the signal of the corresponding base station transmission system is attenuated based on the message. And the threshold ( Is a signal threshold having a strength such that the mobile station cannot demodulate the signal of the base station.

As described above, the conventional handoff was a method of determining whether to perform a handoff based only on the strength of base station signals received by the mobile station. This prevents the base station from knowing if the mobile station is really in a position where handoff is needed. However, in the conventional handoff scheme described above, even if the channel situation changes instantaneously even though it is an area where no handoff is required, the mobile station unnecessarily requires a handoff message even when a specific base station signal becomes larger or smaller. The number of transmissions can be frequent. This causes the mobile station to receive data from several base stations even though it is sufficient to actually receive data from only one serving base station. In addition, although the mobile station in the handoff area is in a position to receive data from a plurality of base stations, it is possible to frequently add or drop the pilot of the base station according to the change in signal strength. This results in a factor that causes a lot of unnecessary processing between the mobile station and the base station and increases the interference between the mobile stations.

It is therefore an object of the present invention to provide a method in which a handoff is made at a really necessary position of a mobile station in a mobile communication system, thereby reducing the occurrence of unnecessary handoffs and reducing the interference effects of mobile stations in a handoff area.

Accordingly, another object of the present invention is to provide a method in which an efficient handoff can be performed by reducing unnecessary processing load between a base station and a mobile station in a mobile communication system.

It is still another object of the present invention to transmit a location information to a base station by a mobile station in a mobile communication system so that the base station performs handoff based on the location of the mobile station as well as the handoff request message of the mobile station. In providing.

It is still another object of the present invention to provide a first distance threshold in which a mobile station in a base station cell can no longer demodulate data from a received signal transmitted from the base station in a mobile communication system, and the mobile station in the base station cell transmits a signal from a neighboring base station. The present invention provides a method for determining whether to perform a handoff by setting a second distance threshold capable of demodulating data from a received signal and comparing the distance threshold with location information transmitted from a mobile station.

Still another object of the present invention is to provide a method of determining whether to perform handoff by pre-stored location information of a handoff area in a mobile communication system and comparing the previously stored handoff location information with location information transmitted from a mobile station. Is in.

According to an aspect of the present invention, a handoff method using location information in a mobile communication system includes a first distance threshold value in which a mobile station in a predetermined base station cell can no longer demodulate data from a received signal transmitted from the base station. And a first step of setting a second distance threshold at which a mobile station in the base station cell can demodulate data from a received signal transmitted from a neighboring base station, and a first between the service base station and the mobile station according to location information of the mobile station. A second process of calculating a distance and a second distance between the neighboring base station and the mobile station and comparing the distance thresholds with each other; and when the received signal of the neighboring base station exceeds a T-ADD threshold, If the result of the comparison process indicates that the first distance is smaller than the second distance threshold of the serving base station, handoff is performed. When the first distance is greater than the second distance threshold of the serving base station, the first distance is smaller than the first distance threshold of the serving base station, and the second distance is greater than the first distance threshold of the neighboring base station. Do not perform the handoff, the first distance is greater than the second distance threshold of the serving base station, the first distance is less than the first distance threshold of the serving base station, and the second distance is the second distance of the serving base station; When the distance is larger than the threshold and the second distance is smaller than the first distance threshold of the neighboring base station is characterized in that the third step of performing the handoff.

In another aspect, the present invention provides a handoff method using location information in a mobile communication system, the first process of the mobile station transmitting its location information together with a handoff request message, and a service base station transmitting the location information to a previously stored handoff area. And a second step of comparing the location information of the mobile station with the received information of the neighboring base station exceeding the T-ADD threshold. If the location information of the area does not correspond to the handoff, and if the comparison result of the second process corresponds to the location information of the previously stored handoff area of the mobile station, performing the handoff; It is characterized by consisting of three processes.

1 illustrates a distance threshold in accordance with an embodiment of the present invention.

2 is a view for explaining a process of determining a handoff using a distance between a mobile station and a base station according to the first embodiment of the present invention.

