標題: | A Motor Imagery Based Brain-Computer Interface System via Swarm-Optimized Fuzzy Integral and Its Application |
作者: | Wu, Shang-Lin Liu, Yu-Ting Chou, Kuang-Pen Lin, Yang-Yin Lu, Jie Zhang, Guangquan Chuang, Chun-Hsiang Lin, Wen-Chieh Lin, Chin-Teng 資訊工程學系 電控工程研究所 腦科學研究中心 Department of Computer Science Institute of Electrical and Control Engineering Brain Research Center |
關鍵字: | Brain-computer interface (BCI);Motor imagery (MI);Electroencephalography (EEG);Fuzzy integral;Particle swarm optimization (PSO) |
公開日期: | 2016 |
摘要: | A brain-computer interface (BCI) system provides a convenient means of communication between the human brain and a computer, which is applied not only to healthy people but also for people that suffer from motor neuron diseases (MNDs). Motor imagery (MI) is one well-known basis for designing Electroencephalography (EEG)-based real-life BCI systems. However, EEG signals are often contaminated with severe noise and various uncertainties, imprecise and incomplete information streams. Therefore, this study proposes spectrum ensemble based on swam-optimized fuzzy integral for integrating decisions from sub-band classifiers that are established by a sub-band common spatial pattern (SBCSP) method. Firstly, the SBCSP effectively extracts features from EEG signals, and thereby the multiple linear discriminant analysis (MLDA) is employed during a MI classification task. Subsequently, particle swarm optimization (PSO) is used to regulate the subject-specific parameters for assigning optimal confidence levels for classifiers used in the fuzzy integral during the fuzzy fusion stage of the proposed system. Moreover, BCI systems usually tend to have complex architectures, be bulky in size, and require time-consuming processing. To overcome this drawback, a wireless and wearable EEG measurement system is investigated in this study. Finally, in our experimental result, the proposed system is found to produce significant improvement in terms of the receiver operating characteristic (ROC) curve. Furthermore, we demonstrate that a robotic arm can be reliably controlled using the proposed BCI system. This paper presents novel insights regarding the possibility of using the proposed MI-based BCI system in real-life applications. |
URI: | http://hdl.handle.net/11536/134567 |
ISBN: | 978-1-5090-0625-0 |
ISSN: | 1544-5615 |
期刊: | 2016 IEEE INTERNATIONAL CONFERENCE ON FUZZY SYSTEMS (FUZZ-IEEE) |
起始頁: | 2495 |
結束頁: | 2500 |
顯示於類別: | 會議論文 |