A multiplex visibility graph motif‐based convolutional neural network for characterizing sleep stages using EEG signals

Qing Cai, Jianpeng An, Z. Gao
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引用次数: 4

Abstract

Sleep is an essential integrant in everyone’s daily life; therefore, it is an important but challenging problem to characterize sleep stages from electroencephalogram (EEG) signals. The network motif has been developed as a useful tool to investigate complex networks. In this study, we developed a multiplex visibility graph motif‐based convolutional neural network (CNN) for characterizing sleep stages using EEG signals and then introduced the multiplex motif entropy as the quantitative index to distinguish the six sleep stages. The independent samples t‐test shows that the multiplex motif entropy values have significant differences among the six sleep stages. Furthermore, we developed a CNN model and employed the multiplex motif sequence as the input of the model to classify the six sleep stages. Notably, the classification accuracy of the six‐state stage detection was 85.27%. Results demonstrated the effectiveness of the multiplex motif in characterizing the dynamic features underlying different sleep stages, whereby they further provide an essential strategy for future sleep‐stage detection research.
基于多路可见性图基序的卷积神经网络用于EEG信号的睡眠阶段表征
睡眠是每个人日常生活中必不可少的一部分;因此,从脑电图信号中表征睡眠阶段是一个重要但具有挑战性的问题。网络基序已成为研究复杂网络的一个有用工具。在这项研究中,我们开发了一种基于多重可见图基序的卷积神经网络(CNN),用于利用脑电图信号表征睡眠阶段,然后引入多重基序熵作为定量指标来区分六个睡眠阶段。独立样本t检验表明,6个睡眠阶段的多重基序熵值存在显著差异。在此基础上,我们建立了一个CNN模型,并将多重基序序列作为模型的输入,对6个睡眠阶段进行分类。值得注意的是,六状态阶段检测的分类准确率为85.27%。结果证明了多重基序在描述不同睡眠阶段的动态特征方面的有效性,从而为未来的睡眠阶段检测研究提供了必要的策略。
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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