KR20010046048A - Handoff control method which is divided microcell boundary into soft/hard handoff area - Google Patents

Abstract

PURPOSE: A hand off control method dividing the micro-cell boundary into soft/hard hand off regions is provided to divide hand off region of the micro-cell into soft and hard hand off regions, discriminate the position of an entered mobile terminal among the regions of soft and hard hand off, thereby performing the hand off according to the corresponding region. CONSTITUTION: The first step is to discriminate whether the mobile terminal receives the system information from the micro-cell serviced at present, executes set-up of new call, enters the hand off region in busy(301,302,303). When the mobile terminal is entered to the hand off region, the intensity Pcb of pilot signal of adjacent cell is measured(305), the mobile terminal compares discrimination reference power Psha and the measured Pcb(306). When the Pcb is larger than Psha, a soft hand off is executed to the adjacent cell(307) and the state of the mobile terminal is changed into busy state(303). When the Pcb is lower than Psha, the hard hand off is executed in a macro-cell(308), so that the calling is executed in the macro-cell(309) and thereafter finished.

Description

HANDOFF CONTROL METHOD WHICH IS DIVIDED MICROCELL BOUNDARY INTO SOFT / HARD HANDOFF AREA}

According to the present invention, a handoff control method that divides a microcell boundary into a soft / hard handoff area in a code division multiple access (CDMA) wireless communication system and a computer for recording the program for realizing the method can be read. The present invention relates to a recording medium having a soft / hard handoff area in which a cell boundary area, which is a handoff area of a micro cell, is divided into a soft handoff area and a hard handoff area to perform handoff control of a mobile terminal. And a computer readable recording medium having recorded thereon a program for realizing the method.

In the conventional handoff control method, after the mobile terminal initiates a call, the mobile terminal determines whether the mobile terminal is high-speed according to the time present in the currently serving cell. In the case of the macro cell, the number of handoffs was reduced by not performing a handoff, but the service was unstable due to an unexpected speed change.

In another conventional handoff control method, when a mobile terminal in a cell hierarchy operating at a different frequency becomes larger than a certain threshold while communicating with a base station, this information is reported to the serving cell to determine the handoff type according to the information. In case of macro cell handoff, the target cell is determined according to the network configuration information and handoff is taken into account. However, as the number of subscribers exploded, it was difficult to accommodate more new call services. .

Another conventional handoff control method checks the power allocated to a forward CDMA channel by a base station, and the traffic load when the total sum of the allocated power exceeds the limit of power that can be allocated to mobile terminals in one base station. We tried to improve the service by distributing the load by modifying the handoff performance parameters for all mobile terminals in the high cell area and performing the handoff to a low load cell, but ultimately the number of handoffs of the entire system increased. There was a problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problem, and in the structure where the micro cell and the macro cell overlap, the handoff area of the micro cells is divided into a soft handoff area and a hard handoff area so that the mobile terminal is in a handoff area during a call. When entering into the handoff control method and the method to implement the method in the form of a handoff according to the corresponding area by determining whether the area in which the entry is a soft handoff area or a hard handoff area according to the pilot signal strength of the adjacent cell Its purpose is to provide a computer readable recording medium having recorded thereon a program.

1 is a soft / hard handoff area segmentation indication of a micro cell boundary according to the present invention;

FIG. 2 is a detailed fragmentation display of the soft / hard handoff area for the area division of FIG. 1; FIG.

3 is a flowchart illustrating a handoff control method in which a micro cell boundary is divided into a soft / hard handoff region according to the present invention.

* Explanation of symbols for the main parts of the drawings

101: macro cell 102: micro cell

103: soft handoff area 104: hard handoff area

105: micro cell service unavailable area

P _sh : Current Micro Cell Handoff Entry Reference Power

P _sha : power of judgment in soft / hard handoff area

P _cb : pilot signal strength of adjacent cells

In the method of the present invention for achieving the above object, in the handoff control method in which the microcell boundary is divided into soft / hard handoff regions, the mobile terminal receives system information from the microcell currently serving and performs a new call setup. Performing a first step of determining whether the handoff area has been entered in the busy state; A second step of the mobile terminal entering a handoff region and comparing pilot signal strength of an adjacent cell with the system information received from the currently serving micro cell; And a third step of performing a soft handoff to an adjacent cell or a hard handoff to a macro cell according to the comparison value.

In addition, the present invention is a mobile terminal having a processor, the mobile terminal receives the system information from the micro-cell currently in service to perform a new call setup and determine whether the handoff area entered in the busy state function; A second function in which the mobile terminal enters a handoff area and compares pilot signal strength of an adjacent cell with the system information received from the currently serving micro cell; And a computer-readable recording medium having recorded thereon a program for realizing a third function of performing a soft handoff to an adjacent cell or a hard handoff to a macro cell according to the comparison value.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a soft / hard handoff region segmentation diagram of a micro cell boundary according to the present invention, wherein the mobile terminal distinguishes the soft / hard handoff region from the micro cell boundary region and performs a handoff process accordingly. Exemplary diagram illustrating cell division in a communication system.

Referring to the cell area divided according to the present invention as shown in the figure, 101 means a macro cell, 102 (A, B, C, D, E, F, G) represents a micro cell region. 103 represents a soft handoff area at the currently serving micro cell boundary, and 104 represents a hard handoff area. 105 denotes an unserviceable area in the micro cell area generated by minimizing the soft handoff area where cells overlap each other at the micro cell boundary.

FIG. 2 is a detailed fragmentation diagram of the soft / hard handoff region for the region division of FIG. 1, where P _sh is a value for defining a handoff region of a microcell currently being served, and P _{cb (cell boundary)} is The pilot signal strength of the adjacent cell is measured, and P _sha is a handoff region criterion system parameter.

