The complexity of most surgical models has not allowed interactive simulations on standard computers. We propose a new framework to finely control the resolution of the models. This allows us to dynamically concentrate the computational force where it is most needed. Given the segmented scan of an object to simulate, we first compute a bounding box and then recursively subdivide it where needed. The cells of this octree structure are labelled with mechanical properties based on material parameters and fill rate. An efficient physical simulation is then performed using hierarchical hexaedral finite elements. The object surface can be used for rendering and to apply boundary conditions. Compared with traditional finite element approaches, our...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
Abstract. Surgical simulation is a promising technology for training medical students and planning p...
Abstract. We present our systematic efforts in advancing the computational performance of physically...
The complexity of most surgical models has not allowed interactive simulations on standard computers...
The complexity of most surgical models has not allowed interactive simulations on standard computers...
International audienceThe complexity of most surgical models has not allowed interactive simulations...
Abstract. Using methods from the computational sciences to improve the quality of health care is an ...
International audienceSimulating the deformation of the human anatomy is a central element of Medica...
Octree (and quadtree) representations of computational geometry are particularly well suited to mode...
We present a reduced order finite element (FE) algorithm suitable for real-time nonlinear simulation...
International audienceThis chapter presents different algorithms for modeling soft tissue deformatio...
Special Issue on Biomechanical Modelling of Soft Tissue MotionInternational audienceA new approach f...
Abstract. Realistic deformation of computer-simulated anatomical structures is computationally inten...
In this seminar we consider the problem of constructing a numerical method particularly well suited ...
International audienceMany applications in biomedical engineering and surgical simulators require ef...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
Abstract. Surgical simulation is a promising technology for training medical students and planning p...
Abstract. We present our systematic efforts in advancing the computational performance of physically...
The complexity of most surgical models has not allowed interactive simulations on standard computers...
The complexity of most surgical models has not allowed interactive simulations on standard computers...
International audienceThe complexity of most surgical models has not allowed interactive simulations...
Abstract. Using methods from the computational sciences to improve the quality of health care is an ...
International audienceSimulating the deformation of the human anatomy is a central element of Medica...
Octree (and quadtree) representations of computational geometry are particularly well suited to mode...
We present a reduced order finite element (FE) algorithm suitable for real-time nonlinear simulation...
International audienceThis chapter presents different algorithms for modeling soft tissue deformatio...
Special Issue on Biomechanical Modelling of Soft Tissue MotionInternational audienceA new approach f...
Abstract. Realistic deformation of computer-simulated anatomical structures is computationally inten...
In this seminar we consider the problem of constructing a numerical method particularly well suited ...
International audienceMany applications in biomedical engineering and surgical simulators require ef...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
Abstract. Surgical simulation is a promising technology for training medical students and planning p...
Abstract. We present our systematic efforts in advancing the computational performance of physically...