A survey on robots controlled by motor imagery brain-computer interfaces

Jincai Zhang, Mei Wang
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引用次数: 28

Abstract

A brain-computer interface (BCI) can provide a communication approach conveying brain information to the outside. Especially, the BCIs based on motor imagery play the important role for the brain-controlled robots, such as the rehabilitation robots, the wheelchair robots, the nursing bed robots, the unmanned aerial vehicles and so on. In this paper, the developments of the robots based on motor imagery BCIs are reviewed from three aspects: the electroencephalogram (EEG) evocation paradigms, the signal processing algorithms and the applications. First, the different types of the brain-controlled robots are reviewed and classified from the perspective of the evocation paradigms. Second, the relevant algorithms for the EEG signal processing are introduced, which including feature extraction methods and the classification algorithms. Third, the applications of the motor imagery brain-controlled robots are summarized. Finally, the current challenges and the future research directions of the robots controlled by the motor imagery BCIs are discussed.

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运动图像脑机接口控制机器人的研究进展
脑机接口(BCI)可以提供一种将大脑信息传递给外界的通信途径。尤其是基于运动图像的脑机接口在脑控机器人中发挥着重要的作用,如康复机器人、轮椅机器人、护理床机器人、无人机等。本文从脑电唤起范式、信号处理算法和应用三个方面综述了基于运动图像脑机接口的机器人研究进展。首先,从唤起范式的角度对不同类型的脑控机器人进行了综述和分类。其次,介绍了脑电信号处理的相关算法,包括特征提取方法和分类算法;第三,总结了运动图像脑控机器人的应用。最后,讨论了运动图像脑机接口控制机器人目前面临的挑战和未来的研究方向。
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