基于多频视觉刺激和深度神经网络的脑机接口开发

2018 International Conference on Electronics, Communications and Computers (CONIELECOMP) Pub Date : 2018-03-27 DOI:10.1109/CONIELECOMP.2018.8327170

J. L. Pérez-Benítez, J. Pérez-Benitez, J. H. Espina-Hernandez

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引用次数: 8

摘要

本文提出了一种基于多频视觉刺激和深度神经网络的脑机接口。使用多频刺激，结合一种新的编码方法，可以编码多达220个命令，这可以用来创建一个大型的多命令脑机接口。在一个五命令脑机接口中分析了该方法在命令编码和分类性能方面的优势。使用几种算法对接口中使用的脑电图信号进行分类。结果表明，最优分类算法为深度神经网络，分类准确率为97.78%。该算法还允许建立脑电图信号频谱的最相关特征，用于从诱发电位中分类和提取信息。

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Development of a brain computer interface interface using multi-frequency visual stimulation and deep neural networks

This work proposes a Brain Computer Interface based on using multi-frequency visual stimulation and deep neural networks for signals classification. The use of multi-frequency stimulation, combined with a new proposed coding method codifying up to 220 commands, which could be used to create a large multi-command brain computer interface. The advantages this method for commands codification and classification performance is analyzed in a five commands Brain computer interface. The classification of the electroencephalographic signals used in the interface was performed using several algorithms. The outcomes reveal that the best classification algorithm is a deep neural network, which gives a classification accuracy of 97.78 %. This algorithm, also, allows establishing the most relevant features of the electroencephalographic signal spectrums for the classification and information extraction from the evoked potentials.

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2018 International Conference on Electronics, Communications and Computers (CONIELECOMP)

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