3 is a view for explaining a process of determining a handoff by the database of the location information of the handoff area according to a second embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Specific details appear in the following description, which is provided to aid a more general understanding of the present invention, and it should be understood by those skilled in the art that the present invention may be practiced without these specific details. It will be self explanatory. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In the description of the present invention, it is assumed that the mobile station can provide its location information to the base station. The handoff method according to the present invention determines whether the handoff is performed by using the location information of the mobile station as well as the signal strength of the base station measured by the mobile station. Here, the location information transmitted by the mobile station may be accurate location information (eg, latitude and longitude information) of the mobile station, and is not an exact location of the mobile station, but a location where the base station can extract the location of the mobile station from the transmitted information. It can be a parameter. The base station can know the exact location of the mobile station using the location information transmitted by the mobile station.

In the present invention, a method of performing handoff using location information in a mobile communication system is proposed as two embodiments as follows. In each embodiment, the mobile station requests a handoff if the received strength of other base station signals received other than the serving base station is greater than the T_ADD threshold or if the received strength of the corresponding base station signal exceeds the predetermined time and becomes less than the T_DROP threshold. It transmits its location information to the serving base station along with the message. This is because, if each mobile station always transmits position information at a predetermined time interval, the power consumption problem of the mobile station, the reverse power control problem, and the message processing load problem of the base station become large.

According to an embodiment of the present invention, a first method of performing handoff using location information extracts a distance between a base station and a mobile station from location information transmitted by a mobile station to determine whether to perform handoff.

The following equation (1) can be used to calculate the distance between the mobile station and the base station.

Distance between mobile station and base station (D) =

Where above Is the X-axis coordinate of the base station, Is the X-axis coordinate of the mobile station. And said Is the Y-axis coordinate of the base station, Is the Y-axis coordinate of the mobile station.

Meanwhile, the base station receives a message requesting handoff from the mobile station and location information of the mobile station. The handoff request message includes identification information of the corresponding base station and reception strength. The handoff request message may be a PSMM message. The base station receiving the handoff request message and the location information of the mobile station calculates the distance between the mobile station and the base station, and after performing a comparison with the distance threshold according to an embodiment of the present invention, determines whether to perform handoff. do.

1 is a diagram illustrating a distance threshold according to an embodiment of the present invention.

The D_DROP distance threshold 10 and the D_ADD distance threshold 20 according to an embodiment of the present invention are set based on the degree to which radio waves are attenuated with distance. In order to determine whether to perform a handoff by using the distance between the mobile station and the base station 30, the base station 30 can receive and demodulate a base station signal different from the area that the base station 30 can serve. The area is set based on the degree of attenuation according to the distance of radio waves. In the cell design, the above-described area is set in consideration of the structure, the topographical characteristics, and the propagation channel environment located in the cell in advance.

That is, the radio wave is attenuated according to the distance, and the D_DROP distance threshold 10 is set based on the attenuation degree. The D_DROP distance threshold 10 means a distance threshold at which a mobile station within a particular cell can no longer demodulate data from a received signal of a cell to which it belongs. At this time, if the distance between the mobile station and the base station is greater than the D_DROP distance threshold 10, the mobile station can remove the pilot signal of the cell to which it belongs. The D_ADD distance threshold 20 means a distance threshold at which a mobile station within a specific cell can demodulate data from a received signal transmitted from a neighboring cell. At this time, if the distance between the mobile station and the base station is greater than the D_ADD distance threshold 20, the mobile station can add the pilot signal of the other cell to the Active Set.

2 is a view for explaining a process of determining a handoff using the distance between a mobile station and a base station according to the first embodiment of the present invention.

For convenience of description, the first base station 210 is referred to as a serving base station, and the second base station 220 is referred to as a neighbor base station. The distance between the mobile station and the first base station 210 is referred to as D1, and the distance between the mobile station and the second base station 220 is referred to as D2.

First, when the received signal of the neighboring base station exceeds the T_ADD threshold, the mobile station transmits a handoff request message and location information to the serving base station. In this case, the mobile station may be a case where the mobile station requests a handoff to incorporate a pilot signal of a neighboring base station other than the serving base station into the active set. The service base station calculates a distance between the base station and the mobile station based on the location information. And D1 In this case, the serving base station does not perform the handoff according to the distance threshold condition according to the embodiment of the present invention. In this case, even though the mobile station receives a sufficiently demodulated signal from the service base station, the signal of the neighboring base station suddenly increases, and thus, the mobile station may be regarded as a situation in which the mobile station transmits a handoff request message.

