Add to ORKGIn musculoskeletal simulations muscle forces are transmitted along curves intended to represent the centroid of each muscle’s path. The curves are assumed to take the shortest path wrapping aroun
When designing musculoskeletal models for forwardsimulation studies, a tradeoff must be made between...
Computer generated three-dimensional (3-D) models are being used at increasing rates in the fields o...
This paper aims at proposing an automatic method to design and adjust simplified muscle paths of a m...
This paper presents a new and efficient method to calculate the line-of-action of a muscle as it wra...
In musculoskeletal modelling, many muscles cannot be represented as straight lines from origin to in...
<p>Illustration of a wrapping surface in (A) the nonimpaired and (B) the PRC models. In the nonimpai...
Includes bibliographical references (p. 77-78)Computer modeling is commonly used to simulate muscle ...
International audienceThe current paper aims at proposing an automatic method to design and adjust s...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
Patient specific biomechanical models can be applied in the design and analysis of orthopaedic impla...
Each muscle element has its own wrapping cylinder (in red). The cylinders are aligned to match the o...
Musculoskeletal simulation has become an essential tool for understanding human locomotion and move...
In many biomechanical problems, the availability of a suitable model for the wrapping of muscles whe...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
When modelling the musculoskeletal system over a range of joint angles the use of fixed points to de...
When designing musculoskeletal models for forwardsimulation studies, a tradeoff must be made between...
Computer generated three-dimensional (3-D) models are being used at increasing rates in the fields o...
This paper aims at proposing an automatic method to design and adjust simplified muscle paths of a m...
This paper presents a new and efficient method to calculate the line-of-action of a muscle as it wra...
In musculoskeletal modelling, many muscles cannot be represented as straight lines from origin to in...
<p>Illustration of a wrapping surface in (A) the nonimpaired and (B) the PRC models. In the nonimpai...
Includes bibliographical references (p. 77-78)Computer modeling is commonly used to simulate muscle ...
International audienceThe current paper aims at proposing an automatic method to design and adjust s...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
Patient specific biomechanical models can be applied in the design and analysis of orthopaedic impla...
Each muscle element has its own wrapping cylinder (in red). The cylinders are aligned to match the o...
Musculoskeletal simulation has become an essential tool for understanding human locomotion and move...
In many biomechanical problems, the availability of a suitable model for the wrapping of muscles whe...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
When modelling the musculoskeletal system over a range of joint angles the use of fixed points to de...
When designing musculoskeletal models for forwardsimulation studies, a tradeoff must be made between...
Computer generated three-dimensional (3-D) models are being used at increasing rates in the fields o...
This paper aims at proposing an automatic method to design and adjust simplified muscle paths of a m...