Multi-Day EMG-Based Knee Joint Torque Estimation Using Hybrid Neuromusculoskeletal Modelling and Convolutional Neural Networks

Schulte, Robert V.; Zondag, Marijke; Buurke, Jaap H.; Prinsen, Erik C.

doi:10.3389/frobt.2022.869476

Cited by 10 publications

(8 citation statements)

References 31 publications

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“…Research work for transfemoral prosthetic knee joint led to the point that volitional control and surface recognition are interlinked, as the variation in the surface would make amputees make accordingly decisions [54][55][56][57][58][59]. Different algorithms are deployed for surface electromyography (sEMG), for instance, recurrent neural network (RNN), convolutional neural network (CNN), support vector machine (SVM), etc.…”

Section: Discussionmentioning

confidence: 99%

“…A single-channel EMG signal-based surface identification method uses a single classifier [54]. Their results could be promising in the future, if tested in a real-time scenario, rather than a virtual environment [55][56][57]. Similarly, some EMG-based algorithms are tested offline, rather than with actual prostheses and amputees [55].…”

Section: Discussionmentioning

confidence: 99%

“…Their results could be promising in the future, if tested in a real-time scenario, rather than a virtual environment [55][56][57]. Similarly, some EMG-based algorithms are tested offline, rather than with actual prostheses and amputees [55]. They were worn by able-bodied subjects, to capture EMG signals and testing.…”

Section: Discussionmentioning

confidence: 99%

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Design, Kinematics and Gait Analysis, of Prosthetic Knee Joints: A Systematic Review

2023

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The aim of this review article is to appraise the design and functionality of above-knee prosthetic legs. So far, various transfemoral prosthetic legs are found to offer a stable gait to amputees but are limited to laboratories. The commercially available prosthetic legs are not reliable and comfortable enough to satisfy amputees. There is a dire need for creating a powered prosthetic knee joint that could address amputees’ requirements. To pinpoint the gap in transfemoral prosthetic legs, prosthetic knee unit model designs, control frameworks, kinematics, and gait evaluations are concentrated. Ambulation exercises, ground-level walking, running, and slope walking are considered to help identify research gaps and areas where existing prostheses can be ameliorated. The results show that above-knee amputees can more effectively manage their issues with the aid of an active prosthesis, capable of reliable gait. To accomplish the necessary control, closed loop controllers and volitional control are integral parts. Future studies should consider designing a transfemoral electromechanical prosthesis based on electromyographic (EMG) signals to better predict the amputee’s intent and control in accordance with that intent.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Design, Kinematics and Gait Analysis, of Prosthetic Knee Joints: A Systematic Review

2023

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“…There is a recent trend of combining EMG-driven muscle modeling and neural networks. The hybrid model used a CNN to map sEMG to specific muscle activation, which was used together with neuromusculoskeletal model components to compute knee torque [ 24 ]. A tradeoff exists between muscle model dependency and data-driven neural networks [ 25 ].…”

Section: Related Workmentioning

confidence: 99%

EMG-Based Estimation of Lower Limb Joint Angles and Moments Using Long Short-Term Memory Network

Truong

Ali

Owaki

et al. 2023

Sensors

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One of the fundamental limitations in human biomechanics is that we cannot directly obtain joint moments during natural movements without affecting the motion. However, estimating these values is feasible with inverse dynamics computation by employing external force plates, which can cover only a small area of the plate. This work investigated the Long Short-Term Memory (LSTM) network for the kinetics and kinematics prediction of human lower limbs when performing different activities without using force plates after the learning. We measured surface electromyography (sEMG) signals from 14 lower extremities muscles to generate a 112-dimensional input vector from three sets of features: root mean square, mean absolute value, and sixth-order autoregressive model coefficient parameters for each muscle in the LSTM network. With the recorded experimental data from the motion capture system and the force plates, human motions were reconstructed in a biomechanical simulation created using OpenSim v4.1, from which the joint kinematics and kinetics from left and right knees and ankles were retrieved to serve as output for training the LSTM. The estimation results using the LSTM model deviated from labels with average R2 scores (knee angle: 97.25%, knee moment: 94.9%, ankle angle: 91.44%, and ankle moment: 85.44%). These results demonstrate the feasibility of the joint angle and moment estimation based solely on sEMG signals for multiple daily activities without requiring force plates and a motion capture system once the LSTM model is trained.

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“…Further, Pan et al developed a user-generic musculoskeletal model for continuous prediction of coordinated movements of hand and wrist [21][22][23]. Compared with data-driven approaches, the MMbased controller can provide such system robustness owing to three aspects: (1) it mimics human's physiological movements by decoding explicit representations of anatomical structures of the neuromusculoskeletal system [24,25]; (2) any muscletendon parameters of MMs are constrained within the operational space of the human's neuromusculoskeletal system [18]; (3) insights into the underlying motion generation process of biomechanical system have been disclosed through biomechanical modelling [26].…”

Section: Introductionmentioning

confidence: 99%

Consistent control information driven musculoskeletal model for multiday myoelectric control

Zhao,

Yu,

Sheng

et al. 2023

J. Neural Eng.

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Objective. Musculoskeletal model (MM)-based myoelectric interface has aroused great interest in human-machine interaction.However, the performance of electromyography (EMG)-driven MM in long-term use would be degraded owing to the inherent non-stationary characteristics of EMG signals. Here, to improve the estimation performance without retraining, we proposed a consistent muscle excitation extraction approach based on an improved non-negative matrix factorization (NMF) algorithm for MM when applied to simultaneous hand and wrist movement prediction. Approach. We added constraints and L2-norm regularization terms to the objective function of classic NMF regarding muscle weighting matrix and time-varying proﬁles, through which stable muscle synergies across days were identiﬁed. The resultant proﬁles of these synergies were then used to drive the MM. Both oﬄine and online experiments were conducted to evaluate the performance of the proposed method in inter-day scenarios. Main results. The results demonstrated signiﬁcantly better and more robust performance over several competitive methods in inter-day experiments, including machine learning methods, EMG envelope-driven MM, and classic NMF-based MM. Furthermore, the analysis of control information on diﬀerent days revealed the eﬀectiveness of the proposed method in obtaining consistent muscle excitations. Signiﬁcance. The outcomes potentially provide a novel and promising pathway for the robust and zero-retraining control of myoelectric interfaces.

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Multi-Day EMG-Based Knee Joint Torque Estimation Using Hybrid Neuromusculoskeletal Modelling and Convolutional Neural Networks

Cited by 10 publications

References 31 publications

Design, Kinematics and Gait Analysis, of Prosthetic Knee Joints: A Systematic Review

Design, Kinematics and Gait Analysis, of Prosthetic Knee Joints: A Systematic Review

EMG-Based Estimation of Lower Limb Joint Angles and Moments Using Long Short-Term Memory Network

Consistent control information driven musculoskeletal model for multiday myoelectric control

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