Also , ego (At this time, the position of the mobile station corresponds to the second position 230.), the serving base station according to the embodiment of the present invention does not perform a handoff. In this case, the mobile station may be regarded as a case where the signal of the neighboring base station is temporarily enabled in a situation where the mobile station is located in the handoff area but the distance from the neighboring base station is relatively far.

And , ego , (At this time, the position of the mobile station corresponds to the third position 250.), the serving base station according to the embodiment of the present invention performs a handoff. In this case, the serving base station may transmit a hand-off direction message to the mobile station, whereby the mobile station may incorporate the pilot signal of the neighboring base station into the active set. In this case, according to an embodiment of the present invention, the base station controller performs a handoff to control the serving base station transmission system and the neighboring base station transmission system to simultaneously transmit the same data to the mobile station.

Next, when the received signal of the neighboring base station is below the T_DROP threshold, the mobile station sends a handoff request message and location information to the serving base station. In this case, when the mobile station is simultaneously receiving data from one or more other neighbor base stations other than the service base station, the signal strength of another specific neighboring base station is lower than the reference value, so that the mobile station actively sets the pilot signal of the specific neighboring base station. It may be a case of requesting a handoff to remove and stop data transmission of the specific neighboring base station. The service base station calculates a distance between the base station and the mobile station based on the location information. And D1 (The position of the mobile station corresponds to the first position 230), the service base station is a hand according to the distance threshold condition according to the embodiment of the present invention because the mobile station is far from the neighboring base station. Perform off. At this time, in the embodiment of the present invention, the base station controller may issue a data transmission stop command to a specific base station transmission system and transmit a hand-off direction message to the mobile station. The mobile station may remove the pilot signal of the specific neighboring base station transmission system or the neighboring base station from the active set.

Also , ego (The position of the mobile station corresponds to the second position 230), the serving base station performs a handoff since the mobile station is far from the neighboring base station according to the embodiment of the present invention. At this time, in the embodiment of the present invention, the base station controller may issue a data transmission stop command to a specific base station transmission system and transmit a hand-off direction message to the mobile station. The mobile station may remove the pilot signal of the specific neighboring base station transmission system or the neighboring base station from the active set.

And , ego , In this case, the serving base station according to the embodiment of the present invention does not perform a handoff. In this case, even if the mobile station makes a handoff request because the signal of the neighboring base station temporarily drops, the serving base station determines that the mobile station is still located at a distance sufficient to maintain signal information from the neighboring base station. There is a number.

Next, when the received signal of the serving base station is less than or equal to the T_DROP threshold, the mobile station transmits a handoff request message and location information to the serving base station. In this case, the mobile station may enter the jurisdiction of the neighboring base station from the jurisdiction of the service base station, so that the serving base station should be changed. The service base station calculates a distance between the base station and the mobile station based on the location information. And , ego , In this case, the serving base station according to the embodiment of the present invention does not perform a handoff. In this case, even if the mobile station makes a handoff request because the received signal strength from the service base station transmission system is weakened, the base station controller is located at a distance such that the mobile station still maintains signal information from the service base station transmission system. This can be the case. And ego , (At this time, the position of the mobile station corresponds to the fourth position 260.) or (At this time, the position of the mobile station corresponds to the fifth position 270.) If so, the serving base station according to the embodiment of the present invention performs a handoff. In this case, according to an embodiment of the present invention, the base station controller may transmit a handoff performance message to the mobile station and change the service base station transmission system of the mobile station to a corresponding base station transmission system.

On the other hand, according to the second method of performing the handoff using the location information according to the embodiment of the present invention, the base station stores the location information for the handoff area in a database in advance. The base station compares the transmitted mobile station location information with the contents of the database to determine whether to perform a handoff.

3 is a view for explaining a process of determining a handoff by making a database of location information of a handoff area according to a second embodiment of the present invention. Hereinafter, a second embodiment of the present invention will be described with reference to FIG. 3.

For convenience of description, the first base station 310 is called a serving base station, and the second base station 320 is called a neighbor base station.

