Exploring BCI Control in Smart Environments

ACM Transactions on Knowledge Discovery from Data (TKDD) Pub Date : 2021-05-28 DOI:10.1145/3450449

Lin Yue, Hao Shen, Sen Wang, R. Boots, Guodong Long, Weitong Chen, Xiaowei Zhao

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引用次数: 10

Abstract

The brain–computer interface (BCI) control technology that utilizes motor imagery to perform the desired action instead of manual operation will be widely used in smart environments. However, most of the research lacks robust feature representation of multi-channel EEG series, resulting in low intention recognition accuracy. This article proposes an EEG2Image based Denoised-ConvNets (called EID) to enhance feature representation of the intention recognition task. Specifically, we perform signal decomposition, slicing, and image mapping to decrease the noise from the irrelevant frequency bands. After that, we construct the Denoised-ConvNets structure to learn the colorspace and spatial variations of image objects without cropping new training images precisely. Toward further utilizing the color and spatial transformation layers, the colorspace and colored area of image objects have been enhanced and enlarged, respectively. In the multi-classification scenario, extensive experiments on publicly available EEG datasets confirm that the proposed method has better performance than state-of-the-art methods.

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探索智能环境中的BCI控制

脑机接口(BCI)控制技术将在智能环境中得到广泛应用，该技术利用运动图像代替人工操作来执行期望的动作。然而，大多数研究缺乏对多通道脑电信号序列的鲁棒特征表示，导致意图识别的准确率较低。本文提出了一种基于EEG2Image的去噪卷积神经网络(EID)来增强意图识别任务的特征表示。具体来说，我们执行信号分解、切片和图像映射，以减少来自不相关频段的噪声。在此基础上，构造去噪的卷积神经网络结构，在不裁剪新训练图像的前提下学习图像对象的颜色空间和空间变化。为了进一步利用颜色变换层和空间变换层，对图像对象的颜色空间和颜色区域分别进行了增强和放大。在多分类场景下，在公开可用的脑电数据集上进行了大量实验，证实了该方法比现有方法具有更好的性能。

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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ACM Transactions on Knowledge Discovery from Data (TKDD)

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