標題: EEG-based Brain-computer Interface for Smart Living Environment Auto-adjustment
作者: Lin, Chin-Teng
Lin, Fu-Chang
Chen, Shi-An
Lu, Shao-Wei
Chen, Te-Chi
Ko, Li-Wei
電機工程學系
腦科學研究中心
Department of Electrical and Computer Engineering
Brain Research Center
關鍵字: Electroencephalogram (ECG);Brain computer interface (BCI);Micro-electro-mechanical-system (MEMS)
公開日期: 2010
摘要: An EEG-based smart living environmental control system to auto-adjust the living environment is proposed in this study. Many environmental control systems have been proposed to improve human life quality in recent years. However, there is little research focused on environment control by using a human's physiological state directly. Even though some studies have proposed brain computer interface-based (BCI-based) environmental control systems, most of them encountered signal quality decline during long-term physiological monitoring with conventional wet electrodes. Moreover, such BCI-based environmental control systems are actively controlled by users; less close-loop feedback capability can be provided between environment and user for automation. Based on the advance of our technique for BCI and the improvement of micro-electro-mechanical-system-based (MEMS-based) dry electrode sensors, we combined these techniques to demonstrate an auto-adjustable living environment control system, e. g., illumination of light and fan speed of air conditioner, depends on the physiological change of the user, even for long-term physiological monitoring. The system is structured with five units: a wireless portable EEG acquisition circuit unit, an interactive flow control unit with a real-time physiology signal processing unit, which is implemented on a dual-core processor, an environment controller unit and a host system for data storage and display. The proposed system has been verified in a simulated environment and the experimental results show that the air conditioner and the lights can be successfully and automatically adjusted in real-time based on the subject's physiological changes, which indicate the proposed system can be implemented and constructed in the practical smart living environment or for other applications.
URI: http://hdl.handle.net/11536/6114
ISSN: 1609-0985
期刊: JOURNAL OF MEDICAL AND BIOLOGICAL ENGINEERING
Volume: 30
Issue: 4
起始頁: 237
結束頁: 245
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