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计算机系统应用英文版:2022,31(5):52-64
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重叠时间切片改进深度神经网络的运动想象EEG模式识别
(1.福建师范大学 计算机与网络空间安全学院, 福州 350117;2.闽江学院 计算机与控制工程学院, 福州 350108;3.福建师范大学 数字福建环境监测物联网实验室, 福州 350117)
Improved Deep Neural Network with Overlapped Time Slice for Pattern Recognition of Motor Imagery EEG
(1.College of Computer and Cyber Security, Fujian Normal University, Fuzhou 350117, China;2.College of Computer and Control Engineering, Minjiang University, Fuzhou 350108, China;3.Digital Fujian Internet-of-Thing Laboratory of Environmental Monitoring, Fujian Normal University, Fuzhou 350117, China)
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Received:June 23, 2021    Revised:August 24, 2021
中文摘要: 运动想象脑电信号(EEG)的模式识别方法, 一直是无创脑机接口领域的重要研究方向之一. 近年来, 深度学习进一步提升了运动想象EEG信号的识别准确率, 但面对EEG信号较强的时变性, 依然存在训练样本不足和特征维度太高等问题. 针对上述问题, 本文提出了一种新型的重叠时间切片训练策略, 在现有的时间切片策略基础上(cropped), 采用重叠的时间切片策略(overlapped), 并基于重叠时间切片集合构建了全新的损失函数计算和标签预测方法. 采用重叠时间切片策略, 不但能够进一步提升训练样本数量, 还可以降低单个样本特征空间, 从而提升深度神经网络在EEG信号识别中的性能. 为了验证overlapped策略的可行性与有效性, 本文选择了BCI Competition IV dataset 1, 2a和2b三个开源EEG信号数据集, 在数据集上分别建立5种深度神经网络模型, 并对比cropped策略与overlapped策略的运动想象识别性能与效率. 实验结果表明, overlapped策略较cropped策略拥有更好的识别性能. 最后, 通过调整重叠时间切片策略的参数值, 设计了9组不同参数组合的对比实验, 实验结果表明不同的参数组合会影响最终的分类性能, 且分类性能的好坏并不与效率的高低呈线性关系. 本文提出的overlapped策略在Competition IV dataset 1, 2a和2b数据集上的识别准确率分别达到了92.3%、77.8%和86.3%, 较传统策略有明显的性能提升, 效率却不一定降低.
Abstract:Pattern recognition of electroencephalogram (EEG) signals during motor imagery (MI) has been one of the most important research directions in the field of non-invasive brain-computer interface (BCI). In recent years, deep learning has further improved the recognition accuracy of EEG signals during MI. However, given the strong time variability of EEG signals, there are still some problems such as insufficient training samples and too high feature dimensions. To solve the above problems, this study proposes a new training strategy called “overlapped time slice”. Based on the existing cropped time slice strategy, this study adopts a novel overlapped time slice strategy and constructs a new loss function calculation and label prediction method with the overlapped time slice set. The overlapped time slice strategy can not only further increase the number of training samples but also reduce the feature space of a single sample to improve the performance of the deep neural network in EEG signal recognition. For the verification of the feasibility and effectiveness of the proposed overlapped strategy, three open-source EEG signal datasets, namely the BCI Competition IV datasets 1, 2a, and 2b, are selected in this study, and five kinds of deep neural network models are built on these three datasets. During experiments, the performance and efficiency of MI recognition are compared between the cropped strategy and the overlapped strategy. Experimental results show that the overlapped strategy has better recognition performance than that of the cropped strategy. Finally, nine groups of experiments are designed with different parameter combinations by adjusting the parameters of the overlapped time slice strategy. The experimental results demonstrate that parameter combination affects the final classification performance and that the classification performance is not in a linear relationship with the efficiency. The recognition accuracy of the proposed overlapped strategy on dataset 1, 2a, and 2b is 92.3%, 77.8%, and 86.3% respectively. Compared with the conventional cropped strategy, the proposed overlapped strategy has improved the performance significantly without necessarily reducing the efficiency.
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基金项目:闽江学院计算机科学与技术应用型学科2020年开放基金(MJUKF-JK202005)
引用文本:
郑成杰,肖国宝,罗天健.重叠时间切片改进深度神经网络的运动想象EEG模式识别.计算机系统应用,2022,31(5):52-64
ZHENG Cheng-Jie,XIAO Guo-Bao,LUO Tian-Jian.Improved Deep Neural Network with Overlapped Time Slice for Pattern Recognition of Motor Imagery EEG.COMPUTER SYSTEMS APPLICATIONS,2022,31(5):52-64