基于肌电信号交叉频谱图像分析的手部运动识别——一种深度学习方法

2020 National Conference on Emerging Trends on Sustainable Technology and Engineering Applications (NCETSTEA) Pub Date : 2020-02-01 DOI:10.1109/NCETSTEA48365.2020.9119911

Sayanjit Singha Roy, Kaniska Samanta, S. Chatterjee, Sayantan Dey, Arnab Nandi, Ronjoy Bhowmik, Shoumosree Mondal

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引用次数: 4

摘要

利用肌电信号对手部运动进行准确识别对于开发鲁棒的上肢假肢控制人机界面系统具有重要意义。为了对不同的运动进行准确的检测和分类，必须对肌电信号进行适当的特征选择，如果选择不正确，往往会导致错误的结果。为此，本文提出了一种图像处理辅助深度学习方法，用于手部运动肌电信号的检测和分类。在这项研究中，左手和右手运动的肌电图信号是从现有的数据库中获取的。选取每个类别的参考信号作为参考，其余的肌电信号与参考信号进行交叉频谱分析。将得到的两类肌电信号的交叉小波频谱图像输入到预训练的卷积神经网络(CNN)中，用于手部运动的检测和分类。实验结果表明，该方法在分离不同类型肌电信号时的平均分类准确率为97.6%。此外，采用不同的CNN结构对所提方法进行了鲁棒性分析。该方法可用于手部运动的实时检测。

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Hand Movement Recognition Using Cross Spectrum Image Analysis of EMG Signals-A Deep Learning Approach

Accurate recognition of hand movements using electromyography (EMG) signals is important to develop robust human-machine interface system for upper limb prosthetic control. For accurate detection and classification of different movements, proper feature selection from EMG signals is necessary, failure of which may often lead to incorrect results. To this end, this article presents an image processing aided deep learning approach for detection and classification of hand movement EMG signals. In this study, EMG signals for both left hand and right hand movements were procured from an existing database. A reference signal for each category was chosen as reference and cross spectrum of the rest of the EMG signals was done with the reference signal. The resultant cross-wavelet spectrum images of both classes of EMG signals were fed to a pre-trained convolution neural network (CNN) for the purpose of detection and classification of hand movements. It has been observed that the proposed method returned an average classification accuracy of 97.6% in segregating different categories of EMG signals. Besides, the performance of the proposed method analyzed using different CNN architectures was also found to be robust. The proposed method can be implemented for real-time detection of hand movements.

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来源期刊

2020 National Conference on Emerging Trends on Sustainable Technology and Engineering Applications (NCETSTEA)

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