[HTML][HTML] Deep reinforcement learning for modeling human locomotion control in neuromechanical simulation
Modeling human motor control and predicting how humans will move in novel environments
is a grand scientific challenge. Researchers in the fields of biomechanics and motor control …
is a grand scientific challenge. Researchers in the fields of biomechanics and motor control …
On validation of multibody musculoskeletal models
We review the opportunities to validate multibody musculoskeletal models in view of the
current transition of musculoskeletal modelling from a research topic to a practical simulation …
current transition of musculoskeletal modelling from a research topic to a practical simulation …
Is my model good enough? Best practices for verification and validation of musculoskeletal models and simulations of movement
Computational modeling and simulation of neuromusculoskeletal (NMS) systems enables
researchers and clinicians to study the complex dynamics underlying human and animal …
researchers and clinicians to study the complex dynamics underlying human and animal …
[HTML][HTML] Are subject-specific musculoskeletal models robust to the uncertainties in parameter identification?
Subject-specific musculoskeletal modeling can be applied to study musculoskeletal
disorders, allowing inclusion of personalized anatomy and properties. Independent of the …
disorders, allowing inclusion of personalized anatomy and properties. Independent of the …
Sensitivity of model predictions of muscle function to changes in moment arms and muscle–tendon properties: a Monte-Carlo analysis
Hill-type muscle models are commonly used in musculoskeletal models to estimate muscle
forces during human movement. However, the sensitivity of model predictions of muscle …
forces during human movement. However, the sensitivity of model predictions of muscle …
[HTML][HTML] Physics-based simulations to predict the differential effects of motor control and musculoskeletal deficits on gait dysfunction in cerebral palsy: a retrospective …
Physics-based simulations of walking have the theoretical potential to support clinical
decision-making by predicting the functional outcome of treatments in terms of walking …
decision-making by predicting the functional outcome of treatments in terms of walking …
Is there really an eccentric action of the hamstrings during the swing phase of high-speed running? Part I: a critical review of the literature
B Van Hooren, F Bosch - Journal of sports sciences, 2017 - Taylor & Francis
It is widely assumed that there is an eccentric hamstring muscle fibre action during the swing
phase of high-speed running. However, animal and modelling studies in humans show that …
phase of high-speed running. However, animal and modelling studies in humans show that …
Numerical instability of Hill-type muscle models
Hill-type muscle models are highly preferred as phenomenological models for
musculoskeletal simulation studies despite their introduction almost a century ago. The use …
musculoskeletal simulation studies despite their introduction almost a century ago. The use …
A probabilistic approach to quantify the impact of uncertainty propagation in musculoskeletal simulations
Uncertainty that arises from measurement error and parameter estimation can significantly
affect the interpretation of musculoskeletal simulations; however, these effects are rarely …
affect the interpretation of musculoskeletal simulations; however, these effects are rarely …
Should the ipsilateral hamstrings be used for anterior cruciate ligament reconstruction in the case of medial collateral ligament insufficiency? Biomechanical …
M Herbort, P Michel, MJ Raschke… - … American journal of …, 2017 - journals.sagepub.com
Background: Semitendinosus and gracilis muscles are frequently harvested for autologous
tendon grafts for cruciate ligament reconstruction. This study investigated the joint-stabilizing …
tendon grafts for cruciate ligament reconstruction. This study investigated the joint-stabilizing …