一种新型距离自适应稳态视觉诱发电位脑机接口的可行性评价

Chi-Hsu Wu, H. Lakany
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引用次数: 1

摘要

基于稳态视觉诱发电位(SSVEP)的脑机接口(BCI)具有速度快、信噪比高、准确率高、指令可扩展性强、用户训练时间短等优点,在脑机接口研究中备受关注。一些研究表明,SSVEP BCI可以为用户提供一个可靠的通道来通信和控制外部设备。虽然大多数基于SSVEP的脑机接口研究主要集中在对视觉刺激进行编码、增强信号检测和提高分类精度等方面,但仍需要弥合脑机接口“实验”研究与现实世界应用之间的差距。本研究提出了一种新颖的基于距离适应性SSVEP的脑机接口模式,该模式允许用户在用户和视觉刺激器之间的观看距离范围内操作系统。与传统的SSVEP BCI不同,用户只能在视觉刺激器前面的固定距离操作系统,用户可以在观看距离范围内操作BCI。10名健康受试者参与实验,评价所提出的SSVEP脑机接口的可行性。视觉刺激器分别在60cm、150cm、250cm和350cm 4个观看距离处呈现给受试者。在不同的对象和观看距离上,平均分类准确率超过75%。结果证明了基于距离自适应SSVEP的BCI的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of the feasibility of a novel distance adaptable steady-state visual evoked potential based brain-computer interface
Steady-state visual evoked potential (SSVEP) based brain-computer interface (BCI) has attracted great attention in BCI research due to its advantages over the other electroencephalography (EEG) based BCI paradigms, such as high speed, high signal to noise ratio, high accuracy, commands scalability and minimal user training time. Several studies have demonstrated that SSVEP BCI can provide a reliable channel to the users to communicate and control an external device. While most SSVEP based BCI studies focus on encoding the visual stimuli, enhancing the signal detection and improving the classification accuracy, there is a need to bridge the gap between BCI “bench” research and real world application. This study proposes a novel distance adaptable SSVEP based BCI paradigm which allows its users to operate the system in a range of viewing distances between the user and the visual stimulator. Unlike conventional SSVEP BCI where users can only operate the system at a fixed distance in front of the visual stimulator, users can operate the proposed BCI at a range of viewing distances. 10 healthy subjects participated in the experiment to evaluate the feasibility of the proposed SSVEP BCI. The visual stimulator was presented to the subjects at 4 viewing distances, 60cm, 150cm, 250cm and 350cm. The mean classification accuracy across the subjects and the viewing distances is over 75%. The results demonstrate the feasibility of a distance adaptable SSVEP based BCI.
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