2022
DOI: 10.3390/bios12050312
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A Differentiable Dynamic Model for Musculoskeletal Simulation and Exoskeleton Control

Abstract: An exoskeleton, a wearable device, was designed based on the user’s physical and cognitive interactions. The control of the exoskeleton uses biomedical signals reflecting the user intention as input, and its algorithm is calculated as an output to make the movement smooth. However, the process of transforming the input of biomedical signals, such as electromyography (EMG), into the output of adjusting the torque and angle of the exoskeleton is limited by a finite time lag and precision of trajectory prediction… Show more

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Cited by 7 publications
(7 citation statements)
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“… Application in human–machine interaction. ( a ) A myoelectric prosthesis control based on the combination of EMG and FMG [ 5 ]; ( b ) a prosthetic control using high-density FMG [ 131 ]; ( c ) an EMG-controlled dynamic model for musculoskeletal simulation and exoskeleton control [ 132 ]; ( d ) application of EMG pattern recognition in manipulator control [ 133 ]; ( e ) estimation of grip strength and three-dimensional push–pull force using electromyography [ 134 ]; ( f ) a control scheme of the elbow joint memory alloy exoskeleton based on sEMG signals [ 135 ]. …”
Section: Figurementioning
confidence: 99%
See 1 more Smart Citation
“… Application in human–machine interaction. ( a ) A myoelectric prosthesis control based on the combination of EMG and FMG [ 5 ]; ( b ) a prosthetic control using high-density FMG [ 131 ]; ( c ) an EMG-controlled dynamic model for musculoskeletal simulation and exoskeleton control [ 132 ]; ( d ) application of EMG pattern recognition in manipulator control [ 133 ]; ( e ) estimation of grip strength and three-dimensional push–pull force using electromyography [ 134 ]; ( f ) a control scheme of the elbow joint memory alloy exoskeleton based on sEMG signals [ 135 ]. …”
Section: Figurementioning
confidence: 99%
“…A summary of the different reference articles is shown in Table 4. the combination of EMG and FMG [5]; (b) a prosthetic control using high-density FMG [131]; (c) an EMG-controlled dynamic model for musculoskeletal simulation and exoskeleton control [132];…”
Section: Eit In Hmimentioning
confidence: 99%
“…Prior to practical exoskeleton deployment across diverse work situations, several technical, physical, and psychological factors require evaluation. Analysis of these factors is not standardized and varies according to application domain, focused research objectives, and types of studies performed (simulation [ 7 ] or experiment [ 8 ]). For example, Hodson [ 9 ], Kim et al [ 10 ] and Alemi et al [ 11 ] have used maximum voluntary isometric contractions (MVICs) [ 12 ] for exoskeleton evaluation.…”
Section: Introductionmentioning
confidence: 99%
“…Specifically, some prior studies have relied on simplifications in terms of the human-exoskeleton kinematic closed-loop interaction and have employed different (e.g., Hill-type) muscle models. For example, Marinou et al [ 22 ], Sharafi and Uchida [ 23 ], and Shushtari et al [ 24 ] conducted simulation-based evaluations of the human skeletal system with an exoskeleton (without experimental evaluation), and Kuo et al [ 7 ] and Li et al [ 25 ] carried out experimental evaluations using detailed Hill-type muscle models within musculoskeletal models and simplified exoskeletons without closed-loop interaction.…”
Section: Introductionmentioning
confidence: 99%
“…Further advanced technology focused not only improvement of clinical outcome, but recovery neurological deficits via rehabilitation with training by the exoskeleton ( 11 , 12 ). Nonetheless, there is a gap in our knowledge of biophysiological functions and their effects on functional performance ( 13 , 14 ).…”
mentioning
confidence: 99%