KR20010084873A - a method of soft-handoff for MC-DS/CDMA system - Google Patents

Abstract

PURPOSE: A soft hand-off method of a multi-carrier direct spreading code division multiple access system is provided to remove unnecessary signal transmission of base stations without increasing complexity of a receiver and apply soft hand-off technic to the multi-carrier direct spreading code division multiple access system. CONSTITUTION: If a telephone call is started, every sub-band correlator of a mobile station receives a signal transmitted by one base station, and measures and evaluates electric power of pilot signals transmitted from the other base stations(ST101). If the electric power of pilot signals of the other base station becomes larger than a threshold electric power, the mobile station transmits a pilot receiving power message to an MSC(Mobile Switching Center) through the base stations(ST102). The MSC equally assigns the sub-band of the mobile station to the base stations and indicates to transmit the dispersed signal to the mobile station by using the assigned bandwidth and carrier(ST103). Every sub-band correlator receives a user signal transmitted by the base stations classifiedly(ST104-ST105). If pilot transmission power becomes lower than a threshold voltage, the MSC transmits a hand-off terminating message to the base stations according to the pilot receiving power message of the mobile station for leaving a service of the mobile station entirely up to the specific base station and terminates the hand-off(ST106-ST107).

Description

Soft handoff method in multi-carrier spread spectrum code division multiple access system {a method of soft-handoff for MC-DS / CDMA system}

The present invention relates to a multi-carrier Direct Spreading Code Division Multiple Access (MC-DS / CDMA) system, and in particular, when a mobile station enters a handoff, the subband widths of the mobile station are equally distributed to each base station. A soft handoff method of an MC-DS / CDMA system which allocates and transmits a spread signal to a mobile station only through its bandwidth.

In general, a DS / CDMA (Direct Spreading Code Division Multiple Access) system commercialized for personal mobile communication (PCS) uses a spread signal to convert a data string having a higher transmission rate than a transmission rate to transmit a data string. The spread signal is modulated to a single carrier and transmitted. That is, each user modulates and transmits a signal which has been spread by multiplying the information signal to be transmitted with a unique spread signal by one carrier at a high frequency.

However, in a real wireless channel environment, the transmitted user signal is reflected by many scatterers such as buildings, mountains, etc. to reach the mobile station through multipath. Thus, a plurality of user signals with varying amplitudes and delays are received at the mobile station. The mobile station of the DS / CDMA system uses a rake receiver to detect the received user signal.

The rake receiver performs a despreading process of extracting a user signal by correlating the received signal using a correlator (finger) that uses the same signal as the spread signal used by the user. In other words, a rake receiver with L correlators is used to receive L signals through L multipaths, and L output values of the rake receiver equal to the number of multipaths are synthesized after compensating for channel distortion.

Meanwhile, in the cellular wireless communication network as shown in FIG. 3, when the mobile station 110 moves from one cell 121 to another adjacent cell 122, the base station 131 which provides a service for continuing the service of the mobile station 110 is provided. This other base station 132 performs a handoff service, which is a soft handoff technique in which the mobile station 110 communicates with various base stations 131 to 133 during the handoff period.

In other words, in the reverse link transmitting a signal from the mobile station to the base station, the signal transmitted by the mobile station 110 is simultaneously received by several base stations 131 to 133 spaced apart, and in the forward link transmitted from the base station to the mobile station, An information signal transmitted simultaneously by several base stations 131 to 133 is received by the mobile station 110.

In the above-described DS / CDMA system, the following process is performed to implement soft handoff. That is, the mobile station 110 measures the power of all pilot signals transmitted from the neighbor base stations 132 and 133 after the call is started, and maintains a list of all pilot signals superior to a specific threshold value, and a pilot signal of sufficient strength. If detected, sends a pilot received power message to the base stations 131 to 132.

Accordingly, the base stations 131 to 133 send this message to a mobile switching center (MSC), which transmits a handoff indication message to the base stations 131 to 133 and the mobile station 110 so that the base stations 131 to 133 can receive the message. The mobile station 110 is instructed to allocate the forward and reverse call channels necessary for off to the mobile station 110 so that the mobile station 110 can transmit and receive signals through the assigned call channel.

