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Proceedings. Biological Sciences
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March 3, 2021
Perspective on musculoskeletal modelling and predictive simulations of human movement to assess the neuromechanics of gait
Friedl De Groote, Antoine Falisse
Plos Computational Biology
|
June 25, 2021
Similar sensorimotor transformations control balance during standing and walking
Maarten Afschrift, Friedl De Groote, Ilse Jonkers
Journal of Biomechanics
|
December 17, 2013
The effect of perturbing body segment parameters on calculated joint moments and muscle forces during gait
Mariska Wesseling, Friedl de Groote, Ilse Jonkers
Frontiers in Computational Neuroscience
|
March 16, 2013
The flexion synergy, mother of all synergies and father of new models of gait
Jacques Duysens, Friedl De Groote, Ilse Jonkers
Frontiers in Computational Neuroscience
|
October 4, 2014
Task constraints and minimization of muscle effort result in a small number of muscle synergies during gait
Friedl De Groote, Ilse Jonkers, Jacques Duysens
Plos One
|
January 25, 2022
Modeling toes contributes to realistic stance knee mechanics in three-dimensional predictive simulations of walking
Antoine Falisse, Maarten Afschrift, Friedl De Groote
Plos Computational Biology
|
June 20, 2024
A dynamic foot model for predictive simulations of human gait reveals causal relations between foot structure and whole-body mechanics
Lars D'Hondt, Friedl De Groote, Maarten Afschrift
Plos One
|
May 29, 2026
A comparative analysis of co-contraction indices using synthetic EMG data: Implications for selection and interpretation
Hannah D Carey, Friedl De Groote, Andrew Sawers
Journal of Neurophysiology
|
December 16, 2020
Interactions between initial posture and task-level goal explain experimental variability in postural responses to perturbations of standing balance
Tom Van Wouwe, Lena H Ting, Friedl De Groote
Journal of Applied Physiology (Bethesda, Md. : 1985)
|
November 21, 2025
Speeding up, not slowing down, decreases the metabolic energy needed to stabilize walking in the sagittal plane
Wouter Muijres, Maarten Afschrift, Renaud Ronsse, et al.
Page
of 9
Search research articles
Search
Showing results (1-10 of 87) with videos related to
Sort By:
Page
of 9
Proceedings. Biological Sciences
|
March 3, 2021
Perspective on musculoskeletal modelling and predictive simulations of human movement to assess the neuromechanics of gait
Friedl De Groote, Antoine Falisse
Plos Computational Biology
|
June 25, 2021
Similar sensorimotor transformations control balance during standing and walking
Maarten Afschrift, Friedl De Groote, Ilse Jonkers
Journal of Biomechanics
|
December 17, 2013
The effect of perturbing body segment parameters on calculated joint moments and muscle forces during gait
Mariska Wesseling, Friedl de Groote, Ilse Jonkers
Frontiers in Computational Neuroscience
|
March 16, 2013
The flexion synergy, mother of all synergies and father of new models of gait
Jacques Duysens, Friedl De Groote, Ilse Jonkers
Frontiers in Computational Neuroscience
|
October 4, 2014
Task constraints and minimization of muscle effort result in a small number of muscle synergies during gait
Friedl De Groote, Ilse Jonkers, Jacques Duysens
Plos One
|
January 25, 2022
Modeling toes contributes to realistic stance knee mechanics in three-dimensional predictive simulations of walking
Antoine Falisse, Maarten Afschrift, Friedl De Groote
Plos Computational Biology
|
June 20, 2024
A dynamic foot model for predictive simulations of human gait reveals causal relations between foot structure and whole-body mechanics
Lars D'Hondt, Friedl De Groote, Maarten Afschrift
Plos One
|
May 29, 2026
A comparative analysis of co-contraction indices using synthetic EMG data: Implications for selection and interpretation
Hannah D Carey, Friedl De Groote, Andrew Sawers
Journal of Neurophysiology
|
December 16, 2020
Interactions between initial posture and task-level goal explain experimental variability in postural responses to perturbations of standing balance
Tom Van Wouwe, Lena H Ting, Friedl De Groote
Journal of Applied Physiology (Bethesda, Md. : 1985)
|
November 21, 2025
Speeding up, not slowing down, decreases the metabolic energy needed to stabilize walking in the sagittal plane
Wouter Muijres, Maarten Afschrift, Renaud Ronsse, et al.
Page
of 9