基于交替半场刺激视觉诱发电位的虚拟键盘

2007 International Symposium on Information Technology Convergence (ISITC 2007) Pub Date : 2007-11-23 DOI:10.1109/ISITC.2007.19

A. Materka, M. Byczuk, P. Poryzała

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引用次数: 31

摘要

为验证一种新型的无创脑机接口(BCI)，设计并构建了虚拟8键键盘。其工作原理是基于另一位作者最近提出的交替视觉半视野刺激技术。利用微控制器和DSP集成电路产生驱动发光二极管进行视觉刺激的信号，并检测脑电信号中的脑反应。脑电图信号由放置在头皮枕部的3个电极测量，电极使用电池供电的放大器和a /C转换器。蓝牙芯片用于将测量数据流传输到处理器。据文献报道，对10名志愿者进行的键盘操作测试表明，它比基于稳态视觉诱发电位的传统脑机接口设备要快。

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A Virtual Keypad Based on Alternate Half-Field Stimulated Visual Evoked Potentials

A virtual 8-key keypad has been designed and constructed to experimentally validate a new kind of noninvasive brain computer interface (BCI). The principle of its operation is based on a technique of alternate visual half-field stimulation, proposed recently by second of the authors. Microcontroller and DSP integrated circuits are used to generate the signals driving light-emitting diodes for visual stimulation and to detect brain response in the EEG signal. The EEG signal is measured from 3 electrodes placed on occipital part of the scalp using a battery- operated amplifier and A/C converter. A Bluetooth chip is used to transmit the stream of measured data to the processor. Tests of the keypad operation, involving 10 volunteers, show it is faster than conventional BCI devices based on steady-state visual evoked potentials, reported so far in the literature.

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2007 International Symposium on Information Technology Convergence (ISITC 2007)

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