This paper presents a new constrained FEM (finite element method) for accurate and runtime modeling of soft tissue's mechanical deformation from measurement of local surface displacement. This method turns the modeling problem of tissue deformation with unknown loading input into a constrained estimation problem to online estimate physical tissue deformation. Based on linear FEM discretization, a constrained estimation algorithm is developed to optimally estimate unknown loading input and online calculate deformation from measurement of local surface displacement. Results of simulation and experimentation exhibit that the proposed method significantly promotes the FEM computational performance but still inherits the FEM advantage of physica...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
Soft tissue deformation is often modelled using incompressible non-linear elasticity, with solutions...
Surgery simulators, biomechanical studies and some virtual reality applications require the handlin...
This paper presents a new constrained FEM (finite element method) for accurate and runtime modeling ...
This research work proposes a novel method for realistic and real-time modelling of deformable biolo...
This paper presents a new methodology to localize the deformation range to improve the computational...
Soft tissue modelling plays a significant role in surgery simulation as well as surgical procedure p...
BACKGROUND: Soft tissue modeling plays an important role in the development of surgical training sim...
Abstract. Realistic deformation of computer-simulated anatomical structures is computationally inten...
Many applications in biomedical engineering and sur-gical simulators require effective modeling meth...
International audienceNew surgical techniques require fine control from the surgeon's point of view....
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
models of real human beings. However the data collected allow only the construction of the outer sur...
Abstract − There are a number of algorithms for interactively modeling deformable objects, such as s...
Objective: To obtain an optimized method of providing hyperelastic parameters of soft tissue, and to...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
Soft tissue deformation is often modelled using incompressible non-linear elasticity, with solutions...
Surgery simulators, biomechanical studies and some virtual reality applications require the handlin...
This paper presents a new constrained FEM (finite element method) for accurate and runtime modeling ...
This research work proposes a novel method for realistic and real-time modelling of deformable biolo...
This paper presents a new methodology to localize the deformation range to improve the computational...
Soft tissue modelling plays a significant role in surgery simulation as well as surgical procedure p...
BACKGROUND: Soft tissue modeling plays an important role in the development of surgical training sim...
Abstract. Realistic deformation of computer-simulated anatomical structures is computationally inten...
Many applications in biomedical engineering and sur-gical simulators require effective modeling meth...
International audienceNew surgical techniques require fine control from the surgeon's point of view....
Background and objectives: An accurate and real-time model of soft tissue is critical for surgical s...
models of real human beings. However the data collected allow only the construction of the outer sur...
Abstract − There are a number of algorithms for interactively modeling deformable objects, such as s...
Objective: To obtain an optimized method of providing hyperelastic parameters of soft tissue, and to...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
Soft tissue deformation is often modelled using incompressible non-linear elasticity, with solutions...
Surgery simulators, biomechanical studies and some virtual reality applications require the handlin...