As multiple forward and reverse talk channels are assigned during soft handoff, multiple talk channels are established between the mobile station 110 and the various base stations 131 to 133, and signals transmitted through these channels are transmitted to the mobile station 110 or the base station. Received and synthesized by 131-133. The correlators 141-143 of the rake receiver 140 of the mobile station 110 separately receive signals transmitted from the various base stations 131-133 during soft handoff and the reception results are maximally non-synthesized.

Correlators 141 to 143 of the rake receiver 140 distinguish and receive and transmit signals transmitted from one base station, which are delayed through various paths due to a multipath channel environment, but are not handed off. When enters, the signals of base stations involved in the handoff are classified and received and synthesized.

In other words, after the call is initiated, all correlators 141 to 143 of the mobile station 110 are transmitted from the first base station 131, receive signals delayed through various paths, and receive the signals. Upon entering, the correlators 141 to 143 classify and receive signals transmitted from the base stations 131 to 133.

Accordingly, in order to apply the soft handoff technique, the mobile station should be able to receive a signal transmitted simultaneously by several base stations during the handoff. The above-described DS / CDMA system provides a soft handoff by using a rake receiver to the mobile station.

Meanwhile, the MC-DS / CDMA system proposed to implement a wideband CDMA system transmits an information signal to a mobile station using a spread spectrum technique and a multicarrier technique. That is, as in the conventional DS / CDMA system, the spread signal is not modulated by one carrier but is modulated by multiple carriers and transmitted.

In other words, as shown in FIG. 4, the MC-DS / CDMA system divides a frequency bandwidth into M subbands (f ₁ , f ₂ , ... f _M ) of the same size, and the carriers of each subband are spread through the same band. It is designed to carry a signal. Therefore, since several user signals are transmitted using the same frequency band at the same time, several user signals are also received at the mobile station.

In order to detect only a specific user signal among the received user signals, the mobile station correlates the received user signals by using a correlator using the same signal as the spread signal used by the specific user to extract only the specific user signal. Proceed with the diffusion process.

In order to receive spreading user signals carried by M carriers, a mobile station must have M subband correlators. The Mth subband correlator uses a spread signal used by a user to transmit signals transmitted by the Mth carrier. Despread to extract the signal of a specific user. The outputs of the M subband correlators are synthesized after compensating for channel distortion.

To apply the forward link soft handoff technique to such MC-DS / CDMA system, the following two methods can be considered. The first method is to install a subband correlator in the mobile station by the "number of related base stations x number of carriers", which increases the complexity of the receiver, which is not practical.

The second method is that each subband correlator receives base stations separately. In this case, there is a problem in that the subband correlators are inefficient due to the loss of power received from the subband signal power transmitted by the base stations.

Therefore, the present invention has been invented to solve the above problems, and when the mobile station enters the handoff, the base station equally allocates subband widths of the mobile station to each base station, and transmits the spread signal to the mobile station only through the bandwidth. It is an object of the present invention to provide a soft handoff method of an MC-DS / CDMA system that does not increase the complexity of the circuit and prevents power loss.

In order to achieve the above object, the present invention provides a multi-carrier spread spectrum code division multiple access (MC-DS / CDMA) system for modulating and transmitting a spread signal to a multi-carrier. The subband correlators receive a signal transmitted by one base station and measure and evaluate the power of a pilot signal transmitted from other base stations, and the pilot signal power of another adjacent base station in the first step is a threshold power value. If larger, a second step of sending a pilot received power message to the mobile switching center (MSC) through the base station, and in the second step, the MSC equalizes the subbands of the mobile station to the base stations involved in the handoff according to the pilot received power message. A third step of allocating and instructing the mobile station to transmit the spread signal using only the allocated bandwidth and carrier And a fourth step of leaving the service of the mobile station to another neighboring base station and terminating the handoff when the pilot signal power of the base station providing the service in the third step is lower than the threshold voltage.

