Abstract Simulation of dynamic motion of soft tissues is one of the most important topic in nowadays computer animation of human body. So far various elastically de-formable models were used for this purpose. We present the extension of model proposed in [15] with volume preserving constraint. We provide also evaluation of the constraint accuracy on two simulation experiments. Furthermore we add model of active and passive force generated by musculo-tendon unit using Za-jac’s bio-mechanical model. We use Finite Difference Method for resolution of continuous partial differential equations of internal elastic forces of the model in space. We integrate resulting ordinary differential equations of motion using various explicit and implicit meth...
This paper presents a voxel-based biomechanical model for muscle deformation using nite element meth...
International audienceThis volume focuses on the biomechanical modeling of biological tissues in the...
In recent decades, a multitude of concepts and models were developed to understand, assess and predi...
Muscle is the fundamental “motor ” that drives all animal motion. We propose that changes in shape o...
Many applications in biomedical engineering and sur-gical simulators require effective modeling meth...
In this paper, we extend our previous work (Proc. Computer Animation and Simulation, pp. 125-135, Au...
A parametric B-spline solid model is used to produce a combined model of muscle that captures both i...
Numerous mathematical models of human skeletal muscles have been developed. However, none of them...
AbstractWe examine some basic assumptions underlying current musculoskeletal simulators and suggest ...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
AbstractThe current state of the art digital human models are a visual proxy for humans in part due ...
This thesis examines muscle function through the process of making computer ani-mation and developin...
We describe a semi-automatic technique for modeling and animating complex musculoskeletal systems us...
Computer generated three-dimensional (3-D) models are being used at increasing rates in the fields o...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Architecture, 1992.Includes bibliog...
This paper presents a voxel-based biomechanical model for muscle deformation using nite element meth...
International audienceThis volume focuses on the biomechanical modeling of biological tissues in the...
In recent decades, a multitude of concepts and models were developed to understand, assess and predi...
Muscle is the fundamental “motor ” that drives all animal motion. We propose that changes in shape o...
Many applications in biomedical engineering and sur-gical simulators require effective modeling meth...
In this paper, we extend our previous work (Proc. Computer Animation and Simulation, pp. 125-135, Au...
A parametric B-spline solid model is used to produce a combined model of muscle that captures both i...
Numerous mathematical models of human skeletal muscles have been developed. However, none of them...
AbstractWe examine some basic assumptions underlying current musculoskeletal simulators and suggest ...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
AbstractThe current state of the art digital human models are a visual proxy for humans in part due ...
This thesis examines muscle function through the process of making computer ani-mation and developin...
We describe a semi-automatic technique for modeling and animating complex musculoskeletal systems us...
Computer generated three-dimensional (3-D) models are being used at increasing rates in the fields o...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Architecture, 1992.Includes bibliog...
This paper presents a voxel-based biomechanical model for muscle deformation using nite element meth...
International audienceThis volume focuses on the biomechanical modeling of biological tissues in the...
In recent decades, a multitude of concepts and models were developed to understand, assess and predi...