混合 WCA-PSO 优化集合极限学习机和小波变换用于从脑电图信号中检测和分类癫痫发作

Sreelekha Panda, Satyasis Mishra, Mihir Narayana Mohanty
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引用次数: 0

摘要

癫痫发作是突然的,混乱的神经功能。通过脑电图(EEG)可以揭示大脑的复杂性。基于视觉检查的脑电图信号分析耗时、昂贵且困难。癫痫相关的死亡率是一个严重的问题。在诊断过程中,计算机辅助诊断方法对癫痫发作的精确和自动检测和分类起着至关重要的作用。针对分类器的数学复杂度和计算时间对处理时间要求较高的问题,提出了一种混合水循环算法(WCA) -粒子群优化(PSO)优化的集成极限学习机(EELM)癫痫发作分类方法,以提高分类器的分类性能。首先,利用小波变换进行特征提取。将提取的特征作为输入对齐到WCA-PSO-EELM中进行分类。利用粒子群优化(PSO)算法初始化WCA算法的优化变量,利用WCA算法优化ELM(即WCA - PSO - ELM (WPELM))的输入权值,实现癫痫和非癫痫脑电信号的分类。实验使用了波恩大学的数据库。该算法综合考虑了灵敏度、特异性和准确率等指标,分别达到了98.78%、99.23%和99.12%,均高于其他传统算法。为了验证WCA-PSO算法的鲁棒性,考虑了三个基准函数进行优化。对比结果显示了WCA-PSO-EELM分类器的唯一性。对比结果表明,所提出的WCA-PSO-EELM模型在癫痫发作和非癫痫发作脑电信号分类方面具有较好的效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Hybrid WCA–PSO Optimized Ensemble Extreme Learning Machine and Wavelet Transform for Detection and Classification of Epileptic Seizure from EEG Signals

Hybrid WCA–PSO Optimized Ensemble Extreme Learning Machine and Wavelet Transform for Detection and Classification of Epileptic Seizure from EEG Signals

Epilepsy seizures are sudden, chaotic neurological functions. The complexity of the brain is revealed via electroencephalography (EEG). Visual examination-based EEG signal analysis is time-consuming, expensive, and difficult. Epilepsy-related mortality is a serious concern. In the diagnostic procedure, computer-assisted diagnosis approaches for precise and automatic detection and classification of epileptic seizures play a crucial role. Due to the classifier's high processing time requirements caused by its mathematical complexity and computational time, we propose a hybrid water cycle algorithm (WCA)–particle swarm optimization (PSO) optimized ensemble extreme learning machine (EELM) classification of seizures to improve the classification performance of the classifier. Firstly, we use feature extraction by utilizing the wavelet transform. The extracted features are aligned as input to the WCA–PSO–EELM for classification. The particle swarm optimization (PSO) algorithm is used to initialize the optimization variables of a WCA algorithm, and the WCA algorithm is used to optimize the input weight of the ELM (i.e., the WCA–PSO–ELM (WPELM)) for classification of seizure and non-seizure EEG signals. University of Bonn database is used for the experiment. The performance measures sensitivity, specificity, and accuracy are considered and achieved 98.78%, 99.23%, and 99.12%, that is, higher than those of other conventional algorithms. To validate the robustness of the WCA–PSO algorithm, three benchmark functions are considered for optimization. The comparison results are presented to visualize the uniqueness of the proposed WCA–PSO–EELM classifier. From the comparison results, it was observed that the proposed WCA–PSO–EELM model outperformed in classifying the seizure and non-seizure EEG signals.

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