基于五级脑电的轮椅驾驶BCI系统设计

2013 Third International Conference on Advances in Computing and Communications Pub Date : 2013-08-29 DOI:10.1109/ICACC.2013.12

G. Reshmi, A. Amal

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引用次数: 27

摘要

运动意象是对运动活动的再现，可用于设计脑机接口(BCI)。脑机接口绕过神经肌肉系统，提供直接将人脑与外部设备连接起来的通信链路。每个人都可以通过想象的运动动作来控制他的脑电图，它支持控制设备。本研究采用五类运动意象脑电图设计脑机接口系统。利用小波变换对感觉运动皮层记录的脑电图进行分析。利用支持向量机对小波系数提取的特征进行分类。在这项工作中，运动图像脑电图信号转化为控制信号，使用五类脑机接口来控制轮椅的定向运动。

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Design of a BCI System for Piloting a Wheelchair Using Five Class MI Based EEG

Motor imagery is the recreation of a motor activity which can be used to design Brain Computer Interfaces (BCI). A BCI bypasses the neuromuscular system and provides a communication link, which directly connects the human brain to an external device. Each individual is able to control his EEG through imaginary motor act it supports to control devices. In this work for designing a BCI system five class motor imagery EEG is used. EEG recorded from the sensory motor cortex is analyzed using wavelet transform. Features extracted from the wavelet coefficients are classified using Support Vector Machine. In this work the motor imagery EEG signal is translated into control signal using a five class BCI to control the directional movement of a wheelchair.

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2013 Third International Conference on Advances in Computing and Communications

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