How many people can control a motor imagery based BCI using common spatial patterns?

R. Ortner, J. Scharinger, A. Lechner, C. Guger
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引用次数: 24

Abstract

EEG based Brain-Computer Interfaces (BCIs) often use evoked potentials (P300), steady state visual evoked potentials (SSVEP) or motor imagery (MI) for control strategies. This study investigated maximum and mean accuracy of a MI based BCI using Common Spatial Patterns (CSP). Twenty healthy people participated in the study and were equipped with 64 active EEG electrodes. They performed a training paradigm with 160 trials by imagining either left or right hand movement to set up a subject specific CSP filter to spatially filter the EEG data. Following that, two real-time runs with 80 trials were performed, which provided feedback to the subject. The real-time accuracy was then calculated for every subject, and finally a grand average accuracy of 80.7% was reached for the 20 subjects. One person reached a perfect classification result of 100%, 30% performed above 90% and one was below 59%. The results show that most people can use a MI based BCI after a brief training time if CSPs with 64 active electrodes are used. The method of CSP yields clearly better classification results compared to a bandpower approach. While more electrodes are needed for classification, this is less of a disadvantage with modern active electrodes.
有多少人可以使用共同的空间模式来控制基于运动意象的脑机接口?
基于脑电图的脑机接口(bci)通常使用诱发电位(P300)、稳态视觉诱发电位(SSVEP)或运动意象(MI)作为控制策略。本研究利用公共空间模式(CSP)研究了基于MI的脑机接口的最高和平均精度。20名健康的人参加了这项研究,并配备了64个活动脑电图电极。他们通过想象左手或右手的运动来建立一个特定的CSP过滤器,对脑电图数据进行空间过滤,并进行了160次试验的训练范式。随后,进行了两次实时运行,共80次试验,向受试者提供反馈。然后计算每个受试者的实时准确率,最终20名受试者的平均准确率达到80.7%。1人达到100%的完美分类结果,30%达到90%以上,1人低于59%。结果表明,如果使用64个活性电极的csp,大多数人在短暂的训练时间后可以使用基于MI的脑机接口。与带功率方法相比,CSP方法的分类结果明显更好。虽然需要更多的电极进行分类,但这对于现代活性电极来说不是一个缺点。
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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