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Keywords: EMG-driven model
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Journal Articles

Upper Extremity Muscle Activation Pattern Prediction Through Synergy Extrapolation and Electromyography-Driven Modeling

Shadman Tahmid, Josep M. Font-Llagunes, James Yang
Journal: Journal of Biomechanical Engineering
Publisher: ASME
Article Type: Research-Article
J Biomech Eng. January 2024, 146(1): 011005.
Paper No: BIO-23-1179
https://doi.org/10.1115/1.4063899
Published Online: November 15, 2023
... personnel and preparation time. EMG-driven modeling with surface electrodes alone could underestimate the net torque. In this research, authors propose a methodology to predict muscle activations from deeper muscles of the upper extremity. This method finds missing muscle activation one at a time...
View Articletitled, Upper Extremity Muscle Activation Pattern Prediction Through Synergy Extrapolation and Electromyography-Driven Modeling
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Topics: Electromyography, Muscle, Modeling, Tendons
Journal Articles

Using Reinforcement Learning to Estimate Human Joint Moments From Electromyography or Joint Kinematics: An Alternative Solution to Musculoskeletal-Based Biomechanics

Wen Wu, Katherine R. Saul, He (Helen) Huang
Journal: Journal of Biomechanical Engineering
Publisher: ASME
Article Type: Technical Briefs
J Biomech Eng. April 2021, 143(4): 044502.
Paper No: BIO-20-1089
https://doi.org/10.1115/1.4049333
Published Online: February 1, 2021
... kinematics, kinetics, and electromyographic signals [ 4 ], and have contributed significantly to understanding of human biomechanics. reinforcement learning musculoskeletal model inverse dynamics EMG-driven model 23 02 2020 27 11 2020 01 02 2021 e-mail:  hhuang11@ncsu.edu...
View Articletitled, Using Reinforcement Learning to Estimate Human Joint Moments From Electromyography or Joint Kinematics: An Alternative Solution to Musculoskeletal-Based Biomechanics
Open the PDF for Using Reinforcement Learning to Estimate Human Joint Moments From Electromyography or Joint Kinematics: An Alternative Solution to Musculoskeletal-Based Biomechanics in another window
Topics: Electromyography, Kinematics, Reinforcement learning, Dynamics (Mechanics), Biomechanics