KR100586586B1 - Weight Varying Method for Interference Cancellation - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a method for varying an interference cancellation weight in an interference canceller and a computer-readable recording medium having recorded thereon a program for realizing the method.

2. The technical problem to be solved by the invention

The present invention provides an interference cancellation weight variable method of varying an interference cancellation weight within a range of several intermittent steps according to a change in an error of a symbol, and a computer-readable recording medium having recorded thereon a program for realizing the method. To provide.

3. Summary of Solution to Invention

The present invention includes a first step of checking whether there is a change in an error of a symbol shown in an output terminal; As a result of the checking of the first step, if the error of the symbol shown in the output terminal is increased compared to the error of the symbol previously shown, the interference elimination weight is intermittently reduced or maintained depending on whether the interference elimination weight has a minimum value. Making a second step; As a result of the checking of the first step, if the error of the symbol shown in the output terminal is reduced compared to the error of the previously appeared symbol, the interference elimination weight is intermittently increased or not depending on whether the interference elimination weight has a maximum value. A third step of maintaining; And a fourth step of maintaining the interference elimination weight if the error of the symbol shown in the output terminal is not the same as the error of the symbol shown previously as a result of the checking of the first step.

4. Important uses of the invention

The present invention is used in the next generation mobile communication system.

Interference Cancellation Weight, Smart Antenna, Interference Canceller, Variable Weight

Description

Weight Varying Method for Interference Cancellation             

1 is a configuration example of a coupling device of the smart antenna and the interference canceller to which the present invention is applied.

2 is a flowchart illustrating an embodiment of a method for varying interference cancellation weight according to the present invention;

The present invention relates to a method for varying an interference cancellation weight in an interference canceller and a computer-readable recording medium having recorded thereon a program for realizing the method. In particular, the present invention relates to an interference canceller for increasing the capacity of a broadband wireless communication system. The present invention relates to an interference cancellation weight variable method for reducing the complexity of implementation by varying the interference cancellation weight and to a computer-readable recording medium having recorded thereon a program for realizing the method.

In the conventional interference canceller, when the interference canceling weight is assigned, it has a value of 0 and 1, and it is removed when it is estimated as an interference signal and not when it is not estimated as an interference signal.

However, when this estimation is wrong, there is a problem that causes serious signal distortion.

In addition, the exponential function using the error value of the symbol output from the smart antenna in the combination device of the smart antenna and the interference canceller, which induces a larger capacity increase by compensating the disadvantages of the two devices through the combination of the smart antenna and the interference canceller conventionally. There was a method to variably determine the interference cancellation weight between 0 and 1 using, which is difficult to implement due to the complexity of the device itself when implemented on real hardware.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and the method and the method for varying the interference cancellation weight to vary the interference cancellation weight within a range of several intermittent steps according to the change in the error value obtained at the output stage. It is an object of the present invention to provide a computer-readable recording medium that records a program for realization.

According to an aspect of the present invention, there is provided a method for varying an interference cancellation weight applied to an interference canceller, the method comprising: checking whether an error of a symbol shown at an output stage has changed; As a result of the checking of the first step, if the error of the symbol shown in the output terminal is increased compared to the error of the symbol previously shown, the interference elimination weight is intermittently reduced or maintained depending on whether the interference elimination weight has a minimum value. Making a second step; As a result of the checking of the first step, if the error of the symbol shown in the output terminal is reduced compared to the error of the previously appeared symbol, the interference elimination weight is intermittently increased or not depending on whether the interference elimination weight has a maximum value. A third step of maintaining; And a fourth step of maintaining the interference elimination weight if there is no change as the error of the symbol shown in the output terminal is the same as the error of the previously shown symbol as a result of the checking of the first step.

The present invention also provides a smart device having a high-capacity processor and an interference canceller, comprising: a first function of checking whether there is a change in an error of a symbol shown at an output terminal; As a result of confirming the first function, if the error of the symbol shown in the output terminal is increased compared to the error of the symbol previously shown, the interference elimination weight is intermittently reduced or maintained depending on whether the interference elimination weight has a minimum value. A second function to make; As a result of confirming the first function, if the error of the symbol shown in the output terminal is reduced compared to the error of the previously shown symbol, the interference elimination weight is intermittently increased or not depending on whether the interference elimination weight has a maximum value. A third function to maintain; And a program for realizing a fourth function for maintaining the interference elimination weight if the error of the symbol shown in the output terminal is not the same as the error of the symbol shown previously as a result of checking the first function. Provide a record carrier.

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.

The present invention relates to a method for setting an interference cancellation weight in an interference canceller. In the embodiment of the present invention will be described taking the combination of the smart antenna and the interference canceller as an example in setting the interference cancellation weight.

