KR19990018250A - Handoff Method in Mobile Communication System - Google Patents

Abstract

The present invention relates to a handoff method in a mobile communication system that enables a soft handoff using a difference between pilot signals between base stations in a mobile communication system using a CDMA method. In case of moving to a neighboring base station, if the difference between the pilot signal of the base station currently in communication and the pilot signal of the neighboring base station to be moved is greater than C_THR, the neighboring base station prepares for handoff, and if the difference of the pilot signal is greater than A_THR, the neighboring base station Handoff is performed by connecting a call with this mobile station. After that, if the strength of the pilot signal of the currently busy base station is less than D_THR, the handoff drop timer is operated during T-DROP, and then the neighboring base station is removed from the mobile station. Receive and send out pilot signal strength measurement messages By sending a handoff direction message to the mobile station to terminate soft handoff between base stations, thereby increasing frequency reuse efficiency and reducing unnecessary handoff time by using an optimized handoff drop timer. Time can be reduced, and co-channel interference can be reduced to prevent degradation of call quality.

Description

Handoff Method in Mobile Communication System

The present invention provides a soft handoff by using a difference between pilot signals between base stations in a mobile communication system using a code division multiple access (CDMA) method. A handoff method in a mobile communication system that can be performed.

In general, a CDMA mobile communication system is a communication between mobile stations that can communicate with anybody, anytime, anywhere, using radio waves in a space, or between a mobile station and a fixed station, and transmits / receives a message with a mobile station moving through an unspecified area. A base station for receiving and managing radio resources, a control station for controlling the base station and transmitting / receiving messages with the base station, and a switching station that performs a switching role in conjunction with the control station and other stations and other networks.

On the other hand, one of the most important and great features of the mobile communication system, which is briefly shown in FIG. 1, is a plurality of base stations BS1 to BS4 located in each of the cells C1 to C4 and a mobile station M moving between the base stations. In order to guarantee the mobility of the subscriber station of the mobile station, in order to ensure the mobility of these subscribers, above all, location registration and handoff techniques are required.

The handoff technique is a technique for switching a call path between a mobile station and a base station so that the call can be continuously maintained even if the mobile station leaves a service area of a base station or sector currently being provided with a service. There is a soft handoff, which is a handoff between base stations, and a hard handoff, which is a handoff between a base station and an exchange station using different carrier frequencies.

A soft handoff process between adjacent base stations using the same carrier frequency will be described below.

In this case, the active set is a base station in which the pilot signal is sufficiently large so that a forward call channel is allocated to the mobile station and is in a call. The candy set is a sufficiently large pilot signal but does not participate in the call. Is a base station, a neighbor set is not included in the active set or a candy date set, but is a base station in which a handoff may occur, and a remaining set is not included in the active set, a candy date set, or a neighbor set Not the base station.

When a mobile station moves from a base station in a busy active set to a neighbor base station in a candy date set or neighbor set, when the pilot signal of the neighbor base station becomes larger than the preset threshold value T_ADD, the neighbor starts the soft handoff to the neighbor base station. The base station is included in the active set, and then the handoff is terminated when the pilot signal of the busy base station becomes smaller than the preset handoff disconnect threshold value T_DROP, and the base station is included in the neighbor set.

As described above, in the conventional soft handoff, all neighboring base stations having a larger pilot signal size than the predetermined threshold value T_ADD participate in the handoff.

In other words, even when the pilot signal of an existing base station that is already communicating is sufficiently large that another base station does not need to participate in the handoff, if the pilot signal of the other base station is larger than the preset threshold value T_ADD, it will participate in the handoff unconditionally. do.

This means that all base stations use the same carrier frequency, so that not only the frequency reuse efficiency is reduced but also the capacity of the forward communication channel is reduced.

