北京邮电大学学报

  • EI核心期刊

北京邮电大学学报 ›› 2024, Vol. 47 ›› Issue (2): 66-73.

• 论文 • 上一篇    下一篇

离散小波变换和自编码器耦合的脑电信号异常检测方法

王振宇,向泽锐,支锦亦   

  1. 西南交通大学设计艺术学院
  • 收稿日期:2023-04-17 修回日期:2023-06-04 出版日期:2024-04-28 发布日期:2024-01-24
  • 通讯作者: 向泽锐 E-mail:7421196566@qq.com
  • 基金资助:
    西南交通大学新型交叉学科培育基金的资助

Discrete wavelet analysis and self-encoder coupling for EEG signal abnormality detection

  • Received:2023-04-17 Revised:2023-06-04 Online:2024-04-28 Published:2024-01-24

摘要: 为了准确地目视检查和解释脑电图(EEG),提出了一种用于识别 EEG 信号中癫痫发作信号的异常检测方法。首先, 使用小波变换将 EEG 信号分解为近似和细节系数,并根据阈值准则剔除不显著系数,以限制小波系数的数量;其次, 采用自编码器对离散小波系数进行编码;然后, 对 EEG 信号进行分析以检测异常值,通过压缩特征集进行数据重构,利用分类器从无癫痫信号中检测癫痫;最后,使用波恩大学数据库,将所提方法与既有方法进行比较。用所提方法采用线性和非线性机器学习分类器从 EEG 信号中检测癫痫发作信号。实验结果表明,该方法的准确率和特异性分别达到了 99.93% 和 100% 。因此,所提方法具有良好的检测能力和鲁棒性,可以用简单的线性分类器识别 EEG 信号中的癫痫发作活动信号,适用于时间序列信号分析,同时能够检测和判断异常,也可为癫痫的诊断、治疗和评估提供客观参考,从而减轻医生的工作量,提高治疗效率。

Abstract: Epilepsy is a common neurological disorder that is usually detected by electroencephalographic (EEG) signals. Visual inspection and interpretation of EEG is a slow, time-consuming process that is prone to errors and subjective variations. A discrete wavelet transform (DWT) and autoencoder (AE) coupled signal abnormality detection method is proposed to distinguish seizure signals from normal (seizure-free) signals. First, the wavelet transform is used to decompose the EEG signal into approximation and detail coefficients, and the number of wavelet coefficients is limited by rejecting insignificant coefficients according to the threshold criterion. Secondly, the DWT coefficients were encoded using a self-encoder. Finally, the EEG signal was analyzed to detect outliers, data reconstruction was performed by compressing the feature set, and a neural network classifier was used to detect epileptiform activity from epileptic-free signals. The results of this method were compared and validated with those of previous methods using the Bonn University database. The method achieved a good classification performance (99.93% accuracy, 100% specificity) using linear and nonlinear machine learning classifiers to detect seizure activity from EEG data. Therefore, this method can be considered as robust with good detection ability to distinguish seizure activity, seizure-free activity, and normal EEG activity with a simple linear classifier. The method is suitable for time series signal analysis with further detection and determination of abnormalities. The method of detecting abnormal EEG signals in epilepsy can provide an objective reference for diagnosing, treating, and evaluating epilepsy. Thus, it can reduce physicians' workload and improve treatment efficiency, which has important theoretical significance and practical application value.

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