KR20070017833A - Evaluating method for inter-channel interference in mobile telecommunication system - Google Patents

Abstract

The present invention relates to a technique for evaluating interference between channels by applying to a maximum ratio combining (MRC) and equal gain combining (EGC) scheme in a mobile communication system for transmitting and receiving a signal through a multipath. The present invention includes a first process of demodulating, despreading, and decoding a signal received through a multipath from a transmitting end to restore an original source signal; This is achieved by a second process of evaluating the degree of interference between channels by obtaining interference power between adjacent channels in the same gain combining or maximum ratio combining technique.

Description

Evaluation method of inter-channel interference in mobile communication system {EVALUATING METHOD FOR INTER-CHANNEL INTERFERENCE IN MOBILE TELECOMMUNICATION SYSTEM}

1A is a transmission control flowchart of a mobile communication system according to the present invention;

1B is a flowchart illustrating a reception control of a mobile communication system to which an inter-channel interference evaluation method according to the present invention is applied.

2 is an exemplary block diagram of a transmitting end to which the present invention is applied.

3 is a graph of change in interference power between adjacent channels in the same gain combining or maximum ratio combining scheme according to the present invention;

4 is a bit error rate graph in a maximum ratio combining scheme in accordance with the present invention.

5 is a bit error rate graph in the same gain combining technique according to the present invention.

*** Description of the symbols for the main parts of the drawings ***

1: STBC encoder 2A, 2B: IFFT stage

The present invention relates to a technique for evaluating inter-channel interference in a mobile communication system that transmits and receives a signal through a multipath. In particular, the present invention relates to Maximal Ratio Combining (MRC) and Equal Gain Combining (EGC). The present invention relates to a method for evaluating inter-channel interference of a mobile communication system suitable for evaluating inter-channel interference.

The diversity scheme is used as a countermeasure against fading due to multi-path in mobile communication. Multipath means that a plurality of transmission signals are received by a receiving antenna via a multi-pronged path in the air. When multiple signals are received through different paths, they experience different amplitude attenuation and phase changes. When these signals are combined in reception, the signal strength changes from the transmission signal with time, which is called fading. Diversity techniques overcome fading by receiving and properly combining multiple signals that are affected by independent fading.

Types of diversity include macroscopic diversity using long-term lognormal signals and microscopic diversity using short-term Rayleigh signals. In addition, the type of micro diversity includes space, polarization, angle, frequency, and time diversity (space, polarization, angle, frequency, time diversity).

In addition, there are a combination method such as selective combining, Maximal Ratio Rombining (MRC), Equal Gain Combining (EGC), and Feedback. The selective combining method selects the best receiving power among several signals, and the structure is complicated because a receiving circuit for receiving power is required as many as the number of antennas. The maximum ratio combining method is a method of combining each signal at the best ratio, and requires a structure for determining and combining the ratios, which makes the structure complicated. The equal gain combining method combines signals in the same phase, and it is difficult to match the phase of each signal. In the switch combining method, when one signal is selected and the reception power is lower than a predetermined level (threshold level), it is sufficient to have only one reception circuit capable of measuring the reception power by selecting another signal. Among these, the switched combining method is less efficient, but the structure is simple and inexpensive, so it is easy to apply.

Meanwhile, in an Orthogonal Frequency-Division Multiplexing (OFDM) communication system, which is an efficient multi-carrier system for high-speed data transmission in a wireless communication system, phase noise generated by an oscillator at a transmitting and receiving end is inter-channel interference (ICI). This adversely affects communication performance.

Therefore, it is necessary to accurately analyze the ICI of each channel to minimize the factors causing inter-channel interference.

Nevertheless, in the related art, since there is no method for accurately analyzing the ICI of each channel, there is a difficulty in coping with inter-channel interference properly.

Accordingly, an object of the present invention is to provide a method for obtaining inter-channel interference power by applying to maximum ratio combining (MRC) and equal gain combining (EGC) techniques.

The present invention for achieving the above object comprises the steps of recovering the original source signal by demodulating, despreading and decoding the signal received through the multi-path from the transmitter; And calculating the interference power between adjacent channels in the same gain combining or maximum ratio combining technique.

