Add to ORKGCurrent computational methods of simulating activities of daily living (ADL) have primarily consisted of musculoskeletal simulations [1]. Due to computational expense, simulations generally include assumptions which simplify joint or soft-tissue behavior. Joints are modeled as hinge or spherical and soft-tissue effects are included as spring-dashpot systems. Incorporating detailed deformable soft-tissue models would help overcome simplifying assumptions by coupling the behavior of a muscle loaded model with the underlying structures. Important clinical applications for a multi-domain simulation framework include, but are hardly limited to, predicting modifications to ADL to compensate for osteoarthritic pain or minimizing peak plantar press...
Recent advancements in reinforcement learning algorithms have accelerated the development of control...
Deficits in the ankle plantarflexor muscles, such as weakness and contracture, occur commonly in con...
Musculoskeletal diseases in 2004 cost the United States economy more than $849 billion [1] (7.7 % of...
Current computational methods of simulating activities of daily living (ADL) have primarily consiste...
Computational models often represent the most cost-effective approach to predict the behavior of mus...
Physics-based predictive simulations of human movement have the potential to support personalized me...
Current computational methods for simulating locomotion have primarily used muscle-driven multibody ...
Physics-based predictive simulations have been shown to capture many salient features of human walki...
We implemented direct collocation on a full-body neuromusculoskeletal model to calculate muscle forc...
Patients suffering from diabetic neuropathy present disturbed kinetic, kinematic and electromyograph...
Human gait studies have not been applied frequently to the prediction of the performance of medical ...
Summary. A predictive forward-dynamic simulation of human gait would be ex-tremely useful to many di...
We implemented direct collocation on a full-body neuromusculoskeletal model to calculate muscle forc...
Predictive simulation is a powerful approach for analyzing human locomotion. Unlike techniques that ...
Predictive simulations hold the potential to greatly expedite advances in understanding healthy and ...
Recent advancements in reinforcement learning algorithms have accelerated the development of control...
Deficits in the ankle plantarflexor muscles, such as weakness and contracture, occur commonly in con...
Musculoskeletal diseases in 2004 cost the United States economy more than $849 billion [1] (7.7 % of...
Current computational methods of simulating activities of daily living (ADL) have primarily consiste...
Computational models often represent the most cost-effective approach to predict the behavior of mus...
Physics-based predictive simulations of human movement have the potential to support personalized me...
Current computational methods for simulating locomotion have primarily used muscle-driven multibody ...
Physics-based predictive simulations have been shown to capture many salient features of human walki...
We implemented direct collocation on a full-body neuromusculoskeletal model to calculate muscle forc...
Patients suffering from diabetic neuropathy present disturbed kinetic, kinematic and electromyograph...
Human gait studies have not been applied frequently to the prediction of the performance of medical ...
Summary. A predictive forward-dynamic simulation of human gait would be ex-tremely useful to many di...
We implemented direct collocation on a full-body neuromusculoskeletal model to calculate muscle forc...
Predictive simulation is a powerful approach for analyzing human locomotion. Unlike techniques that ...
Predictive simulations hold the potential to greatly expedite advances in understanding healthy and ...
Recent advancements in reinforcement learning algorithms have accelerated the development of control...
Deficits in the ankle plantarflexor muscles, such as weakness and contracture, occur commonly in con...
Musculoskeletal diseases in 2004 cost the United States economy more than $849 billion [1] (7.7 % of...