In addition, when the strength of the pilot signal decreases below the preset handoff disconnect threshold value (T_DROP), the handoff drop timer starts operation and the mobile station does not send a message about the pilot signal strength until this timer expires. After transmitting to the base station and receiving a message to terminate the handoff from the base station, the handoff ends and the actual call connection is terminated.

As a result, other mobile stations cannot use the same carrier frequency and are rejected by the base station when a new call is attempted. Also, as multiple base stations use the same frequency, interference with the same channel increases, resulting in disconnection or degradation of call quality. There was a problem brought about.

Accordingly, an object of the present invention is to solve the above problems, and an object thereof is to perform soft handoff between base stations using the same carrier frequency by using a difference between pilot signals between a base station in communication and a neighboring base station. The present invention provides a handoff method in a mobile communication system capable of reducing interference and increasing frequency reuse efficiency.

In the handoff method of the mobile communication system of the present invention for achieving the above object, when the mobile station moves from the base station in the current call to the adjacent base station, the difference between the pilot signal of the base station in the current call and the pilot signal of the neighbor base station to be moved. Is greater than the preset candy date threshold value C_THR, the neighboring base station prepares for handoff, and if the difference of the pilot signal is greater than the predetermined active threshold value A_THR, the neighboring base station connects the call with the mobile station to handoff. Then, if it is determined by determining whether the strength of the pilot signal of the currently busy base station is less than the handoff disconnect threshold value (D_THR), the handoff drop timer is operated during the timer drop (T-DROP), and then the neighboring base station is performed. Receive a pilot signal strength measurement message sent from this mobile station and By sending the off direction message to the mobile station it is characterized in that to terminate the soft hand-off between base stations.

1 is a view showing the structure of a cell, a base station and a mobile station in a general mobile communication system,

2 is a relationship between a threshold and a handoff according to the present invention;

3 is a flowchart of handoff processing of a mobile station according to the present invention;

Explanation of symbols for main parts of the drawings

C1 to C4: first to fourth cells BS1 to BS4: first to fourth base stations

M: Mobile station

Hereinafter, a handoff method of a mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

In the mobile communication system according to the present invention, handoff, that is, soft handoff between base stations using the same frequency, moves multiple base stations BS1 to BS4 located in each cell C1 to C4 as shown in FIG. Is performed by the mobile station (M).

The soft handoff process according to the present invention will now be described with reference to the relationship between the threshold and handoff of FIG. 2 and the handoff process flow diagram of the mobile station of FIG. 3.

The mobile station M continuously measures the strength of the pilot signal received from neighboring neighboring base stations, for example, the first base station BS1 to the fourth base station BS4.

When such a mobile station does not exist at the boundary of the cell, it is connected to one base station, for example, the first base station BS1, and is in a busy state.

However, when the mobile station moves from the first base station BS1 that is currently busy to the adjacent base stations BS2 to BS4 through the edge of the cell, the strength of the pilot signal of the first base station BS1 is weakened, The strength of the pilot signals of the adjacent base stations BS2 to BS4 becomes strong.

Accordingly, the soft handoff process when the first base station BS1 moves to a neighboring new base station is performed as follows.

First, a difference between a pilot signal of a first base station BS1 currently in communication and a pilot signal of each of new neighboring base stations BS2 and BS3 to be moved is calculated (S1).

Subsequently, it is determined whether the difference between the pilot signals calculated in step S1 is greater than a preset Candidate Threshold value (hereinafter, referred to as 'C_THR') (S2).

If the difference in the pilot signal is greater than the C_THR in step S2, a new neighbor base station (in this case, BS2 is taken as an example) is included as a set of candy dates and prepares for handoff (Tr) (S3).

Subsequently, it is determined whether the difference of the pilot signal calculated in the step S1 is larger than a predetermined active threshold value (hereinafter referred to as 'A_THR') (S4), and the difference of the pilot signal is A_THR. If larger, the new neighbor base station BS2 is included in the active set and connects the call with the mobile station to perform a handoff (Th) (S5).