First, when the received signal of the neighboring base station exceeds the T_ADD threshold, the mobile station transmits a handoff request message and location information to the serving base station. In this case, the mobile station may be a case where the mobile station requests a handoff to incorporate a pilot signal of a neighboring base station other than the serving base station into the active set. The service base station compares the location information with location information for the handoff area 330 stored in a database. If the location information of the mobile station does not correspond to the location information in the handoff area 330 stored in the database (in this case, it corresponds to the first location 340 of FIG. 3), the service base station. Does not perform a handoff. In this case, although the mobile station receives a sufficiently demodulated signal from the serving base station, the signal of the neighboring base station suddenly increases, and thus, the mobile station may be regarded as a situation in which the mobile station transmits a handoff request message.

Also, as a result of the comparison, if the location information transmitted from the mobile station corresponds to the location information in the handoff area 330 stored in the database, for example, the second location 350, the service base station performs a handoff. Perform. In this case, the serving base station may transmit a handoff performance message to the mobile station, whereby the mobile station may incorporate the pilot signal of the neighboring base station into the active set. In this case, according to an embodiment of the present invention, the base station controller performs a handoff to control the serving base station transmission system and the neighboring base station transmission system to simultaneously transmit the same data to the mobile station.

Next, when the received signal of the neighboring base station is below the T_DROP threshold, the mobile station sends a handoff request message and location information to the serving base station. In this case, when the mobile station is simultaneously receiving data from one or more other neighbor base stations other than the service base station, the signal strength of another specific neighboring base station is lower than the reference value, so that the mobile station actively sets the pilot signal of the specific neighboring base station. It may be a case of requesting a handoff to remove and stop data transmission of the specific neighboring base station. The service base station compares the location information with the location information for the handoff area 330 stored in the database.

As a result of the comparison, if the location information of the mobile station does not correspond to the location information in the handoff area 330 stored in the database (in this case, it corresponds to the first location 340 of FIG. 3). Since the location is out of the handoff area 330, the serving base station performs a handoff in accordance with an embodiment of the present invention.

At this time, in the embodiment of the present invention, the base station controller may issue a data transmission stop command to the corresponding neighbor base station transmission system and transmit a hand-off direction message to the mobile station. The mobile station can remove the pilot signal of the specific neighboring base station transmission system from the active set.

Also, as a result of the comparison, if the location information transmitted from the mobile station corresponds to the location information in the handoff area 330 stored in the database, for example, the location information transmitted from the mobile station corresponds to the second location 350, according to an embodiment of the present invention. The serving base station does not perform a handoff. In this case, although the mobile station has requested a handoff because the signal strength of the neighboring base station is momentarily reduced in the handoff region 330, the service base station according to the embodiment of the present invention can increase the signal strength of the neighboring base station again. This may be the case.

Next, when the received signal of the serving base station is less than or equal to the T_DROP threshold, the mobile station transmits a handoff request message and location information to the serving base station. In this case, the mobile station may enter the jurisdiction of the neighboring base station from the jurisdiction of the serving base station and change the serving base station. The service base station compares the location information with the location information for the handoff area 330 stored in the database.

Also, as a result of the comparison, if the location information transmitted from the mobile station corresponds to the location information in the handoff area 330 stored in the database, for example, the location information transmitted from the mobile station corresponds to the second location 350, according to an embodiment of the present invention. The serving base station does not perform a handoff. In addition, in the above case, the mobile station requests handoff because the signal strength of the serving base station transmission system decreases momentarily in the handoff region 330, but the base station controller according to the embodiment of the present invention again signals the serving base station transmission system. It can be regarded as a case where the strength can be increased.

If the location information of the mobile station does not correspond to the location information in the handoff area 330 stored in the database (in this case, it corresponds to the third location 360 of FIG. 3), the service base station. Performs a handoff according to an embodiment of the present invention. In this case, according to an embodiment of the present invention, the base station controller may transmit a handoff performance message to the mobile station and change the service base station transmission system of the mobile station to a corresponding neighbor base station transmission system.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention determines the handoff by adding not only the strength of the base station signals received by the mobile station, but also the location information of the mobile station, so that the conventionally frequently generated handoff is performed only at the position where the handoff is necessary. This reduces the frequency of handoffs, thereby reducing the number of mobile stations receiving data from a plurality of base stations and reducing the interference effects of mobile stations in the handoff region. In addition, there is an advantage that can reduce unnecessary processing load between the base station and the mobile station.

