Visual Motion Onset Brain–Computer Interface

Jair Pereira Junior, Caio Teixeira, Tomasz M. Rutkowski
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引用次数: 1

Abstract

The paper presents a study of two novel visual motion onset stimulus-based brain-computer interfaces (vmoBCI). Two settings are compared with afferent and efferent to a computer screen center motion patterns. Online vmoBCI experiments are conducted in an oddball event-related potential (ERP) paradigm allowing for "aha-responses" decoding in EEG brainwaves. A subsequent stepwise linear discriminant analysis classification (swLDA) classification accuracy comparison is discussed based on two inter-stimulus-interval (ISI) settings of 700 and 150 ms in two online vmoBCI applications with six and eight command settings. A research hypothesis of classification accuracy non-significant differences with various ISIs is confirmed based on the two settings of 700 ms and 150 ms, as well as with various numbers of ERP response averaging scenarios. The efferent in respect to display center visual motion patterns allowed for a faster interfacing and thus they are recommended as more suitable for the no-eye-movements requiring visual BCIs.
视觉运动开始脑机接口
本文研究了两种基于视觉运动刺激的新型脑机接口。两种设置比较传入和传出到计算机屏幕中心的运动模式。在线vmoBCI实验在古怪事件相关电位(ERP)范式下进行,允许在脑电波中解码“ahaa -responses”。在6条和8条指令设置的vmoBCI在线应用程序中,讨论了基于700和150 ms两种刺激间隔(ISI)设置的逐步线性判别分析分类(swLDA)分类精度比较。基于700 ms和150 ms两种设置,以及不同数量的ERP反应平均场景,确认了不同ISIs的分类准确率无显著差异的研究假设。关于显示中心视觉运动模式的传出允许更快的接口,因此它们被推荐为更适合需要视觉脑机接口的无眼运动。
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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