標題: An EEG-Based Fatigue Detection and Mitigation System
作者: Huang, Kuan-Chih
Huang, Teng-Yi
Chuang, Chun-Hsiang
King, Jung-Tai
Wang, Yu-Kai
Lin, Chin-Teng
Jung, Tzyy-Ping
電機學院
College of Electrical and Computer Engineering
關鍵字: EEG;fatigue;auditory feedback;brain dynamics;driving safety
公開日期: 六月-2016
摘要: Research has indicated that fatigue is a critical factor in cognitive lapses because it negatively affects an individual\'s internal state, which is then manifested physiologically. This study explores neurophysiological changes, measured by electroencephalogram (EEG), due to fatigue. This study further demonstrates the feasibility of an online closed-loop EEG-based fatigue detection and mitigation system that detects physiological change and can thereby prevent fatigue-related cognitive lapses. More importantly, this work compares the efficacy of fatigue detection and mitigation between the EEG-based and a nonEEG-based random method. Twelve healthy subjects participated in a sustained-attention driving experiment. Each participant\'s EEG signal was monitored continuously and a warning was delivered in real-time to participants once the EEG signature of fatigue was detected. Study results indicate suppression of the alpha-and theta-power of an occipital component and improved behavioral performance following a warning signal; these findings are in line with those in previous studies. However, study results also showed reduced warning efficacy (i.e. increased response times (RTs) to lane deviations) accompanied by increased alpha-power due to the fluctuation of warnings over time. Furthermore, a comparison of EEG-based and nonEEG-based random approaches clearly demonstrated the necessity of adaptive fatigue-mitigation systems, based on a subject\'s cognitive level, to deliver warnings. Analytical results clearly demonstrate and validate the efficacy of this online closed-loop EEG-based fatigue detection and mitigation mechanism to identify cognitive lapses that may lead to catastrophic incidents in countless operational environments.
URI: http://dx.doi.org/10.1142/S0129065716500180
http://hdl.handle.net/11536/133748
ISSN: 0129-0657
DOI: 10.1142/S0129065716500180
期刊: INTERNATIONAL JOURNAL OF NEURAL SYSTEMS
Volume: 26
Issue: 4
顯示於類別:期刊論文