Claims (21)

In the handoff method using location information in a mobile communication system, A first distance threshold in which a mobile station in a given base station cell can no longer demodulate data from a received signal transmitted from the base station and a second in which the mobile station in the base station cell can demodulate data from a received signal transmitted from a neighboring base station. The first process of setting the distance threshold, A second process of calculating a first distance between the corresponding service base station and the mobile station and a second distance between the neighboring base station and the mobile station according to the location information of the corresponding mobile station and comparing the distance thresholds; When the received signal of the neighboring base station exceeds the T-ADD threshold, If the result of the comparison is that the first distance is less than the second distance threshold of the serving base station, no handoff is performed, and the first distance is greater than the second distance threshold of the serving base station and the first distance is If the second distance is smaller than the first distance threshold of the serving base station and the second distance is larger than the first distance threshold of the neighboring base station, the handoff is not performed, and the first distance is greater than the second distance threshold of the serving base station. When the first distance is larger than the first distance threshold of the serving base station and the second distance is larger than the second distance threshold of the service base station and the second distance is smaller than the first distance threshold of the neighboring base station, A handoff method using location information, characterized in that the third step of performing a handoff. The method of claim 1, wherein the distance thresholds, A method for handoff using location information for each cell of a mobile communication system, wherein the cell is preconfigured in consideration of changes in the structure, topographical characteristics, and environmental conditions of the propagation channel and based on attenuation of radio waves according to distance. The method of claim 2, wherein the received signal of the neighboring base station exceeds a T-ADD threshold. And the mobile station requests a handoff to incorporate a pilot signal of a neighboring base station other than the service base station into an active set. The method of claim 3, wherein performing the handoff, And a base station controller controls the service base station transmitting system and the neighboring base station transmitting system to simultaneously transmit the same data to the mobile station. In the handoff method using location information in a mobile communication system, A first distance threshold in which a mobile station in a given base station cell can no longer demodulate data from a received signal transmitted from the base station and a second in which the mobile station in the base station cell can demodulate data from a received signal transmitted from a neighboring base station. The first process of setting the distance threshold, A second process of calculating a first distance between the corresponding service base station and the mobile station and a second distance between the neighboring base station and the mobile station according to the location information of the corresponding mobile station and comparing the distance thresholds; When the received signal of the neighboring base station is below the T-DROP threshold, If the result of the comparison is that the first distance is less than the second distance threshold of the serving base station, the handoff is performed, and the first distance is greater than the second distance threshold of the serving base station and the first distance is the same. If the second distance is smaller than the first distance threshold of the serving base station and the second distance is larger than the first distance threshold of the neighboring base station, the handoff is performed, and the first distance is larger than the second distance threshold of the serving base station. The handoff when a first distance is less than a first distance threshold of the serving base station, the second distance is greater than a second distance threshold of the serving base station, and the second distance is less than a first distance threshold of the neighboring base station; Handoff method using the location information, characterized in that the third process does not perform. The method of claim 5, wherein the distance thresholds, A method for handoff using location information for each cell of a mobile communication system, wherein the cell is preconfigured in consideration of changes in the structure, topographical characteristics, and environmental conditions of the propagation channel and based on attenuation of radio waves according to distance. The method of claim 6, wherein the received signal of the neighboring base station is less than or equal to a T-DROP threshold. When the mobile station is simultaneously receiving data from at least one other base station besides the service base station, the signal strength of the neighboring base station is lower than a reference value, so that the mobile station removes the pilot signal of the neighboring base station from the active set and the Handoff method using the location information, characterized in that when the handoff is required to stop the data transmission of the neighboring base station. The method of claim 7, wherein performing the handoff, The base station controller issues a data transmission stop command to the neighbor base station transmission system, and transmits a handoff performance message to the mobile station. In the handoff method using location information in a mobile communication system, A first distance threshold in which a mobile station in a given base station cell can no longer demodulate data from a received signal transmitted from the base station and a second in which the mobile station in the base station cell can demodulate data from a received signal transmitted from a neighboring base station. The first process of setting the distance threshold, A second process of calculating a first distance between the corresponding service base station and the mobile station and a second distance between the