KR100329656B1 - Method for applying inter-frequency hard hand-off in specific base station - Google Patents

Abstract

PURPOSE: A method for applying an inter-frequency hard hand-off in a specific base station is provided to apply the inter-frequency hard hand-off by software in case that a terminal is moved from a general base station to a small base station. CONSTITUTION: A general base station receives a power measurement report message from a terminal(S21). The general base station analyzes the power measurement report message received from the terminal, and confirms pilot signal strengths and PN(Pseudo Noise) sequence offsets of the general base station and peripheral base stations(S22). The general base station judges whether the terminal is moved from the general base station to a small base station through the pilot signal strength and the PN sequence offset(S23). If the terminal is moved from the general base station to the small base station, the general base station performs an inter-frequency hard hand-off with the small base station(S24).

Description

How to apply hard handoff between frequencies at specific base station

The present invention relates to a method for applying a hard handoff between frequencies at a specific base station. More particularly, the present invention relates to hard-to-frequency hard handoff by software only when a terminal moves from a general base station to a small base station with a small number of frequencies. The present invention relates to a method for applying a hard handoff between frequencies at a specific base station.

In general, in a digital mobile communication system using a code division multiple access (CDMA) scheme, when the number of subscribers increases, the base station can be expanded to increase subscriber capacity or to provide an existing base station. Increasing the number of frequencies is trying to serve more subscribers.

In the case of adjusting the number of frequencies as described above, conventionally, the area with high subscriber density increases the number of frequencies than other neighboring base stations, and the area with low subscriber density decreases the number of frequencies than other neighboring base stations to provide services. It was.

In addition, when the number of subscribers increases, when the propagation radius of the base station cell decreases and a shadow area is generated, a small base station having a smaller number of frequencies than a neighboring base station is provided at the location.

On the other hand, in the above case, in order to make a smooth call while the mobile station moves between base stations, a hard handoff between frequencies is required. As a method for implementing this, the hard handoff between frequencies by hardware and the frequency by software are required. There is a hard handoff.

In this case, installing hardware to implement hard handoff between frequencies by the hardware in the base station with a small amount of calls not only incurs a waste of cost, but also has a problem in that the base station can be made small.

In addition, in the case of frequency hard handoff by the software, the cost is low, but there is a problem that it is difficult to apply to the entire system due to the unstable factor.

Accordingly, the inter-frequency hard handoff by the software is preferably applied and implemented only when the terminal moves from a general base station to a small base station with a low frequency.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide an inter-frequency hard handoff by software only when a terminal moves from a general base station to a small base station with a low frequency. It is to provide a hard handoff application method.

The method of applying an inter-frequency hard handoff in a specific base station of the present invention for achieving the above object includes a first step in which a general base station currently providing a service receives a power measurement report message from a terminal; A second step of determining, by the base station, a power measurement report message received from the terminal in step 1, identifying a pilot signal strength of the base station and neighboring base stations and a PN sequence offset capable of identifying the base station; and the second step A third step of determining whether the terminal moves from the general base station to the small base station having a low frequency number through the pilot signal strength and the PN sequence offset identified in FIG. 3, and as a result of the determination of the third step, the terminal is transferred from the general base station to the small base station If so, the general base station can Performing a hard handoff between frequencies, and if the terminal moves from the general base station to the general base station instead of the small base station, a fourth step of preventing the inter-frequency hard handoff by the software between the general base stations. .

1 is a block diagram according to the present invention,

2 is a flowchart for explaining an operating state of the present invention.

Explanation of symbols on the main parts of the drawings

1 terminal 2 base station

3: base station controller 4: switchboard

Hereinafter, a method for applying an inter-frequency hard handoff in a specific base station according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram according to the present invention, in which a digital mobile communication system using a CDMA method includes a terminal 1, a base station 2 serving the terminal 1, and a base station controlling the base station 2; It consists of a controller 3 and an exchange 4.

