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Matthew Millard

Showing results (1-10 of 22) with videos related to

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Frontiers in Neurorobotics|August 24, 2019
A Quick Turn of Foot: Rigid Foot-Ground Contact Models for Human Motion PredictionMatthew Millard, Katja Mombaur
Journal of Biomechanics|September 17, 2025
A polygon model of the functional base-of-support during standing improves the accuracy of balance analysisMatthew Millard, Lizeth H Sloot
Elife|September 10, 2024
A three filament mechanistic model of musculotendon force and impedanceMatthew Millard, David W Franklin, Walter Herzog
Journal of the Mechanical Behavior of Biomedical Materials|September 28, 2024
A benchmark of muscle models to length changes great and smallMatthew Millard, Norman Stutzig, Jörg Fehr, et al.
Wearable Technologies|March 15, 2024
Comparing the risk of low-back injury using model-based optimization: Improved technique versus exoskeleton assistanceGiorgos Marinou, Matthew Millard, Nejc Šarabon, et al.
Frontiers in Sports and Active Living|December 21, 2020
Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger AdultsLizeth H Sloot, Matthew Millard, Christian Werner, et al.
Journal of Biomechanical Engineering|March 1, 2013
Flexing computational muscle: modeling and simulation of musculotendon dynamicsMatthew Millard, Thomas Uchida, Ajay Seth, et al.
Scientific Reports|October 28, 2025
The size of the functional base of support decreases with ageLizeth H Sloot, Thomas Gerhardy, Katja Mombaur, et al.
Journal of Biomechanics|April 20, 2019
A reduced muscle model and planar musculoskeletal model fit for the simulation of whole-body movementsMatthew Millard, Anna Lena Emonds, Monika Harant, et al.
Biology Letters|September 22, 2020
A little damping goes a long way: a simulation study of how damping influences task-level stability in runningSteve Heim, Matthew Millard, Charlotte Le Mouel, et al.
Pageof 3

Showing results (1-10 of 22) with videos related to

Sort By:
Pageof 3
Frontiers in Neurorobotics|August 24, 2019
A Quick Turn of Foot: Rigid Foot-Ground Contact Models for Human Motion PredictionMatthew Millard, Katja Mombaur
Journal of Biomechanics|September 17, 2025
A polygon model of the functional base-of-support during standing improves the accuracy of balance analysisMatthew Millard, Lizeth H Sloot
Elife|September 10, 2024
A three filament mechanistic model of musculotendon force and impedanceMatthew Millard, David W Franklin, Walter Herzog
Journal of the Mechanical Behavior of Biomedical Materials|September 28, 2024
A benchmark of muscle models to length changes great and smallMatthew Millard, Norman Stutzig, Jörg Fehr, et al.
Wearable Technologies|March 15, 2024
Comparing the risk of low-back injury using model-based optimization: Improved technique versus exoskeleton assistanceGiorgos Marinou, Matthew Millard, Nejc Šarabon, et al.
Frontiers in Sports and Active Living|December 21, 2020
Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger AdultsLizeth H Sloot, Matthew Millard, Christian Werner, et al.
Journal of Biomechanical Engineering|March 1, 2013
Flexing computational muscle: modeling and simulation of musculotendon dynamicsMatthew Millard, Thomas Uchida, Ajay Seth, et al.
Scientific Reports|October 28, 2025
The size of the functional base of support decreases with ageLizeth H Sloot, Thomas Gerhardy, Katja Mombaur, et al.
Journal of Biomechanics|April 20, 2019
A reduced muscle model and planar musculoskeletal model fit for the simulation of whole-body movementsMatthew Millard, Anna Lena Emonds, Monika Harant, et al.
Biology Letters|September 22, 2020
A little damping goes a long way: a simulation study of how damping influences task-level stability in runningSteve Heim, Matthew Millard, Charlotte Le Mouel, et al.
Pageof 3