Continuous Estimation of Upper Limb Joint Angle Based on Stacked Denoising Autoencoder

In the human-robot interaction system of the rehabilitation robot for stroke rehabilitation, surface electromyography (sEMG) signal-based continuous joint angle estimation has essential significance and implementation value. However, the existing intra-subject mode is time-consuming and lacks genera...

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Veröffentlicht in:Journal of physics. Conference series Jg. 2402; H. 1; S. 12043 - 12050
Hauptverfasser: Wen, Liqun, Li, Donglin, Pei, Xinglong, Zhang, Yan, Wang, Jianhui
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Bristol IOP Publishing 01.12.2022
Schlagworte:
Electromyography
Feature extraction
Human engineering
Noise reduction
Physics
Rehabilitation
Rehabilitation robots
Robot control
Robots
Robustness (mathematics)
ISSN:1742-6588, 1742-6596
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Zusammenfassung:In the human-robot interaction system of the rehabilitation robot for stroke rehabilitation, surface electromyography (sEMG) signal-based continuous joint angle estimation has essential significance and implementation value. However, the existing intra-subject mode is time-consuming and lacks generality, while the adoption of the new inter-subject mode tests the model’s generalization ability; at the same time, the often-adopted multi-feature fusion strategy makes the feature dimensionality too high and increases the computational pressure of the system. In this regard, firstly, four time-domain features of multi-channel sEMG are extracted as the initial features; then, a stacked denoising autoencoder (SDAE) network is constructed to encode the initial set of sEMG features in low dimensions and extract more robust low-dimensional features; finally, an LSTM network is introduced as the regression network between sEMG features and joint angles. The results indicate that the feature extraction method proposed is superior to other methods and can be used for the control of the rehabilitation robot with a stable and accurate continuous joint angle estimation during motion.
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ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/2402/1/012043