International audienceThe current paper aims at proposing an automatic method to design and adjust simplified muscle paths of a musculoskeletal model. These muscle paths are composed of straight-lines described by a limited set of fixed active via points and an optimization routine is developed to place these via points on the model in order to fit moment arms and musculotendon lengths input data. The method has been applied to a forearm musculoskeletal model extracted from the literature, using theoretical input data as an example. Results showed that for 75% of the muscle set, the relative root mean square error between literature theoretical data and the results from optimized muscle path was under 29.23% for moment arms and of 1.09% for...
Research has raised a growing concern about the accuracy of rescaled generic musculoskeletal models ...
The estimation of muscles and ligaments behavior can be useful in orthopaedic surgery or when a func...
This thesis describes computational approaches to modeling and simulating aspects of the neuromuscul...
International audienceThe current paper aims at proposing an automatic method to design and adjust s...
This paper aims at proposing an automatic method to design and adjust simplified muscle paths of a m...
When designing musculoskeletal models for forwardsimulation studies, a tradeoff must be made between...
This paper presents a new and efficient method to calculate the line-of-action of a muscle as it wra...
Includes bibliographical references (p. 77-78)Computer modeling is commonly used to simulate muscle ...
In musculoskeletal modelling, many muscles cannot be represented as straight lines from origin to in...
Computational modelling is an invaluable tool for investigating features of human locomotion and mot...
Patient specific biomechanical models can be applied in the design and analysis of orthopaedic impla...
When modelling the musculoskeletal system over a range of joint angles the use of fixed points to de...
A challenging aspect of subject specific musculoskeletal modeling is the estimation of muscle parame...
Computational models of the musculoskeletal system are scientific tools used to study human movement...
In the process of generating image based subject specific musculoskeletal models and the simulation ...
Research has raised a growing concern about the accuracy of rescaled generic musculoskeletal models ...
The estimation of muscles and ligaments behavior can be useful in orthopaedic surgery or when a func...
This thesis describes computational approaches to modeling and simulating aspects of the neuromuscul...
International audienceThe current paper aims at proposing an automatic method to design and adjust s...
This paper aims at proposing an automatic method to design and adjust simplified muscle paths of a m...
When designing musculoskeletal models for forwardsimulation studies, a tradeoff must be made between...
This paper presents a new and efficient method to calculate the line-of-action of a muscle as it wra...
Includes bibliographical references (p. 77-78)Computer modeling is commonly used to simulate muscle ...
In musculoskeletal modelling, many muscles cannot be represented as straight lines from origin to in...
Computational modelling is an invaluable tool for investigating features of human locomotion and mot...
Patient specific biomechanical models can be applied in the design and analysis of orthopaedic impla...
When modelling the musculoskeletal system over a range of joint angles the use of fixed points to de...
A challenging aspect of subject specific musculoskeletal modeling is the estimation of muscle parame...
Computational models of the musculoskeletal system are scientific tools used to study human movement...
In the process of generating image based subject specific musculoskeletal models and the simulation ...
Research has raised a growing concern about the accuracy of rescaled generic musculoskeletal models ...
The estimation of muscles and ligaments behavior can be useful in orthopaedic surgery or when a func...
This thesis describes computational approaches to modeling and simulating aspects of the neuromuscul...