1 is an exemplary configuration diagram of a combination device of a smart antenna and an interference canceller to which the present invention is applied.

The combination of the smart antenna and the interference canceller is sequentially connected by placing the adaptive smart antenna at the front end and the parallel partial interference canceller at the rear end. This type is an optimal type that can improve the performance of the interference canceller by eliminating the interference signal that the smart antenna failed to remove and using the smart antenna output result for multi-user signal estimation.

1 illustrates a structure in which a smart antenna and an interference canceller are applied to the present invention.

The front part of FIG. 1 is an adaptive smart antenna part, and includes a plurality of antennas, a despreading module, a weight calculator, and a symbol determination module. The weight vector used in the weight calculator is adapted to gradually optimize the weight vector by applying a least mean square (LMS) algorithm using information from the symbol determination module.

In order to make the adaptive smart antenna have an optimization weight, it is initially used as a training mode (a mode for optimizing the weight by sending known data), and in actual operation mode, the antenna output is used as a determination result.

The interference canceller is a module after the antenna symbol determination module. The interference canceller comprises a weight inverse operator and a respread module, and then includes an interference cancellation operation module for calculating the interference cancellation weight p. The signal output from the adaptive smart antenna via the symbol determination module is de-weighted and respread using a pseudo noise (PN) code to restore the original signal for interference cancellation. The respread signal is then subjected to interference cancellation in parallel by the interference cancellation weight p.

In general, the interference canceller includes a serial interference canceller and a parallel interference canceller. In the present embodiment, the interference canceller is described through a parallel interference canceller.

A typical interference canceller can cause severe signal distortion if the estimation is wrong by removing all the estimated signals, so that only partial cancellation is performed for signals that are judged to be incorrectly estimated using the interference cancellation weight (p). Was minimized.

)을 도입하여 다음의 [수학식 1]와 같이 나타내었다.However, since the interference cancellation weight p is closely related to the reliability of the input symbol, the minimum square error (MSE) value of the symbol calculated by the adaptive smart antenna (

) Was introduced as shown in Equation 1 below.

The larger the value of the least square error (MSE), the closer the value of the exponential function is, so the interference by the symbol tends not to be canceled.

However, the above method has a complicated implementation when implemented on real hardware by using an exponential function. Therefore, in the present invention, the interference elimination weight p is not defined as a specific function, and is defined as Equation 2 below.

)는 바로 직전의 가중치(

) 값에

를 더하여 구한다.i th user weight of the k th interference stage (

) Is the immediately preceding weight (

) Value

Find by adding

)가 0에서 1사이의 값을 갖도록 정의되며, 추정이 정확할수록 1에 가까운 값으로 설정되어야 한다. 이 조건을 만족시키기 위해

는 다음과 같이 정의된다.However, in order to perform partial interference according to the accuracy of the estimated symbol, the interference cancellation weight (

) Is defined to have a value between 0 and 1, and the more accurate the estimate, the closer to 1 it should be. To satisfy this condition

Is defined as

의 값을 가지며, N은 1을 N등분한 수이다.

Has a value of N, where N is equal to 1 divided by N.

로 설정되며, 현재 오류가 이전의 오류에 비해 감소하였을 경우는

로 설정된다. 이를 수학식으로 나타내면 다음의 [수학식 3]과 같다.If the error obtained by least square error (MSE) at the final output of the interference canceller is increased compared to the previous error,

If the current error is reduced from the previous error,

Is set to. This is represented by Equation 3 below.

As the boundary condition of Equation 3,

가 1이었으면 최소 제곱 오류(MSE)가 감소하여도

로 설정된다.

Is 1, even if the least squares error (MSE) decreases,

Is set to.

가 0이었으면 최소 제곱 오류(MSE)가 증가하여도

으로 설정된다.

Is 0, the minimum squared error (MSE) increases

Is set.

는 0에서 1사이에 있는 N개의 단속적인 레벨을 최종 출력단에 나타난 심볼의 최소 제곱 오류(MSE)의 증감에 따라 한레벨씩 전이하도록 한다.In other words,

The N intermittent levels between 0 and 1 are shifted by one level according to the increase and decrease of the least square error (MSE) of the symbol shown in the final output stage.

2 is a flowchart illustrating a method for varying an interference cancellation weight in a combination device of a smart antenna and an interference canceller according to the present invention.

As described above, by varying the interference cancellation weight p using a least square error (MSE) value obtained from the output value of the final output terminal of the interference canceller, it is possible to reduce the signal distortion that is incorrectly estimated by the interference canceller. Referring to the flow shown in the drawings as follows.