That is, in this step S5, the first base station BS1 receives the pilot signal strength measurement message transmitted from the mobile station and the new neighboring second base station BS2 receives the traffic signal through the forward traffic channel. Transmit and obtain a reverse call channel.

The mobile station transmits a handoff direction message to the mobile station to perform a handoff to the second base station BS2 of the first base station BS1 and the second base station BS2.

In this case, the handoff direction message is a message transmitted from the base station to the mobile station, and is a message for the mobile station to perform handoff to the designated base station.

When the handoff to the second base station BS2 is performed as described above, the strength of the pilot signal of the first base station BS1 that is currently in communication is the handoff disconnect threshold value (hereinafter, referred to as 'D_THR'). It is determined whether it is smaller than (S6).

If the strength of the pilot signal is smaller than the D_THR in step S6 (Td), the handoff drop timer is operated during a timer drop (hereinafter referred to as T-DROP) (S7).

In this case, the T-DROP is calculated as a difference between the strength of the previously measured pilot signal and the strength of the current pilot signal.

After the handoff drop timer is operated in the step S7 for T-DROP and then terminated, the second base station BS2 receives the pilot signal strength measurement message sent from the mobile station and sends the handoff direction message to the mobile station. The soft handoff between the first base station BS1 and the second base station BS2 is terminated (S8).

As described above, the present invention does not include base stations that do not significantly affect the call quality by using the difference of the pilot signal in the handoff, and the handoff is performed when the signal of the base station in the call is strong enough so that the handoff is unnecessary. It doesn't work.

The C_RHR and T_THR may be about 1dB and 3dB, respectively, but may vary depending on the radio access environment and cell structure.

On the other hand, in order to optimize the handoff time, the value of the handoff drop timer is set according to the degree to which the strength of the signal decreases.

In other words, by measuring the intensity of the pilot connected to the current call to obtain a slope that decreases the value, the larger the slope is to reduce the end time of the timer, if the slope is smaller to increase the end time.

As described above, according to the present invention, the base station participating in the handoff decreases as the base station participating in the handoff decreases as only the base station having a difference of more than A_THR from the pilot signal of the currently talking base station participates in the handoff. The frequency allocated to the mobile station can be used to accept required call attempts from other mobile stations, thereby increasing the frequency reuse efficiency.

In addition, since the use of the handoff drop timer optimized for the end of the handoff according to the degree of signal reduction, unnecessary handoff time can be reduced, thereby reducing channel occupancy time.

That is, the present invention can reduce the same channel interference by reducing the same frequency occupancy time as much as possible, thereby preventing the degradation of the call quality caused by the interference.

Claims (1)

When the mobile station moves from the current base station to the adjacent base station, the first step of calculating the difference between the pilot signal of the base station in the current call and the pilot signal of the neighboring base station to be moved, and the pilot signal calculated in the first step A second step of determining whether the difference is greater than a predetermined candy date threshold value C_THR, a third step of preparing a handoff by an adjacent base station when the difference of the pilot signal is greater than the C_THR in the second step, and A fourth step of determining whether the difference of the pilot signal calculated in the first step is greater than a predetermined active threshold value A_THR; and if the difference of the pilot signal is greater than the A_THR in the fourth step, the neighboring base station is connected to the mobile station. A fifth step of performing a handoff by connecting a call; and after performing the fifth step, a strength of a pilot signal of a base station currently in a call is handed off. A sixth step of determining whether it is smaller than the disconnect threshold value D_THR; and a seventh step of operating the handoff drop timer during a timer drop (T-DROP) when the strength of the pilot signal is smaller than the D_THR in the sixth step. And after performing the seventh step, the neighboring base station receives the pilot signal strength measurement message transmitted from the mobile station and sends a handoff direction message to the mobile station to terminate the soft handoff between the base stations. A handoff method in a mobile communication system, characterized by the above-mentioned.