1 is a soft handoff method of an MC-DS / CDMA system according to the present invention.

Drawings to explain,

2 is a flowchart illustrating a soft handoff method according to the present invention;

3 illustrates a soft handoff method of a general DS / CDMA system

Drawing for

4 is a diagram for explaining a general MC-DS / CDMA system.

Explanation of symbols for main parts of the drawings

10: mobile station 21-23: base station

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

1 is a view for explaining a soft handoff method of the MC-DS / CDMA system according to the present invention, three base stations (21 to 23) is involved in the handoff, and the mobile station 10 has three subbands 2 is a flowchart illustrating a soft handoff method of an MC-DS / CDMA system according to the present invention.

As shown in the figure, when a call is initiated, all subband correlators of the mobile station 10 receive and correlate a signal transmitted by one base station, for example, the first base station 21, extract a user signal and at the same time the other base station. The power of the pilot signal transmitted from the fields 22 to 23 is measured to maintain a list of all pilot signals superior to a specific threshold value (ST101).

In this way, when the mobile station 10 detects a pilot signal of sufficient strength while receiving the signal of the first base station 21 and measuring the power of the pilot signal of the other base stations 22 and 23, that is, the other adjacent base station 22 is detected. If the pilot signal power (P _other ) of the () is greater than the threshold power value (P _addthesh ), the mobile station 10 transmits a pilot received power message to the base stations 21 to 23 (ST102).

Accordingly, the base stations 21 to 23 send this message to the mobile switching center (MSC), which sends a handoff indication message to the base stations 21 to 23 so that the first base station 21 receives the first of the mobile stations 10. Allocates subbands, assigns a second subband to a second base station 22, allocates a third subband to a third base station 23, and spreads to the mobile station 10 being handed off using only the allocated bandwidth and carrier. Instructs to transmit the received signal (ST103).

The signals transmitted from the base stations 21 to 23 using the allocated bandwidth and carrier are received by the mobile station 110, and each subband correlator of the mobile station 10 is transmitted by each base station 21 to 23. One user signal is classified and received (ST104 to ST105). That is, when the mobile station 10 enters the handoff state, the MSC allocates the subbands of the mobile station 10 to the base stations 21 to 23 involved in the handoff equally so that each subband has only the signal of the specific base station. 10) to eliminate unnecessary power transmission of the base station.

On the other hand, when the pilot transmission power P ₁ of the base station 21 providing the service is lower than the threshold voltage P _droptresh , the MSC sends a handoff end message according to the pilot reception power message of the mobile station 10. 23), the service of the mobile station 10 is assigned to the specific base station 22, and the handoff is terminated (ST106 to ST107).

As described above, according to the present invention, when a mobile station enters a handoff, each subband of the mobile station is allocated by equally allocating a carrier and a bandwidth of the mobile station to related base stations and carrying a spread signal to the mobile station using only the allocated bandwidth and carrier. The correlator receives only signals transmitted from specific base stations among base stations involved in handoff. Accordingly, the soft handoff technique can be applied to the MC-DS / CDMA system without the unnecessary signal transmission of the base stations without increasing the complexity of the receiver.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (1)

In a multi-carrier spread spectrum code division multiple access (MC-DS / CDMA) system for modulating and transmitting a spread signal to a multi-carrier, When the call is initiated, all subband correlators of the mobile station receive a signal transmitted by one base station and measure and evaluate the power of a pilot signal transmitted from other base stations; A second step of sending a pilot received power message to a mobile switching center (MSC) through the base station when the pilot signal power of another adjacent base station becomes larger than a threshold power value in the first step; In the second step, the MSC instructs the base stations involved in the handoff according to the pilot received power message to equally allocate the subbands of the mobile station and to transmit the spread signal to the mobile station using only the allocated bandwidth and the carrier wave. Wow, And if the pilot signal power of the base station providing the service is lower than the threshold voltage in the third step, the service of the mobile station is assigned to another adjacent base station and the handoff is terminated. Soft Handoff Method in Code Division Multiple Access Systems.