Multi-channel electromyography pattern classification using deep belief networks for enhanced user experience
来源期刊:中南大学学报(英文版)2015年第5期
论文作者:SHIM Hyeon-min LEE Sangmin
文章页码:1801 - 1808
Key words:electromyography (EMG); pattern classification; feature extraction; deep learning; deep belief network (DBN)
Abstract: An enhanced algorithm is proposed to recognize multi-channel electromyography (EMG) patterns using deep belief networks (DBNs). It is difficult to classify the EMG features because an EMG signal has nonlinear and time-varying characteristics. Therefore, in several previous studies, various machine-learning methods have been applied. A DBN is a fast, greedy learning algorithm that can find a fairly good set of weights rapidly, even in deep networks with a large number of parameters and many hidden layers. To evaluate this model, we acquired EMG signals, extracted their features, and then compared the model with the DBN and other conventional classifiers. The accuracy of the DBN is higher than that of the other algorithms. The classification performance of the DBN model designed is approximately 88.60%. It is 7.55% (p=9.82×10-12) higher than linear discriminant analysis (LDA) and 2.89% (p=1.94×10-5) higher than support vector machine (SVM). Further, the DBN is better than shallow learning algorithms or back propagation (BP), and this model is effective for an EMG-based user-interfaced system.
SHIM Hyeon-min1, LEE Sangmin1, 2
(1. Institute for Information and Electronic Research, Inha University, 100, Inharo, Incheon 402-751, Korea;
2. Department of Electronic Engineering, Inha University, 100, Inharo, Incheon 402-751, Korea)
Abstract:An enhanced algorithm is proposed to recognize multi-channel electromyography (EMG) patterns using deep belief networks (DBNs). It is difficult to classify the EMG features because an EMG signal has nonlinear and time-varying characteristics. Therefore, in several previous studies, various machine-learning methods have been applied. A DBN is a fast, greedy learning algorithm that can find a fairly good set of weights rapidly, even in deep networks with a large number of parameters and many hidden layers. To evaluate this model, we acquired EMG signals, extracted their features, and then compared the model with the DBN and other conventional classifiers. The accuracy of the DBN is higher than that of the other algorithms. The classification performance of the DBN model designed is approximately 88.60%. It is 7.55% (p=9.82×10-12) higher than linear discriminant analysis (LDA) and 2.89% (p=1.94×10-5) higher than support vector machine (SVM). Further, the DBN is better than shallow learning algorithms or back propagation (BP), and this model is effective for an EMG-based user-interfaced system.
Key words:electromyography (EMG); pattern classification; feature extraction; deep learning; deep belief network (DBN)
