KR19990085952A - How to set handoff area of mobile communication system - Google Patents

Abstract

The present invention relates to a method for setting a handoff area of a mobile communication system to minimize a handoff failure rate by setting a handoff area according to a moving speed of a terminal when setting a handoff area. Calculating a time taken to perform the handoff; Calculating a distance by multiplying the calculated handoff time and a predicted moving speed of the terminal; By sequentially setting the handoff area to correspond to the calculated distance, the handoff failure rate can be reduced.

Description

How to set handoff area of mobile communication system

The present invention relates to a mobile communication system, and more particularly, to a method for setting a handoff area of a mobile communication system to minimize a handoff failure rate by setting a handoff area according to a moving speed of a terminal.

In general, in a mobile communication system (for example, a cellular mobile communication system using a CDMA, a personal mobile communication system (PCS), a satellite communication system, etc.), a hand is an area in which the radio boundary of the base station A and the radio boundary of the base station B are shared. There is a hand-off area.

In such a handoff area, efficient handoff must be made to maintain continuity of the call (preventing disconnection) and to prevent power waste.

1 is a graph illustrating a base station handoff area in a general mobile communication system.

That is, as shown in Fig. 1, the handoff region is a pilot signal of the currently serving base station is T_DROP (pilot release) from the moment when the new base station pilot signal received from the terminal (mobile station) exceeds T_ADD (pilot detection threshold). It refers to the area from the moment when it falls below the threshold) to the time delayed by the T_TDROP (excluding timer value).

In other words, it is an overlapping CELL coverage area of each base station.

In the conventional method of setting such a handoff area, the handoff area is set by arbitrarily determining based on a maximum of 40% of the cell area according to the power strengths of two adjacent base stations.

In this case, if the terminal moves to another base station service area before the handoff is completed, the handoff fails.

Accordingly, the present invention has been proposed to solve various problems of the conventional mobile communication system as described above.

It is an object of the present invention to provide a method for setting a handoff area of a mobile communication system to minimize a handoff failure rate by setting a handoff area according to a moving speed of a terminal when setting a handoff area.

Method according to the present invention for achieving the above object,

Calculating a time required to perform handoff in setting up a handoff area;

Calculating a distance by multiplying the calculated handoff time and a predicted moving speed of the terminal;

And setting a handoff area to correspond to the calculated distance.

In the above, the handoff time is characterized in that the minimum time required to perform the handoff procedure while passing through the handoff region.

In addition, the predicted movement speed of the terminal is characterized by predicting the movement speed of the terminal by dividing the area into a region where the movement speed of the terminal is high, such as a highway, and a region where the movement speed of the terminal is slow, such as an urban area. .

1 is a base station handoff area diagram of a general mobile communication system;

2 is an explanatory diagram for explaining a handoff time required in the present invention;

3 is a flowchart illustrating a handoff area setting method of a mobile communication system according to the present invention;

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

1: mobile station 2: base station A

3: Base station B 4: Transcoder and selector bank

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

2 is a diagram showing the time required for performing each procedure when performing handoff in the present invention.

In the figure, reference numeral 1 is a mobile station, 2 is a base station A, 3 is a base station B, and 4 is a transcoder and selector bank that is in charge of soft handoff processing, power control, non-voice service processing, and call processing with the mobile station.

2a is a channel element in base station A, and 2b is a controller in base station A.

3a is a channel element in base station B, and 3b is a controller in base station B.

3 is a flowchart illustrating a handoff area setting method according to the present invention.

As shown therein, a step (ST1) of calculating a time required to perform a handoff when setting the handoff area; Calculating a distance by multiplying the calculated handoff time and a predicted moving speed of the terminal (ST2); In step ST3, a handoff area is set to correspond to the calculated distance.

The handoff area setting method according to the present invention made as described above will be described with reference to FIG.

First, the time required to perform the handoff when setting the handoff area is calculated (ST1). Herein, the time taken to perform the handoff is 0.85 sec or less from the moment the pilot detects a threshold until the pilot transmits the strength measurement message (see the IS-98 standard). In addition, the time from the moment when the mobile releases the pilot release threshold to the pilot strength measurement message is 5 sec or less (including T_Drop = 2sec). The ADD procedure takes 1.48sec and the drop procedure takes 1.48sec. Therefore, adding them all takes 8.81 sec for handoff.

This is expressed as a formula as follows.

Time to perform handoff = 0.85sec + 1.48sec + 5sec + 1.48sec = 8.81sec

Of course, the 8.81sec is the minimum time required to perform the handoff, and typically the time required to perform the handoff takes at least 8.81sec-up to 19.21sec.

Next, the moving speed of the terminal is predicted (ST2).

In general, the terminal movement speed during walking is 3Km / hr, urban vehicle movement 20Km / hr, 40Km / hr, 60Km / hr, the terminal movement speed is estimated to be 100Km / hr when driving on the highway.

Accordingly, the distance for setting the handoff area is 7m since (3000m / 3600sec) * 8.81sec since the handoff execution time is 8.81sec when the terminal moving speed is 3Km / hr.

In this way, the distances corresponding to the respective moving speeds of the terminals (20 km / hr, 40 km / hr, 60 km / hr, 100 km / hr) are 48 m, 97 m, 146 m, and 244 m.

Accordingly, the handoff area is also set to correspond to each distance calculated based on the terminal moving speed as described above (ST3).

This prevents a handoff failure caused by the mobile station (terminal) moving to another base station service area before the handoff is completed as before.

As described above, the present invention has the effect of preventing a handoff failure during handoff by setting the handoff area to correspond to the moving speed of the terminal user when the handoff area is set in the mobile communication system. .

Claims (3)

In the method of setting a handoff area of a mobile communication system, Calculating a time required to perform handoff in setting up a handoff area; Calculating a distance by multiplying the calculated handoff time and a predicted moving speed of the terminal; And setting a handoff area so as to correspond to the calculated distance. According to claim 1, The handoff time is, A method of establishing a handoff area of a mobile communication system, characterized in that it is a minimum time required to perform a handoff procedure while passing through a handoff area. The method of claim 1, wherein the predicted moving speed of the terminal is A method of setting a handoff area of a mobile communication system, comprising estimating a moving speed of a terminal by dividing a zone into a region where a terminal moves at a high speed, such as a highway, and a region where a terminal moves at a low speed, such as an urban area.