Comparative Study on EEG Based Motor Movement Classification Using Different Sets of Electrode Channels

2021 3rd International Conference on Electrical & Electronic Engineering (ICEEE) Pub Date : 2021-12-22 DOI:10.1109/ICEEE54059.2021.9719000

Md Abdur Raiyan, S. C. Mohonta

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Abstract

In Brain Computer Interface (BCI), for precise prediction of brain activity, it is important to know which part of the brain is responsible for which activity. Electroencephalography (EEG) signal which conveys the information of such brain activity is recorded using a number of electrodes from all over the skull. In this study, a comparison from a machine learning perspective has been made to investigate which sets of electrodes that mean which part of the brain shows more neural activity during execution or imagination of fist movement. Here, all the preprocessing steps have been done using EEGLAB on MATLAB, and the normalized band powers of five brain rhythms such as alpha, beta, gamma, delta and theta have been used as features. Finally, a supervised machine learning technique – Support Vector Machine (SVM) has been implemented which took those features as input for classification. This study shows that the channel set with more electrodes can distinguish between executed and imaginary fist movement more accurately. Therefore, these findings can be used to understand brain functionality more distinctly and be applied to predict motor movement more precisely in future BCI research.

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基于脑电的不同电极通道组运动分类的比较研究

在脑机接口(BCI)中，为了精确预测大脑活动，重要的是要知道大脑的哪个部分负责哪个活动。传递大脑活动信息的脑电图(EEG)信号是用遍布颅骨的许多电极记录下来的。在这项研究中，从机器学习的角度进行了比较，以调查哪组电极意味着大脑的哪一部分在执行或想象拳头运动时表现出更多的神经活动。在这里，所有的预处理步骤都是使用MATLAB上的EEGLAB完成的，并以alpha, beta, gamma, delta和theta五种大脑节奏的归一化带幂作为特征。最后，实现了一种监督式机器学习技术——支持向量机(SVM)，该技术将这些特征作为输入进行分类。本研究表明，电极数量越多的通道组能更准确地区分实际的拳头动作和想象的拳头动作。因此，这些发现可以用于更清楚地了解大脑功能，并在未来的脑机接口研究中更准确地预测运动。

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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2021 3rd International Conference on Electrical & Electronic Engineering (ICEEE)

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