First, when the combination device of the smart antenna and the interference canceller is driven, the interference cancellation weight p is initialized (201). The error (MSE) of the symbol appearing at the output of the interference canceller is checked (202) to determine whether there has been a change (203). As a result of the determination, if there is no change, the interference elimination weight value is maintained (204), and the process (202) is repeated to check the error (MSE) of the symbol appearing at the output terminal.

As a result of determining whether there is a change by checking an error (MSE) of the symbol appearing at the output, it is checked whether the error of the symbol shown at the output is increased (205). As a result of the check, if the error of the symbol shown in the output increases, it is checked whether the current interference cancellation weight p value is 0 (206).

As a result of checking whether the current interference elimination weight p value is 0, if it is not 0, the interference elimination weight value is decreased by one level in consideration of the increase in symbol error (207).

As a result of checking whether the current interference elimination weight (p) is 0, the error of the symbol increases if 0, but since the interference elimination weight is between 0 and 1, the interference elimination weight cannot be reduced. The interference cancellation weight value is maintained (208).

As a result of checking whether the error of the symbol shown in the output terminal is increased, if it is not increased but decreased, it is checked whether the current interference elimination weight value is 1 (209). As a result of the check, if the current interference elimination weight value is 1, the current interference elimination weight value is maintained according to the boundary condition of the interference elimination weight (208).

As a result of checking whether the current interference elimination weight value is 1 while the error of the symbol shown in the output is reduced, if the current interference elimination weight value is not 1, the interference elimination weight value is increased by one level considering that the error of the symbol is reduced. (210).

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

The present invention as described above, by intermittently varying the interference cancellation weight value in the interference canceller to increase the capacity of the broadband CDMA system, it is possible to implement a simpler and more accurate interference canceller to avoid the conventional complexity.

Claims (6)

In the interference cancellation weight variable method applied to the interference canceller, A first step of checking whether there is a change in the error of the symbol shown in the output terminal; As a result of the checking of the first step, if the error of the symbol shown in the output terminal is increased compared to the error of the symbol previously shown, the interference elimination weight is intermittently reduced or maintained depending on whether the interference elimination weight has a minimum value. Making a second step; As a result of the checking of the first step, if the error of the symbol shown in the output terminal is reduced compared to the error of the previously appeared symbol, the interference elimination weight is intermittently increased or not depending on whether the interference elimination weight has a maximum value. A third step of maintaining; And A fourth step of maintaining the interference elimination weight if the error of the symbol shown in the output terminal is not the same as the error of the symbol shown previously as a result of the checking of the first step; Interference cancellation weight variable method comprising a. The method of claim 1, The second step, A fifth step of determining whether the interference cancellation weight has a minimum value when the error of the symbol shown in the output terminal is increased compared to the error of the symbol shown previously; A sixth step of maintaining the interference cancellation weight if the interference cancellation weight is a minimum value as a result of the determination in the fifth step; And A seventh step of intermittently decreasing the interference cancellation weight if the interference cancellation weight is not at the minimum value as a result of the determination in the fifth step; Interference cancellation weight variable method comprising a. The method of claim 1, The third step, A fifth step of determining whether the interference cancellation weight has a maximum value when the error of the symbol shown in the output terminal is reduced compared to the error of the symbol previously shown; A sixth step of maintaining the interference cancellation weight if the interference cancellation weight is at a maximum value as a result of the determination in the fifth step; And A seventh step of intermittently increasing the interference cancellation weight if the interference cancellation weight is not at the maximum value as a result of the determination in the fifth step; Interference cancellation weight variable method comprising a. The method according to any one of claims 1 to 3, The interference cancellation weight is, And a predetermined number of intermittent levels on the basis of the previous interference cancellation weight. The method of claim 4, wherein The interference cancellation weight is, And shifting by one level within a range between 0 and 1 according to the increase or decrease of the error of the symbol appearing at the output terminal. In the combination of the smart antenna and the interference canceller with a large capacity processor, A first function of checking whether there has been a change in an error of a symbol appearing at the output; As a result of confirming the first function, if the error of the symbol shown in the output terminal is increased compared to the error of the symbol previously shown, the interference elimination weight is intermittently reduced or maintained depending on whether the interference elimination weight has a minimum value. A second function to make; As a result of confirming the first function, if the error of the symbol shown in the output terminal is reduced compared to the error of the previously shown symbol, the interference elimination weight is intermittently increased depending on whether the interference elimination weight has a maximum value. Third function to maintain or maintain; And A fourth function for maintaining the interference elimination weight if there is no change as the error of the symbol shown in the output terminal is the same as the error of the previously shown symbol as a result of confirming the first function A computer-readable recording medium having recorded thereon a program for realizing this.

Images