Your search keyword '"ZHAO Yun-bo"' showing total 3 results

1. Feature Extraction of Surface Electromyography Based on Improved Small-World Leaky Echo State Network.

Author

Xi X, Jiang W, Miran SM, Hua X, Zhao YB, Yang C, and Luo Z

Subjects

Algorithms, Humans, Electromyography, Muscle, Skeletal physiology, Neural Networks, Computer

Abstract

Surface electromyography (sEMG) is an electrophysiological reflection of skeletal muscle contractile activity that can directly reflect neuromuscular activity. It has been a matter of research to investigate feature extraction methods of sEMG signals. In this letter, we propose a feature extraction method of sEMG signals based on the improved small-world leaky echo state network (ISWLESN). The reservoir of leaky echo state network (LESN) is connected by a random network. First, we improved the reservoir of the echo state network (ESN) by these networks and used edge-added probability to improve these networks. That idea enhances the adaptability of the reservoir, the generalization ability, and the stability of ESN. Then we obtained the output weight of the network through training and used it as features. We recorded the sEMG signals during different activities: falling, walking, sitting, squatting, going upstairs, and going downstairs. Afterward, we extracted corresponding features by ISWLESN and used principal component analysis for dimension reduction. At the end, scatter plot, the class separability index, and the Davies-Bouldin index were used to assess the performance of features. The results showed that the ISWLESN clustering performance was better than those of LESN and ESN. By support vector machine, it was also revealed that the performance of ISWLESN for classifying the activities was better than those of ESN and LESN.

Published

2020

2. Surface Electromyography-Based Daily Activity Recognition Using Wavelet Coherence Coefficient and Support Vector Machine

Author

Xi, Xugang, Yang, Chen, Shi, Jiahao, Luo, Zhizeng, and Zhao, Yun-Bo

Published

2019

3. Simultaneous and Continuous Estimation of Joint Angles Based on Surface Electromyography State-Space Model.

Author

Xi, Xugang, Jiang, Wenjun, Hua, Xian, Wang, Huijiao, Yang, Chen, Zhao, Yun-Bo, Miran, Seyed M., and Luo, Zhizeng

Abstract

Simultaneous and continuous joint angle estimation plays an important role in motion intention recognition and rehabilitation training. A surface electromyography (sEMG) state-space model is proposed to estimate simultaneous and continuous lower-limb-joint movements from sEMG signals in this article. The model combines the forward dynamics with Hill-based muscle model (HMM), making the extended model capable of estimating the lower-limb-joint motion directly. sEMG features including root-mean-square and wavelet coefficients are then extracted to construct a measurement equation used to reduce system error and external disturbances. With the proposed model, unscented Kalman filter is used to estimate joint angle from sEMG signals. In the experiments, sEMG signals were recorded from ten subjects during muscle contraction involving three lower-limb-joint motions (knee-joint motion, ankle-joint motion, and simultaneous knee-ankle-joint motion). Comprehensive experiments are conducted on three motions and the results show that the mean root–mean–square error for knee-joint motion, ankle-joint motion, and simultaneous motion of the proposed model are 5.1143°, 5.2647°, and 6.3941°, respectively, and significant improvements are demonstrated compared with the traditional methods. [ABSTRACT FROM AUTHOR]

Published

2021