使用小波变换、相空间重构和欧几里得距离对正常和癫痫发作 EEG 信号进行分类。

Classification of normal and epileptic seizure EEG signals using wavelet transform, phase-space reconstruction, and Euclidean distance.

机构信息

Department of Computer Science & Engineering, Anyang University, Anyang-si, Republic of Korea.

IT College, Gachon University, Seongnam-si, Republic of Korea.

出版信息

Comput Methods Programs Biomed. 2014 Aug;116(1):10-25. doi: 10.1016/j.cmpb.2014.04.012. Epub 2014 Apr 30.

DOI:10.1016/j.cmpb.2014.04.012

PMID:24837641

Abstract

This paper proposes new combined methods to classify normal and epileptic seizure EEG signals using wavelet transform (WT), phase-space reconstruction (PSR), and Euclidean distance (ED) based on a neural network with weighted fuzzy membership functions (NEWFM). WT, PSR, ED, and statistical methods that include frequency distributions and variation, were implemented to extract 24 initial features to use as inputs. Of the 24 initial features, 4 minimum features with the highest accuracy were selected using a non-overlap area distribution measurement method supported by the NEWFM. These 4 minimum features were used as inputs for the NEWFM and this resulted in performance sensitivity, specificity, and accuracy of 96.33%, 100%, and 98.17%, respectively. In addition, the area under Receiver Operating Characteristic (ROC) curve was used to measure the performances of NEWFM both without and with feature selections.

摘要

本文提出了一种新的组合方法，使用基于加权模糊隶属函数的神经网络（NEWFM），通过小波变换（WT）、相空间重构（PSR）和欧几里得距离（ED）对正常和癫痫发作 EEG 信号进行分类。WT、PSR、ED 和包括频率分布和变化的统计方法被实施以提取 24 个初始特征作为输入。在 24 个初始特征中，使用 NEWFM 支持的非重叠区域分布测量方法选择了具有最高精度的 4 个最小特征。这 4 个最小特征被用作 NEWFM 的输入，其性能的灵敏度、特异性和准确性分别为 96.33%、100%和 98.17%。此外，还使用接收器操作特征（ROC）曲线下面积来衡量 NEWFM 在没有和有特征选择时的性能。

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使用小波变换、相空间重构和欧几里得距离对正常和癫痫发作 EEG 信号进行分类。

Classification of normal and epileptic seizure EEG signals using wavelet transform, phase-space reconstruction, and Euclidean distance.

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