Predicting the movements, ground reaction forces and neuromuscular activity during gait can be a valuable asset to the clinical rehabilitation community, both to understand pathology, as well as to plan effective intervention. In this work we use an optimal control method to generate predictive simulations of pathological gait in the sagittal plane. We construct a patient-specific model corresponding to a 7-year old child with gait abnormalities and identify the optimal spring characteristics of an ankle-foot orthosis that minimizes muscle effort. Our simulations include the computation of foot-ground reaction forces, as well as the neuromuscular dynamics using computationally efficient muscle torque generators and excitation-activation equ...
International audienceThis paper deals with the control of an active ankle foot orthosis (AAFO) to a...
Human gait studies have not been applied frequently to the prediction of the performance of medical ...
In the last two decades, in silico approaches based on neuromusculoskeletal modeling and simulation ...
This paper aims at demonstrating the capabilities of predictive, computational simulations of gait i...
Physics-based predictive simulations of human movement have the potential to support personalized me...
Prediction of human movement, and especially of pathological gait, is nowadays an important and most...
The muscles around the ankle (calf and dorsal flexors) are essential for performing activities in da...
In the context of neuro-orthopedic pathologies affecting walking and thus patients' quality of life,...
Deficits in the ankle plantarflexor muscles, such as weakness and contracture, occur commonly in con...
Active prosthetic and orthotic devices have the potential to increase quality of life for individual...
Introduction: Pes equinus with increased ankle joint stiffness is a common impairment in stroke and ...
International audienceThis paper deals with the control of an active ankle foot orthosis (AAFO) to a...
The authors are working on the personalisation of an innovative low-cost, lightweight, and easy-to-u...
The objective of this study is to investigate the potential of forward dynamic modeling in predictin...
The dynamic analysis and simulation of human gait using multibody dynamics techniques has been a maj...
International audienceThis paper deals with the control of an active ankle foot orthosis (AAFO) to a...
Human gait studies have not been applied frequently to the prediction of the performance of medical ...
In the last two decades, in silico approaches based on neuromusculoskeletal modeling and simulation ...
This paper aims at demonstrating the capabilities of predictive, computational simulations of gait i...
Physics-based predictive simulations of human movement have the potential to support personalized me...
Prediction of human movement, and especially of pathological gait, is nowadays an important and most...
The muscles around the ankle (calf and dorsal flexors) are essential for performing activities in da...
In the context of neuro-orthopedic pathologies affecting walking and thus patients' quality of life,...
Deficits in the ankle plantarflexor muscles, such as weakness and contracture, occur commonly in con...
Active prosthetic and orthotic devices have the potential to increase quality of life for individual...
Introduction: Pes equinus with increased ankle joint stiffness is a common impairment in stroke and ...
International audienceThis paper deals with the control of an active ankle foot orthosis (AAFO) to a...
The authors are working on the personalisation of an innovative low-cost, lightweight, and easy-to-u...
The objective of this study is to investigate the potential of forward dynamic modeling in predictin...
The dynamic analysis and simulation of human gait using multibody dynamics techniques has been a maj...
International audienceThis paper deals with the control of an active ankle foot orthosis (AAFO) to a...
Human gait studies have not been applied frequently to the prediction of the performance of medical ...
In the last two decades, in silico approaches based on neuromusculoskeletal modeling and simulation ...