Navigation in a virtual environment using multiclass motor imagery Brain-Computer Interface

2013 IEEE Symposium on Computational Intelligence, Cognitive Algorithms, Mind, and Brain (CCMB) Pub Date : 2013-04-01 DOI:10.1109/CCMB.2013.6609179

Z. Chin, K. Ang, C. Wang, Cuntai Guan

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引用次数: 7

Abstract

Virtual Reality is a useful platform for Brain-Computer Interface (BCI) users as it offers a relatively safe and cost-effective way for BCI users to train and familiarize themselves with using BCI in a virtual environment before using it in a real-world scenario. Hence this paper presents a pilot study of a virtual navigation task, where control signals from a synchronous multi-class motor imagery-based BCI (MI-BCI) is used by the subject to perform a navigation task in a 3D virtual environment, from a first-person perspective displayed on the computer screen. Preliminary results on one healthy subject showed that the MI-BCI was able to distinguish between 4 classes of motor imagery with an accuracy of about 67.5%, and the subject was able to navigate through the virtual environment in 87 trials in contrast to a theoretical minimum of 74 trials. Results from this study provide motivation to further investigate the potential of the MI-BCI in a larger-scale study, with the possibility of future clinical applications such as a training tool for users in BCI-based rehabilitation and other assistive technologies such as neural prosthetics or brain-controlled wheelchairs.

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基于多级运动图像脑机接口的虚拟环境导航

对于脑机接口(BCI)用户来说，虚拟现实是一个有用的平台，因为它为BCI用户提供了一种相对安全、经济的方式，让他们在虚拟环境中训练和熟悉BCI的使用，然后再在现实世界中使用它。因此，本文提出了一项虚拟导航任务的试点研究，其中受试者使用来自同步多类基于运动图像的脑机接口(MI-BCI)的控制信号在3D虚拟环境中执行导航任务，从第一人称视角显示在计算机屏幕上。一名健康受试者的初步结果显示，MI-BCI能够区分4类运动意象，准确率约为67.5%，受试者在87次试验中能够在虚拟环境中导航，而理论最低试验为74次。这项研究的结果为在更大规模的研究中进一步研究MI-BCI的潜力提供了动力，并为未来的临床应用提供了可能性，例如在基于bci的康复和其他辅助技术(如神经假肢或脑控制轮椅)中为用户提供培训工具。

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

2013 IEEE Symposium on Computational Intelligence, Cognitive Algorithms, Mind, and Brain (CCMB)

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