We propose a simple and practical approach for incorporating the effects of muscle inertia, which has been ignored by previous musculoskeletal simulators in both graphics and biomechanics. We approximate the inertia of the muscle by assuming that muscle mass is distributed along the centerline of the muscle. We express the motion of the musculotendons in terms of the motion of the skeletal joints using a chain of Jacobians, so that at the top level, only the reduced degrees of freedom of the skeleton are used to completely drive both bones and musculotendons. Our approach can handle all commonly used musculotendon path types, including those with multiple path points and wrapping surfaces. For muscle paths involving wrapping surfaces, we us...
Challenge: Currently, all computer models appealing to forward dynamics simulations of the musculosk...
Owing to the restrictions of live experimentation, musculoskeletal simulation models play a key role...
We describe a semi-automatic technique for modeling and animating complex musculoskeletal systems us...
AbstractWe examine some basic assumptions underlying current musculoskeletal simulators and suggest ...
Musculoskeletal modelling is widely used in sports biomechanics for the estimation of joint and musc...
Musculoskeletal dynamics is a branch of biomechanics that takes advantage of interdisciplinary mode...
The ordinary differential equations for musculoskeletal dynamics are often numerically stiff and hig...
Financiado para publicación en acceso aberto: Universidade da Coruña/CISUG[Abstract] Several approac...
Current computational methods for simulating locomotion have primarily used muscle-driven multibody ...
Numerous mathematical models of human skeletal muscles have been developed. However, none of them...
National audienceSubject-specific musculoskeletal models are mandatory to conduct efficient analyses...
This dissertation develops a framework for modelling biomechanical systems, with special focus on th...
International audienceThe current paper aims at proposing an automatic method to design and adjust s...
This thesis describes computational approaches to modeling and simulating aspects of the neuromuscul...
The computer simulation and the associated problem of the optimization of sports motions is a compar...
Challenge: Currently, all computer models appealing to forward dynamics simulations of the musculosk...
Owing to the restrictions of live experimentation, musculoskeletal simulation models play a key role...
We describe a semi-automatic technique for modeling and animating complex musculoskeletal systems us...
AbstractWe examine some basic assumptions underlying current musculoskeletal simulators and suggest ...
Musculoskeletal modelling is widely used in sports biomechanics for the estimation of joint and musc...
Musculoskeletal dynamics is a branch of biomechanics that takes advantage of interdisciplinary mode...
The ordinary differential equations for musculoskeletal dynamics are often numerically stiff and hig...
Financiado para publicación en acceso aberto: Universidade da Coruña/CISUG[Abstract] Several approac...
Current computational methods for simulating locomotion have primarily used muscle-driven multibody ...
Numerous mathematical models of human skeletal muscles have been developed. However, none of them...
National audienceSubject-specific musculoskeletal models are mandatory to conduct efficient analyses...
This dissertation develops a framework for modelling biomechanical systems, with special focus on th...
International audienceThe current paper aims at proposing an automatic method to design and adjust s...
This thesis describes computational approaches to modeling and simulating aspects of the neuromuscul...
The computer simulation and the associated problem of the optimization of sports motions is a compar...
Challenge: Currently, all computer models appealing to forward dynamics simulations of the musculosk...
Owing to the restrictions of live experimentation, musculoskeletal simulation models play a key role...
We describe a semi-automatic technique for modeling and animating complex musculoskeletal systems us...