Referring to FIG. 1 and FIG. 2 described above, a handoff process performed by dividing a boundary area of a micro cell into a soft / hard handoff area is as follows.

First, when the mobile terminal reaches the points a, b, and c, that is, the value P _sh for defining the handoff area of the currently serving microcell, it is determined whether the mobile terminal enters the soft handoff area or the hard handoff area. You start to do it.

Point a indicates that the mobile terminal of the A cell enters the handoff region and the value of the pilot signal strength of the F cell is measured as P _cb . Point b represents the variable P _sha that is transmitted as a system parameter from the base station when the mobile terminal sets up a new call in cell A, and distinguishes the handoff area by this value.

When the mobile station of the A cell enters the handoff region, this value is measured by measuring the pilot signal strength of the neighbor cell and comparing the measured value with P _sha to determine which handoff region the mobile terminal enters. That is, area a to b represent a soft handoff area, and area b to c represent a hard handoff area.

The point c is for explaining that the mobile terminal of the A cell enters the handoff region and enters the hard handoff region in which the neighbor cell pilot signal strength measured is smaller than P _sha . The d area represents a micro cell unserviceable area generated by minimizing a soft handoff area in which micro cells overlap each other, and a new call in this area is supported by a macro cell.

FIG. 3 is a flowchart illustrating a handoff control method in which a micro cell boundary is divided into a soft / hard handoff area according to the present invention, and illustrates a message flow described in FIGS. 1 and 2.

First, when the mobile terminal starts to set up a new call, the system such as the determination reference power P _sha and the handoff entry reference power P _sh of the soft / hard handoff region from the currently serving micro cell, and neighbor cell and macro cell information. Receiving the information (301), a new call setup is made (302) and is in a busy state (303).

If the mobile terminal enters the handoff area during the call (304), if the mobile terminal does not enter the handoff area, the call ends at the end of the call, and the mobile terminal enters the handoff area. In the case where the pilot signal strength P _cb of the neighbor cell is measured (305), the mobile terminal compares P _sha and the measured P _cb (306).

At this time, if P _cb is measured to be larger than P _sha , the mobile terminal knows that the soft handoff region has entered, performs a soft handoff to an adjacent cell (307), and then transitions to the busy state 303, where P _cb is P _{If the} measurement is smaller than _sha , the mobile terminal knows that it has entered the hard handoff area and performs a hard handoff to the macro cell (308). After the call proceeds in the macro cell (309), the call is terminated.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes can be made in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

The present invention as described above, by controlling the handoff by dividing the micro cell boundary area into a soft / hard handoff area, the handoff performed in the micro cell is distributed to the soft handoff and hard handoff in the micro cell area Since the number of soft handoffs is reduced, the number of guard channels that must be reserved in order to perform soft handoff can be reduced, thereby enabling more new call services.

In addition, the present invention minimizes the soft handoff area of the micro cell area, thereby minimizing the time for the mobile terminal to occupy radio channel resources of both cells during the soft handoff, thereby improving radio channel resource utilization efficiency of the micro cell area. It works.

Claims (5)

In a handoff control method in which a micro cell boundary is divided into a soft / hard handoff region, A first step of receiving, by the mobile terminal, system information from a currently serving microcell to perform new call setup and determining whether the mobile terminal has entered the handoff area in a busy state; A second step of the mobile terminal entering a handoff region and comparing pilot signal strength of an adjacent cell with the system information received from the currently serving micro cell; And A third step of performing a soft handoff to an adjacent cell or a hard handoff to a macro cell according to the comparison value A handoff control method comprising dividing a micro cell boundary into a soft / hard handoff area. The method of claim 1, The first step is The mobile terminal receives a soft / hard handoff area determination reference power P _sha , a handoff entry reference power P _sh , and neighbor cell and macro cell information from the microcell in service, and completes a new call setup. 4 steps; A fifth step of entering a busy state; And A sixth step of determining whether the mobile terminal has entered the handoff region according to the received handoff entry reference power P _sh ; A handoff control method comprising dividing a micro cell boundary into a soft / hard handoff area. The method according to claim 1 or 2, The second step is A seventh step in which the call is terminated when the call ends when the mobile terminal does not enter the handoff region, and when the mobile terminal enters the handoff region, a pilot signal strength P _cb of an adjacent cell is measured; And An eighth step of comparing the pilot signal strength P _cb of the measured neighboring cell with the soft / hard handoff region determination reference power P _sha received from the microcell already serving by the mobile terminal; A handoff control method comprising dividing a micro cell boundary into a soft / hard handoff area. The method of claim 3, wherein The third step is A ninth step of determining that the mobile terminal enters the soft handoff region when the pilot signal strength P _cb of the neighbor cell is measured to be greater than the soft / hard handoff region determination reference power P _sha ; A tenth step of performing a soft handoff to an adjacent cell when the mobile terminal enters a soft handoff area and transitioning to a busy state of the first step; An eleventh step of determining that the mobile terminal enters a hard handoff region when the pilot signal strength P _cb of the neighbor cell is measured to be smaller than a soft / hard handoff region determination reference power P _sha ; And Step 12 for performing a call in the macro cell by performing a hard handoff to a macro cell when the mobile terminal enters a hard handoff region A handoff control method comprising dividing a micro cell boundary comprising a soft / hard handoff region. In a mobile terminal having a processor, A first function of receiving, by the mobile terminal, system information from a currently serving microcell to perform a new call setup and determining whether the mobile terminal has entered a handoff area in a busy state; A second function in which the mobile terminal enters a handoff area and compares pilot signal strength of an adjacent cell with the system information received from the currently serving micro cell; And A third function of performing a soft handoff to an adjacent cell or a hard handoff to a macro cell according to the comparison value A computer-readable recording medium having recorded thereon a program for realizing this.