KR20000025936A - Soft hand-off method of digital mobile communication system - Google Patents

Abstract

PURPOSE: A soft hand-off method of digital mobile communication system is provided to increase quality of a mobile terminal, to reduce the rate of channel use, and to prevent blockage of a call. CONSTITUTION: A soft hand-off method of digital mobile communication system includes first through seventh steps. The first step is to obtain an information of channel use state when a management base station receives an information of communication quality of a mobile terminal and a hand-off request message. The second step is to count a critical value of hand-off parameter according to the information of channel use state. The third step is to compare a previous critical value of hand-off parameter and a new critical value of hand-off parameter, and to determine an implement of the hand-off. The fourth step is to request the hand-off to a target base station when the hand-off is implemented in the third step. The fifth step is to obtain a message of the hand-off permission including a traffic channel information from the target base station. The sixth step is to transmit the message of the hand-off permission including the new critical value of hand-off parameter and the traffic channel information. The seventh step is the mobile terminal to start communication using the traffic channel of the target base station, assigned newly.

Description

Soft Handoff Method of Digital Mobile Communication System

The present invention relates to a code division multiple access (CDMA) mobile communication system, and more particularly, to a soft handoff method near a cell boundary.

In general, in a mobile communication system, when a mobile terminal leaves a service area of a base station and enters a new cell, a call can be continued by a handoff function. Such handoffs include a hard handoff method and a soft handoff method. In an analog cellular system, a hard handoff method is used, in which a new base station and a mobile station disconnect a link with an existing base station before connecting to a new base station before starting a call. Therefore, when handoff occurs, the connection is disconnected for a short time and the voice quality is degraded.

On the other hand, in the digital mobile communication system, when a mobile terminal enters a new cell out of an existing cell area, a link with a new base station is newly formed without breaking the link with the existing base station. In other words, the handoff procedure in a CDMA mobile communication system is a sequence of connection with an existing base station, simultaneous connection with both base stations, and then link disconnection of the existing base station. This kind of handoff is called a soft handoff method. This soft handoff is less likely to disconnect, and the user does not detect the handoff because the call link is not disconnected during the call.

A soft handoff method in a conventional digital mobile communication system will be described. The digital mobile communication system provides the mobile terminal with a threshold value of the preset handoff parameter (T_COMP) and target base station information that is likely to have a handoff when the call starts. The mobile station monitors the pilot signals of the base stations while moving and transmits a handoff request message when the signal strength of the pilot signal of the currently connected base station falls below a threshold. In this case, the new target base station allocates a traffic channel for the mobile terminal and then transmits a handoff acceptance message to the mobile terminal through the enema base station. The mobile station begins to demodulate the traffic channel of the target base station and improves call quality by diversity combining the two signals received from both base stations.

However, in the digital mobile communication system to which the soft handoff method is applied, one mobile terminal occupies several traffic channels while the overlapping area between cells increases due to various reasons such as radio wave environment and base station installation problem. Since the duration of the soft handoff is also proportionally longer, there is a problem in that the channel utilization is increased, causing the performance of the overall system to decrease.

The present invention has been made to solve the problems of the prior art as described above, when any mobile terminal in the call to move between cells to perform a soft handoff, handoff parameters according to the call quality of the mobile terminal If the call quality of the mobile terminal is better than the threshold, the target base station does not allocate a new traffic channel to the mobile terminal, and if the call quality of the mobile terminal is not better than the threshold, An object of the present invention is to provide a soft handoff method of a digital mobile communication system for allocating a new traffic channel.

In addition, when the total amount of transmit power in use is greater than the total amount of transmit power allocated to the target base station, the soft handoff method of the digital mobile communication system is to delay the soft handoff of the mobile terminal by varying the threshold value of the handoff parameter. There is another purpose to provide.

1 is a diagram showing the number of occupied traffic channels in each area during soft handoff of a mobile station;

2A to 2C are flowcharts illustrating a soft handoff method according to the present invention.

2A is a flowchart illustrating a soft handoff method in a mobile terminal;

2b is a flowchart illustrating a soft handoff method in an enema base station system;

2C is a flowchart illustrating a soft handoff method in the target base station system.

In order to achieve the above object, the present invention provides a soft handoff method in a digital mobile communication system including a mobile terminal, an enema base station and a target base station.

Upon receiving the handoff request message from the mobile terminal, the enema base station determines whether to perform handoff according to the call quality of the mobile terminal and the channel usage state of the target base station.

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

FIG. 1 is a diagram illustrating the number of traffic channel occupied by each region during soft handoff of a mobile station. In a digital divisional communication system of code division multiple access (CDMA), six adjacent cells are overlapped with respect to one cell. In this case, since three cells overlap in the region A, the mobile terminal occupies three traffic channels during soft handoff, and in the region B, the mobile terminal occupies two traffic channels. Today, as the above cells become microcells, the overlapping area of the cells increases, and the performance degradation of the mobile communication system occurs due to frequent soft handoff.

2A to 2C are flowcharts illustrating a soft handoff method according to the present invention. FIG. 2A is a flowchart illustrating a soft handoff method in a mobile terminal, and FIG. 2B is a soft handoff method in an enema base station. 2C is a flowchart illustrating a soft handoff method at a target base station.

The soft handoff method according to the present invention will be described with reference to FIGS. 2A to 2C as follows.

