Add to ORKGIn this paper, an efficient and scalable approach for simulating inhomogeneous and non-linear elastic objects is introduced. Our numerical coarsening approach consists in optimizing non-conforming and matrix-valued shape functions to allow for predictive simulation of heterogeneous materials with non-linear constitutive laws even on coarse grids, thus saving orders of magnitude in computational time compared to traditional finite element computations. The set of local shape functions over coarse elements is carefully tailored in a preprocessing step to balance geometric continuity and local material stiffness. In particular, we do not impose continuity of our material-aware shape functions between neighboring elements to significantly reduc...
In this work, we construct energy-minimizing coarse spaces for the finite element discretization of ...
An explicit-dynamics spatially-discontinuous Galerkin (DG) formulation for non-linear solid dynamics...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...
In this paper, an efficient and scalable approach for simulating inhomogeneous and non-linear elasti...
We propose an approach for efficiently simulating elastic objects made of non-homogeneous, non-isotr...
We propose a simulation technique for elastically deformable objects based on the discontinuous Gale...
International audienceA new method to simulate deformable objects with heterogeneous material proper...
Abstract: In this paper, we present an adaptive approach for simulating elastic deformation of homog...
Two-scale simulations are often employed to analyze the effect of the microstructure on a component'...
Two-scale simulations are often employed to analyze the effect of the microstructure on a component'...
The simulation of the behavior of heterogeneous and composite materials poses a number of challenges...
A discontinuous Galerkin framework for large deformations of solids is established. The method is ba...
This paper addresses the problem of heterogeneous deformable model accuracy using the finite element...
International audienceWe present a new type of deformable model which combines the realism of physic...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...
In this work, we construct energy-minimizing coarse spaces for the finite element discretization of ...
An explicit-dynamics spatially-discontinuous Galerkin (DG) formulation for non-linear solid dynamics...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...
In this paper, an efficient and scalable approach for simulating inhomogeneous and non-linear elasti...
We propose an approach for efficiently simulating elastic objects made of non-homogeneous, non-isotr...
We propose a simulation technique for elastically deformable objects based on the discontinuous Gale...
International audienceA new method to simulate deformable objects with heterogeneous material proper...
Abstract: In this paper, we present an adaptive approach for simulating elastic deformation of homog...
Two-scale simulations are often employed to analyze the effect of the microstructure on a component'...
Two-scale simulations are often employed to analyze the effect of the microstructure on a component'...
The simulation of the behavior of heterogeneous and composite materials poses a number of challenges...
A discontinuous Galerkin framework for large deformations of solids is established. The method is ba...
This paper addresses the problem of heterogeneous deformable model accuracy using the finite element...
International audienceWe present a new type of deformable model which combines the realism of physic...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...
In this work, we construct energy-minimizing coarse spaces for the finite element discretization of ...
An explicit-dynamics spatially-discontinuous Galerkin (DG) formulation for non-linear solid dynamics...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...