Hybrid MI-SSSEP Paradigm for classifying left and right movement toward BCI for exoskeleton control

2019 7th International Winter Conference on Brain-Computer Interface (BCI) Pub Date : 2019-02-01 DOI:10.1109/IWW-BCI.2019.8737319

Jaehyung Lee, Kabmun Cha, Hyungmin Kim, Junhyuk Choi, Choong Hyun Kim, S. Lee

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引用次数: 8

Abstract

The goal of this study was to compare decoding accuracy of left and right movement intention from electroencephalography (EEG) using three different types of paradigms: Motor Imagery (MI), Selective Attention (SA), and Hybrid task (HY)). Specifically, SA and HY are the Steady-State Somatosensory Evoked potential (SSSEP) paradigms which elicit brain responses to tactile stimulation. One subject participated in two sessions (Screening and Study session). In the screening session, resonance-like frequency of the subject was found at each hand while sitting on a chair. In the study session, the subject was asked to imagine either left of right hand open-close movement (MI task), to give selective attention to the vibrotactile stimulation (SA task), and to perform combined MI and SA task (HY) according to a randomly assigned directional cue. The accuracies of 3 paradigms were MI-left 65.8%, MI-right 69.2% (mean: 67.5%), SA-left 76.6%, SA-right 84.0% (mean: 80.3%) and HY-left 93.8%, HY-right 95.9% (mean: 94.9%). The method and results of the current study could be a basis for controlling the left and right movement direction of an exoskeleton robot using EEG.

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用于外骨骼控制的脑机接口左右运动分类的混合MI-SSSEP范式

本研究采用运动意象(MI)、选择性注意(SA)和混合任务(HY)三种不同的范式，比较左、右运动意向的脑电图解码准确率。具体来说，SA和HY是稳态体感诱发电位(SSSEP)范式，引起大脑对触觉刺激的反应。1名受试者参加了两个阶段(筛选阶段和学习阶段)。在筛选过程中，当受试者坐在椅子上时，在每只手上都发现了类似共振的频率。在研究阶段，受试者被要求想象左手或右手开合运动(MI任务)，选择性地注意振动触觉刺激(SA任务)，并根据随机分配的方向线索执行MI和SA联合任务(HY)。3种范式的准确率分别为mi -左65.8%、mi -右69.2%(平均67.5%)、sa -左76.6%、sa -右84.0%(平均80.3%)和hy -左93.8%、hy -右95.9%(平均94.9%)。本研究的方法和结果可为利用脑电图控制外骨骼机器人的左右运动方向提供依据。

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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2019 7th International Winter Conference on Brain-Computer Interface (BCI)

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