利用神经耳机的脑电图伪影模拟轮椅控制的人脸-机器接口

IF 0.5 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

International Journal on Smart Sensing and Intelligent Systems Pub Date : 2021-01-01 DOI:10.21307/ijssis-2021-015

Theerat Saichoo, P. Boonbrahm, Yunyong Punsawad

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引用次数: 3

摘要

摘要许多人患有运动障碍，并将受益于具有实用控制功能的辅助移动设备。本文演示了一种面部机器接口系统，该系统使用脑电图（EEG）信号中的运动伪像来增强四肢瘫痪患者的行动能力。我们使用Emotiv EPOC X神经头戴式耳机来获取脑电图信号。利用所提出的系统，我们验证了预处理方法、特征提取算法和控制模式。结合眨眼和下巴运动，四个命令的平均准确率达到96.9%。此外，基于时间条件的模拟电动轮椅的在线控制结果显示出较高的效率。眨眼和咀嚼下巴的结合导致了与基于操纵杆的控制相同数量级的转向时间，但仍然是基于操纵杆控制的两倍长。我们将进一步提高效率，并为真正的电动轮椅实施拟议的面部机器接口系统。

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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A face-machine interface utilizing EEG artifacts from a neuroheadset for simulated wheelchair control

Abstract Many people suffer from movement disabilities and would benefit from an assistive mobility device with practical control. This paper demonstrates a face-machine interface system that uses motion artifacts from electroencephalogram (EEG) signals for mobility enhancement in people with quadriplegia. We employed an Emotiv EPOC X neuroheadset to acquire EEG signals. With the proposed system, we verified the preprocessing approach, feature extraction algorithms, and control modalities. Incorporating eye winks and jaw movements, an average accuracy of 96.9% across four commands was achieved. Moreover, the online control results of a simulated power wheelchair showed high efficiency based on the time condition. The combination of winking and jaw chewing results in a steering time on the same order of magnitude as that of joystick-based control, but still about twice as long. We will further improve the efficiency and implement the proposed face-machine interface system for a real-power wheelchair.

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来源期刊

International Journal on Smart Sensing and Intelligent Systems ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

2.70

自引率

8.30%

发文量

审稿时长

8 weeks

期刊介绍： nternational Journal on Smart Sensing and Intelligent Systems (S2IS) is a rapid and high-quality international forum wherein academics, researchers and practitioners may publish their high-quality, original, and state-of-the-art papers describing theoretical aspects, system architectures, analysis and design techniques, and implementation experiences in intelligent sensing technologies. The journal publishes articles reporting substantive results on a wide range of smart sensing approaches applied to variety of domain problems, including but not limited to: Ambient Intelligence and Smart Environment Analysis, Evaluation, and Test of Smart Sensors Intelligent Management of Sensors Fundamentals of Smart Sensing Principles and Mechanisms Materials and its Applications for Smart Sensors Smart Sensing Applications, Hardware, Software, Systems, and Technologies Smart Sensors in Multidisciplinary Domains and Problems Smart Sensors in Science and Engineering Smart Sensors in Social Science and Humanity