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Ritwik Rakshit

Showing results (1-10 of 10) with videos related to

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Journal of Biomechanics|January 19, 2020
Modelling muscle recovery from a fatigued state in isometric contractions for the ankle jointRitwik Rakshit, James Yang
Journal of Biomechanics|May 5, 2020
Errata to "Modelling muscle recovery from a fatigued state in isometric contractions for the ankle joint"Ritwik Rakshit, James Yang
Journal of Biomechanics|August 28, 2021
Functional muscle group- and sex-specific parameters for a three-compartment controller muscle fatigue model applied to isometric contractionsRitwik Rakshit, Yujiang Xiang, James Yang
Journal of Biomechanical Engineering|March 20, 2026
Parameter Identification for a Four-Compartment Controller Muscle Fatigue ModelBaivab Bhandari, Ritwik Rakshit, James Yang
Proceedings of the Institution of Mechanical Engineers. Part H, Journal of Engineering in Medicine|April 9, 2020
Dynamic-joint-strength-based two-dimensional symmetric maximum weight-lifting simulation: Model development and validationRitwik Rakshit, Yujiang Xiang, James Yang
IEEE Transactions on Bio-Medical Engineering|September 22, 2021
Hybrid Predictive Model for Lifting by Integrating Skeletal Motion Prediction With an OpenSim Musculoskeletal ModelRahid Zaman, Yujiang Xiang, Ritwik Rakshit, et al.
Frontiers in Physiology|February 27, 2025
A four-compartment controller model of muscle fatigue for static and dynamic tasksJames Yang, Ritwik Rakshit, Shuvrodeb Barman, et al.
Journal of Biomechanics|August 3, 2022
Sensitivity analysis of sex- and functional muscle group-specific parameters for a three-compartment-controller model of muscle fatigueRitwik Rakshit, Shuvrodeb Barman, Yujiang Xiang, et al.
Journal of Biomechanical Engineering|April 11, 2025
Repetitive Lifting Motion Predictions Considering Muscle FatigueYujiang Xiang, Shuvrodeb Barman, Ritwik Rakshit, et al.
Proceedings of the Institution of Mechanical Engineers. Part H, Journal of Engineering in Medicine|May 4, 2023
Hybrid musculoskeletal model-based 3D asymmetric lifting prediction and comparison with symmetric liftingYujiang Xiang, Rahid Zaman, Asif Arefeen, et al.
Pageof 1

Showing results (1-10 of 10) with videos related to

Sort By:
Pageof 1
Journal of Biomechanics|January 19, 2020
Modelling muscle recovery from a fatigued state in isometric contractions for the ankle jointRitwik Rakshit, James Yang
Journal of Biomechanics|May 5, 2020
Errata to "Modelling muscle recovery from a fatigued state in isometric contractions for the ankle joint"Ritwik Rakshit, James Yang
Journal of Biomechanics|August 28, 2021
Functional muscle group- and sex-specific parameters for a three-compartment controller muscle fatigue model applied to isometric contractionsRitwik Rakshit, Yujiang Xiang, James Yang
Journal of Biomechanical Engineering|March 20, 2026
Parameter Identification for a Four-Compartment Controller Muscle Fatigue ModelBaivab Bhandari, Ritwik Rakshit, James Yang
Proceedings of the Institution of Mechanical Engineers. Part H, Journal of Engineering in Medicine|April 9, 2020
Dynamic-joint-strength-based two-dimensional symmetric maximum weight-lifting simulation: Model development and validationRitwik Rakshit, Yujiang Xiang, James Yang
IEEE Transactions on Bio-Medical Engineering|September 22, 2021
Hybrid Predictive Model for Lifting by Integrating Skeletal Motion Prediction With an OpenSim Musculoskeletal ModelRahid Zaman, Yujiang Xiang, Ritwik Rakshit, et al.
Frontiers in Physiology|February 27, 2025
A four-compartment controller model of muscle fatigue for static and dynamic tasksJames Yang, Ritwik Rakshit, Shuvrodeb Barman, et al.
Journal of Biomechanics|August 3, 2022
Sensitivity analysis of sex- and functional muscle group-specific parameters for a three-compartment-controller model of muscle fatigueRitwik Rakshit, Shuvrodeb Barman, Yujiang Xiang, et al.
Journal of Biomechanical Engineering|April 11, 2025
Repetitive Lifting Motion Predictions Considering Muscle FatigueYujiang Xiang, Shuvrodeb Barman, Ritwik Rakshit, et al.
Proceedings of the Institution of Mechanical Engineers. Part H, Journal of Engineering in Medicine|May 4, 2023
Hybrid musculoskeletal model-based 3D asymmetric lifting prediction and comparison with symmetric liftingYujiang Xiang, Rahid Zaman, Asif Arefeen, et al.
Pageof 1