A method for applying hard handoff between frequencies in a specific base station according to the present invention in the digital mobile communication system configured as described above will be described with reference to FIG.

First, a general base station currently providing a service receives a power measurement report message from a terminal (S21).

Subsequently, the general base station analyzes the power measurement report message received from the terminal in step S21 (S22) to confirm the pilot signal strength and PN sequence offset of the base station as well as the neighboring base station. do.

That is, when the terminal receives a pilot signal transmitted from the general base station through a pilot channel which is one of the forward channels, it measures the strength of the pilot signal and at the same time through the PN sequence offset included in the pilot signal. Will be identified.

In this case, when the terminal moves, it receives pilot signals and PN sequence offsets of neighboring base stations as well as the general base station. Accordingly, identification and type information of each base station transmitting a pilot signal to the terminal is received.

Thereafter, the terminal transmits the pilot signal strength and PN sequence offset of each base station to the general base station through a power measurement report message to inform the general base station of the wall and type information for each base station transmitting the pilot signal to the terminal. Given.

It is determined whether the terminal moves from the general base station to the small base station with a low frequency through the pilot signal strength and the PN sequence offset identified in step S22 (S23).

That is, when the terminal moves to the small base station, the general base station confirms that its pilot signal strength decreases below the threshold and instead, the strength of the pilot signal of the small base station increases above the threshold.

In addition, the base station transmitting the pilot signal increased by more than a threshold value through the PN sequence offset confirmed from the analysis of the power measurement report message determines whether the small base station to which the terminal is to move.

That is, by identifying the base station through the PN sequence offset and confirming the type information, it is possible to determine whether the base station to which the terminal is to move is a general base station or a small base station.

Subsequently, if the terminal moves from the general base station to the small base station as a result of the determination in step S23, the general base station performs a hard handoff between frequencies by software together with the small base station (S24), and the terminal performs the general base station. In step S25, if the mobile station moves to the general base station instead of the small base station, the software does not perform the hard handoff between the base stations by software.

That is, in step S24, the pilot signal strength of the general base station itself decreases below the threshold, and instead, the strength of the pilot signal of the small base station increases above the threshold, so that the normal base station requests a hard handoff of the terminal to the control station. In the case of transmitting the signal, the control station requests channel allocation to the small base station to establish a traffic channel link, and then requests channel release to the general base station to perform hard frequency-to-frequency hard handoff between the general base station and the small base station. It is to perform hard handoff between frequencies.

As described above, the present invention, through the pilot signal strength and PN sequence offset of the power measurement report message confirms that the terminal moves from the general base station to a small base station with a small number of frequencies, in this case only the frequency by software By performing the inter-hard handoff, there is no need to install hardware in order to implement the inter-frequency hard handoff by hardware in the base station with a low call volume, thereby reducing the cost and supporting the smooth inter-frequency hard handoff.

Claims (1)

A first step in which a general base station currently providing a service receives a power measurement report message from a terminal; A second step of analyzing, by the general base station, a power measurement report message received from the terminal in the first step, identifying a pilot signal strength of the base station as well as neighbor base stations and a PN sequence offset capable of identifying the base station; A third step of determining whether the terminal moves from a general base station to a small base station having a low frequency through the pilot signal strength and the PN sequence offset identified in the second step; As a result of the determination of the third step, if the terminal moves from the general base station to the small base station, the pilot signal strength of the general base station is less than or equal to the threshold, and instead, the strength of the pilot signal of the small base station is increased to be greater than or equal to the threshold. It transmits a hard handoff request of the terminal to the control station, the control station requests channel allocation to the small base station, establishes a traffic channel link, and then requests a channel release to the general base station. Performing a off, and if the terminal moves from the general base station to the general base station instead of the small base station, a fourth step of not performing an inter-frequency hard handoff by the software between the general base stations. Inter-frequency hard hand How to apply.

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