Wavelet Domain Nonlinear Filtering for Evoked Potential Signal Enhancement

Computers and biomedical research, an international journal Pub Date : 2000-12-01 DOI:10.1006/cbmr.2000.1555

G. Sita, A.G. Ramakrishnan

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引用次数: 18

Abstract

A wavelet domain nonlinear filtering method for improving the signal-to-noise ratio (SNR) of the evoked potentials (EP) is proposed. The method modifies the selective filtering technique proposed for edge detection in images by Xu et al. for the case of signals which require a smooth transition at the edge points. It identifies the significant features of a noisy signal based on the correlation between the scales of its nonorthogonal subband decompositions. The signal transition information from interscale correlation coupled with the change in variance around the identified transition region is used to differentiate between noise and the signal. A nonlinear function such as a Gaussian smoothing function applied around the identified edge in the wavelet domain leads to smoothing in the signal space also. Numerical results obtained by applying the proposed nonlinear filtering method on middle latency responses of auditory evoked potentials show that the method is well suited for signal enhancement applications.

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诱发电位信号增强的小波域非线性滤波

提出了一种提高诱发电位信噪比的小波域非线性滤波方法。该方法对Xu等人提出的用于图像边缘检测的选择性滤波技术进行了改进，以满足信号在边缘点处需要平滑过渡的情况。该方法基于噪声信号非正交子带分解尺度之间的相关性来识别噪声信号的重要特征。该方法利用尺度间相关的信号转换信息和识别的过渡区域周围的方差变化来区分噪声和信号。一个非线性函数，如高斯平滑函数，在小波域的识别边缘周围应用，也会导致信号空间的平滑。将所提出的非线性滤波方法应用于听觉诱发电位中潜伏期响应的数值结果表明，该方法非常适合于信号增强应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Computers and biomedical research, an international journal

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