Design of a Multimodal EEG-based Hybrid BCI System with Visual Servo Module

IEEE Transactions on Autonomous Mental Development Pub Date : 2015-05-19 DOI:10.1109/TAMD.2015.2434951

F. Duan, Dongxue Lin, Wenyu Li, Zhao Zhang

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引用次数: 57

Abstract

Current EEG-based brain-computer interface technologies mainly focus on how to independently use SSVEP, motor imagery, P300, or other signals to recognize human intention and generate several control commands. SSVEP and P300 require external stimulus, while motor imagery does not require it. However, the generated control commands of these methods are limited and cannot control a robot to provide satisfactory service to the user. Taking advantage of both SSVEP and motor imagery, this paper aims to design a hybrid BCI system that can provide multimodal BCI control commands to the robot. In this hybrid BCI system, three SSVEP signals are used to control the robot to move forward, turn left, and turn right; one motor imagery signal is used to control the robot to execute the grasp motion. In order to enhance the performance of the hybrid BCI system, a visual servo module is also developed to control the robot to execute the grasp task. The effect of the entire system is verified in a simulation platform and a real humanoid robot, respectively. The experimental results show that all of the subjects were able to successfully use this hybrid BCI system with relative ease.

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基于多模态脑电图的视觉伺服模块混合脑机接口系统设计

目前基于脑电图的脑机接口技术主要集中在如何独立利用SSVEP、运动意象、P300等信号来识别人的意图并生成若干控制命令。SSVEP和P300需要外部刺激，而运动意象不需要外部刺激。然而，这些方法生成的控制命令是有限的，无法控制机器人为用户提供满意的服务。利用SSVEP和运动图像的优势，本文旨在设计一个混合BCI系统，为机器人提供多模态BCI控制命令。在该混合BCI系统中，使用三个SSVEP信号控制机器人前进、左转和右转;利用一个运动图像信号控制机器人执行抓取动作。为了提高混合BCI系统的性能，还开发了视觉伺服模块来控制机器人执行抓取任务。在仿真平台和真人机器人上分别验证了整个系统的效果。实验结果表明，所有被试都能相对轻松地成功使用该混合脑机接口系统。

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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来源期刊

IEEE Transactions on Autonomous Mental Development COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-ROBOTICS

自引率

0.00%

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审稿时长

3 months