Physics-based predictive simulations of human movement have the potential to support personalized medicine, but large computational costs and difficulties to model control strategies have limited their use. We have developed a computationally efficient optimal control framework to predict human gaits based on optimization of a performance criterion without relying on experimental data. The framework generates three-dimensional muscle-driven simulations in 36 min on average—more than 20 times faster than existing simulations—by using direct collocation, implicit differential equations and algorithmic differentiation. Using this framework, we identified a multi-objective performance criterion combining energy and effort considerations that pr...
In the last two decades, in silico approaches based on neuromusculoskeletal modeling and simulation ...
The objective of this study is to investigate the potential of forward dynamic modeling in predictin...
Predictive simulation is a powerful approach for analyzing human locomotion. Unlike techniques that ...
Physics-based predictive simulations of human movement have the potential to support personalized me...
Predictive simulations hold the potential to greatly expedite advances in understanding healthy and ...
Predicting the movements, ground reaction forces and neuromuscular activity during gait can be a val...
Accurate predictive simulations of human gait rely on optimisation criteria to solve the system's re...
Predictive model-based simulations of system dynamics are powerful tools to explore optimality crite...
Although humans have a large repertoire of potential movements, gait patterns tend to be stereotypic...
When designing sports equipment, it is often desirable to predict how certain design parameters will...
Human gait studies have not been applied frequently to the prediction of the performance of medical ...
Human movement studies have contributed to our understanding of how the central nervous system's (CN...
The aim of this study was to perform full-body three-dimensional (3D) dynamic optimization simulatio...
Predictive simulation based on dynamic optimization using musculoskeletal models is a powerful appro...
Recent advancements in reinforcement learning algorithms have accelerated the development of control...
In the last two decades, in silico approaches based on neuromusculoskeletal modeling and simulation ...
The objective of this study is to investigate the potential of forward dynamic modeling in predictin...
Predictive simulation is a powerful approach for analyzing human locomotion. Unlike techniques that ...
Physics-based predictive simulations of human movement have the potential to support personalized me...
Predictive simulations hold the potential to greatly expedite advances in understanding healthy and ...
Predicting the movements, ground reaction forces and neuromuscular activity during gait can be a val...
Accurate predictive simulations of human gait rely on optimisation criteria to solve the system's re...
Predictive model-based simulations of system dynamics are powerful tools to explore optimality crite...
Although humans have a large repertoire of potential movements, gait patterns tend to be stereotypic...
When designing sports equipment, it is often desirable to predict how certain design parameters will...
Human gait studies have not been applied frequently to the prediction of the performance of medical ...
Human movement studies have contributed to our understanding of how the central nervous system's (CN...
The aim of this study was to perform full-body three-dimensional (3D) dynamic optimization simulatio...
Predictive simulation based on dynamic optimization using musculoskeletal models is a powerful appro...
Recent advancements in reinforcement learning algorithms have accelerated the development of control...
In the last two decades, in silico approaches based on neuromusculoskeletal modeling and simulation ...
The objective of this study is to investigate the potential of forward dynamic modeling in predictin...
Predictive simulation is a powerful approach for analyzing human locomotion. Unlike techniques that ...