neighboring base station and the mobile station according to the location information of the corresponding mobile station and comparing the distance thresholds; If the received signal of the serving base station is less than the T-DROP threshold, The result of the comparison is that the first distance is greater than the second distance threshold of the serving base station, the first distance is greater than the first distance threshold of the serving base station, and the second distance is greater than the second distance threshold of the serving base station. If the second distance is larger and smaller than the first distance threshold of the neighboring base station, no handoff is performed, the first distance is smaller than the first distance threshold of the serving base station, and the second distance is the first distance of the serving base station. And a third process of performing the handoff when the distance is smaller than the threshold and the second distance is larger than the second distance threshold of the neighboring base station or the second distance is smaller than the second distance threshold of the neighboring base station. Handoff method using the location information. The method of claim 9, wherein the distance thresholds, A method for handoff using location information for each cell of a mobile communication system, wherein the cell is preconfigured in consideration of changes in the structure, topographical characteristics, and environmental conditions of the propagation channel and based on attenuation of radio waves according to distance. The method of claim 10, wherein the received signal of the serving base station is less than or equal to a T-DROP threshold. Wherein the mobile station enters a cell of the neighboring base station from a cell of the serving base station, and the mobile station requests a handoff. The method of claim 11, wherein performing the handoff, And a base station controller transmits a handoff performance message to the mobile station and replaces the base station transmission system serving the mobile station with a corresponding base station transmission system. In the handoff method using location information in a mobile communication system, A first process of the mobile station transmitting its own location information together with the handoff request message; A second step of the service base station comparing the location information with location information of a pre-stored handoff area; When the received signal of the neighboring base station exceeds the T-ADD threshold, if the comparison result of the second process does not correspond to the location information of the pre-stored handoff region, the handoff is performed. If the comparison result of the second process is the location information of the mobile station corresponds to the location information for the pre-stored handoff area, the third step of performing the handoff is performed. Handoff method used. The method of claim 13, wherein the received signal of the neighboring base station exceeds a T-ADD threshold. And the mobile station requests a handoff to incorporate a pilot signal of a neighboring base station other than the service base station into an active set. The method of claim 14, wherein performing the handoff, And a base station controller controls the service base station transmission system and the corresponding base station transmission system to transmit the same data to the mobile station at the same time. In the handoff method using location information in a mobile communication system, A first process of the mobile station transmitting its own location information together with the handoff request message; A second step of the service base station comparing the location information with location information of a pre-stored handoff area; If the received signal of the neighboring base station is less than the T-DROP threshold, the handoff is performed if the comparison result of the second process does not correspond to the location information of the pre-stored handoff area. And if the comparison result of the second process corresponds to a third process that does not perform the handoff if the position information of the mobile station corresponds to the position information of the pre-stored handoff region. Off way. The method of claim 16, wherein the received signal of the neighboring base station is less than the T-DROP threshold, When the mobile station is simultaneously receiving data from at least one other base station besides the service base station, the signal strength of the neighboring base station is lower than a reference value, so that the mobile station removes the pilot signal of the neighboring base station from the active set and the Handoff method using the location information, characterized in that when the handoff is required to stop the data transmission of the neighboring base station. 18. The method of claim 17, wherein performing the handoff The base station controller issues a data transmission stop command to the neighbor base station transmission system, and transmits a handoff execution message to the mobile station. In the handoff method using location information in a mobile communication system, A first process of the mobile station transmitting its own location information together with the handoff request message; A second step of the service base station comparing the location information with location information of a pre-stored handoff area; If the received signal of the serving base station is less than or equal to the T-DROP threshold, the handoff is performed if the comparison result of the second process corresponds to the location information of the pre-stored handoff area. And the handoff is performed if the comparison result of the second process does not correspond to the location information of the pre-stored handoff area. 20. The method of claim 19, wherein the received signal of the serving base station is less than or equal to a T-DROP threshold. Wherein the mobile station enters a cell of the neighboring base station from a cell of the serving base station, and the mobile station requests a handoff. The method of claim 20, wherein performing the handoff, And a base station controller transmits a handoff performance message to the mobile station and replaces the base station transmission system serving the mobile station with a corresponding base station transmission system.