基于复杂网络的驾驶员脑电信号疲劳检测系统

IEEE Transactions on Systems Man and Cybernetics Part A-Systems and Humans Pub Date : 2021-09-01 DOI:10.1109/TSMC.2019.2956022

Yuxuan Yang, Z. Gao, Yanli Li, Qing Cai, N. Marwan, J. Kurths

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引用次数: 46

摘要

驾驶员疲劳检测对于保障交通安全，进一步减少经济和社会损失具有重要意义。提出了一种基于复杂网络(CN)的广义学习系统(CNBLS)来实现基于脑电图的疲劳检测。首先进行模拟驾驶实验，获取清醒和疲劳状态下的脑电记录。然后，应用神经网络理论促进广义学习系统(BLS)实现基于脑电图的疲劳检测。结果表明，所提出的CNBLS能够准确区分疲劳状态和警戒状态，具有较高的稳定性。此外，将现有四种方法的性能与所提方法的结果进行了比较。结果表明，该方法优于现有方法。与直接使用脑电信号作为BLS的输入相比，CNBLS可以显著提高检测结果。结果表明，利用神经网络理论对脑电信号进行分类是可行的。该方法丰富了脑电分析方法。

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A Complex Network-Based Broad Learning System for Detecting Driver Fatigue From EEG Signals

Driver fatigue detection is of great significance for guaranteeing traffic safety and further reducing economic as well as societal loss. In this article, a novel complex network (CN) based broad learning system (CNBLS) is proposed to realize an electroencephalogram (EEG)-based fatigue detection. First, a simulated driving experiment was conducted to obtain EEG recordings in alert and fatigue state. Then, the CN theory is applied to facilitate the broad learning system (BLS) for realizing an EEG-based fatigue detection. The results demonstrate that the proposed CNBLS can accurately differentiate the fatigue state from an alert state with high stability. In addition, the performances of the four existing methods are compared with the results of the proposed method. The results indicate that the proposed method outperforms these existing methods. In comparison to directly using EEG signals as the input of BLS, CNBLS can sharply improve the detection results. These results demonstrate that it is feasible to apply BLS in classifying EEG signals by means of CN theory. Also, the proposed method enriches the EEG analysis methods.

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来源期刊

IEEE Transactions on Systems Man and Cybernetics Part A-Systems and Humans 工程技术-计算机：控制论

自引率

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发文量

审稿时长

6.0 months

期刊介绍： The scope of the IEEE Transactions on Systems, Man, and Cybernetics: Systems includes the fields of systems engineering. It includes issue formulation, analysis and modeling, decision making, and issue interpretation for any of the systems engineering lifecycle phases associated with the definition, development, and deployment of large systems. In addition, it includes systems management, systems engineering processes, and a variety of systems engineering methods such as optimization, modeling and simulation.