In the present invention, the governing base station is a base station that manages soft handoff to the base station that is currently assigning a traffic channel to the mobile terminal. The target base station is a base station of a destination to which the mobile terminal is to move to a base station that manages communication in a cell to which the mobile terminal is to move. The channel usage status information of the target base station is obtained by the difference between the total amount of transmit power allocated to the target base station and the total amount of transmit power in use.

The mobile terminal in a call receives the pilot signals of the enema base station and its neighboring base stations and continuously measures the signal strength (101), and calculates a signal difference between the pilot signals propagated in the neighboring base station and the pilot signals propagating in the enema base station. . As the mobile terminal moves closer to the target base station as it moves away from the enema base station, the signal difference between the pilot signals of the two base stations becomes larger than the threshold value of the handoff parameter (T_COMP) (102). A handoff request message containing the quality information is sent to the enema base station (103).

If the base station receives a handoff request message from the mobile terminal (201), and transmits a power amount parameter request message to the target base station system (202). When the target base station system receives the power amount parameter request message from the master base station (301), the target base station calculates the total amount of transmit power currently used by the target base station (302), and compares the total amount of transmit power with the total amount of transmit power allocated to the target base station. In step 303, the power amount parameter including the channel usage status information is transmitted to the base station.

When receiving the power amount parameter from the target base station (203), the base station calculates a threshold value of the new T_COMP based on the call quality information received from the mobile terminal and the channel usage status information of the target base station (204). In addition, the base station compares the threshold of the new T_COMP with the threshold of the existing T_COMP received from the mobile terminal (205).

As a result of the comparison, if the threshold value of the new T_COMP is larger than the threshold value of the existing T_COMP, the Node B base station transmits a handoff rejection message including the new T_COMP threshold value to the mobile station (210). As a result of the comparison, when the threshold value of the new T_COMP is small, a handoff request message is transmitted to the target base station (206).

When the target base station receives a handoff request message from the enema base station (304), it checks whether the traffic channel is assignable (305). As a result of the check, if the traffic channel can be allocated, the target base station allocates a traffic channel for the mobile terminal (307) and then transmits a handoff acceptance message to the enema base station (308). On the other hand, if the traffic channel assignment is not possible as a result of the check, the target base station transmits a handoff rejection message to the governing base station (306).

If the base station receives a handoff accept message from the target base station (207), it transmits a handoff accept message including the threshold of the new T_COMP to the mobile terminal (208). However, if the base station receives the handoff rejection message 209, the mobile station transmits the handoff rejection message including the threshold value of the new T_COMP to the mobile station (210).

When the mobile terminal receives a handoff accept message from the enema base station (104), it changes the threshold of the existing T_COMP to the threshold of the new T_COMP (105) and adds the target base station to the active set (106). ). Thereafter, a handoff complete message is sent to the governing base station (107) and the traffic channel of the target base station begins to be used (108). On the other hand, when the mobile terminal receives a handoff rejection message from the enema base station (109), it changes the threshold value of the existing T_COMP to the threshold value of the new T_COMP (110) and continues to talk on the existing traffic channel.

As described above, according to the present invention, the threshold of the handoff parameter for determining the time of performing the soft handoff is varied based on the call quality of the mobile terminal and the total amount of transmit power of the target base station, and the threshold of the handoff parameter. Determine whether to perform a soft handoff based on. That is, if the call quality of the mobile terminal is good and the total transmission power of the target base station is large, the target base station does not allocate traffic channels to the mobile terminal, thereby reducing the overall channel utilization rate, and the call quality of the mobile terminal is low and the target base station If the total amount of transmit power is small, the target base station allocates a new traffic channel to the mobile station, thereby improving call quality of the mobile station while preventing call truncation.

Claims (4)

A soft handoff method in a digital mobile communication system comprising a mobile terminal, an enema base station and a target base station, Upon receiving the handoff request message from the mobile terminal, the enema base station determines whether to perform the handoff according to the call quality of the mobile terminal and the channel usage state of the target base station. Way. The method of claim 1, further comprising: when the enema base station receives a handoff request message including a call quality information of the mobile terminal and a threshold of a current handoff parameter, acquiring channel usage status information of a target base station; Calculating a threshold value of a new handoff parameter according to the call quality of the mobile terminal and a channel usage state of a target base station; Comparing the threshold value of the existing handoff parameter with the threshold value of the new handoff parameter and determining whether to perform a handoff according to the result; A fourth step of requesting handoff to a target base station when handoff is to be performed in the third step; Obtaining a handoff accept message including traffic channel information from the target base station; Transmitting a handoff accept message to the mobile station, the handoff accept message including the threshold value of the new handoff parameter and the traffic channel information; And And a seventh step of the mobile station initiating communication using the traffic channel of the newly allocated target base station. The method of claim 2, further comprising the step of changing the threshold of the existing handoff parameter to the threshold of the new handoff parameter when the mobile terminal receives the threshold of the new handoff parameter. Handoff method of digital mobile communication system. 4. The method of claim 2 or 3, wherein the second step further comprises: calculating a total amount of transmit power of the currently used target base station when the target base station system receives a channel use status request message from the master base station; Determining a channel usage state of the target base station by comparing the total amount of transmit power allocated to the target base station with the total amount of transmit power currently being used; And And transmitting the channel use state information to the enema base station.