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

FIG. 1A is a transmission control flowchart in a process of inter-channel interference estimation method of a mobile communication system according to the present invention. As shown in FIG. 1A, a Walsh code is first spread by encoding an input source signal through an STBC encoder. Process; And a second process of OFDM modulating and transmitting the spreading Walsh code through an IFFT stage.

FIG. 1B is a flow diagram of a reception control during a process of evaluating inter-channel interference in a mobile communication system according to the present invention. As shown in FIG. 1B, a signal received through a multipath from a transmitter is demodulated and de-processed and then decoded. Recovering the source signal of the first process; And a second step of evaluating the degree of interference between channels by obtaining interference power between adjacent channels in the same gain combining or maximum ratio combining scheme. A detailed description with reference to 2 to 5 as follows.

First, FIG. 2 illustrates a binary phase shift key (BPSK) OFDM transmission model having two antennas to which the present invention is applied.

)가 STBC 인코더(1)를 통해 부호화 처리되어 두 개의 부채널 심볼(

),(

₁)로 출력된다.(ST1) That is, the input source signal (

) Is encoded by the STBC encoder 1 so that two subchannel symbols (

), (

₁ ) is outputted as (ST1).

Subsequently, the Walsh code, which is an orthogonal spreading code, is spread-processed. (ST2)

),(

₁)들이 OFDM 부반송파에 차례로 실리고, 이들이 각각의 IFFT단(2A),(2B)을 통해 OFDM 변조된 후 최종적으로 RF단으로 출력되어 송신된다.(ST3,ST4) The encoded series of symbols (

), (

₁ ) are sequentially loaded on the OFDM subcarriers, and they are OFDM modulated through the respective IFFT stages 2A and 2B, and finally output to the RF stage and transmitted. (ST3, ST4)

On the other hand, the receiving end demodulates and despreads a signal received through the multipath from the transmitting end. (SR1, SR2)

Subsequently, the demodulated and desprayed signal is decoded to recover the original source signal. (SR3)

을 다음의 [수학식1]로 구하여 채널간 간섭 정도를 평가하게 된다.(SR4)At this time, inter-contiguous interference (ICI) power in the same gain combining (EGC) or maximum ratio combining (MRC) scheme

Is calculated by Equation 1 below to evaluate the degree of interference between channels. (SR4)

)을 줄일 수 있다. For reference, in the same gain combining scheme, if the number of users (2K) is the same condition, the interference power between adjacent channels may be increased by increasing the number of transmission antennas or the length of the Walsh spreading sequence.

) Can be reduced.

)을 줄일 수 있다. In addition, in the maximum ratio combining scheme, if the number of users (2K) is the same condition, the length of the Walsh spreading sequence is increased to increase the interference power between the adjacent channels.

) Can be reduced.

Meanwhile, FIG. 3 illustrates inter-channel interference (ICI) in equal gain combining (EGC) or maximum ratio combining (MRC) scheme according to the change of the number of transmit antennas (M) when N = 64 and P = K = 32. It is a graph showing the power change.

4 is a graph showing a bit error rate (BER) in a maximum ratio combining (MRC) scheme according to fdTs on two channel paths when N = 64, P = 32, and K = 8.

5 is a graph showing a bit error rate (BER) in an equal gain combining (EGC) scheme according to fdTs on two channel paths when N = 64, P = 32, and K = 8.

As described in detail above, the present invention has an effect of coping with interchannel interference so that the degree of interchannel interference can be easily obtained by easily obtaining interchannel interference power in a maximum ratio combining or equal gain combining technique.

Claims (2)

Demodulating, despreading, and decoding a signal received through a multipath from a transmitter, and restoring an original source signal; A second process of estimating the interference power between adjacent channels in the same gain combining or maximum ratio combining technique is proportional to the number of users and inversely proportional to the number of communication antennas and the Walsh spreading sequence length. Inter-channel interference evaluation method of a mobile communication system, characterized in that comprises a. The method of claim 1, wherein the equation is represented by the following equation.

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