利用噪声辅助多元经验模态分解去除脑电信号中的眼电信号伪影

Sania Zahan
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引用次数: 7

摘要

脑电图(EEG)在医学诊断和脑机接口(BCI)方面有着重要的应用。但是对脑电信号进行分析的主要障碍是各种各样的噪声,难以获得真实的信息。眼电图(EOG)是眼球运动产生的脑电信号中一个重要的噪声。脑电信号去噪是本研究的关键问题。在这方面已有很多研究,主要有基于独立分量分析(ICA)的参考信号EOG分离和基于小波的EOG分离。本研究将利用多元分数阶高斯噪声信道建立均匀分布的参考尺度,并推导基于能量的阈值来检测EOG伪影引起的低频趋势。避免了这些伪影,可以得到比现有方法更好的无EOG EEG。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Removing EOG artifacts from EEG signal using noise-assisted multivariate empirical mode decomposition
Electroencephalogram (EEG) has significant applications on medical diagnosis and Brain Computer Interfacing (BCI). But the main obstacle of analyzing EEG signal is various types of noises to get actual information. Electro-oculogram (EOG) is a vital noise in EEG signal that can be produced by eye movements. De-noising EOG from EEG signal is the key issue in this research. Many research has been done on this purpose mainly Independent Component Analysis (ICA) based EOG separation with reference signal and wavelet based EOG separation. In this research, multivariate Fractional Gaussian noise channel will be used to establish a uniformly distributed reference scale and to derive the energy based threshold to detect the low frequency trends caused by EOG artifact. Avoiding these artifacts, we can get EOG free EEG hoping better results than existing methods.
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