Topics
continuum mechanicsOrganisation
optimizationCultivar (cultivated variety)
We present a new method for implicit time integration of physical systems. Our approach builds a bridge between nodal Finite Element methods and Position Based Dynamics, leading to a simple, efficient, robust, yet accurate solver that supports many different types of constraints. We propose specially designed energy potentials that can be solved efficiently using an alternating optimization approach. Inspired by continuum mechanics, we derive a set of continuumbased potentials that can be efficiently incorporated within our solver. We demonstrate the generality and robustness of our approach in many different applications ranging from the simulation of solids, cloths, and shells, to example-based simulation. Comparisons to Newton-based and ...
We introduce a novel fast and robust simulation method for deformable solids that supports complex p...
Figure 1: Interactive animation of deformable bodies, modeled using Position Based Dynamics [MHHR07]...
This paper introduces a generic way of dealing with a set of different constraints (bilateral, unila...
We present a new method for implicit time integration of physical systems. Our approach builds a bri...
Figure 1: We propose a new “projection-based ” implicit Euler integrator that supports a large varie...
This paper describes a new way of using projective methods for simulating the constrained dynamics o...
We present a new method for particle based fluid simulation, using a combination of Projective Dynam...
International audienceProjective dynamics was introduced a few years ago as a fast method to yield a...
This paper presents a novel implicit scheme for the constraint resolution in real-time finite elemen...
We present a novel, fast differentiable simulator for soft-body learning and control a...
A new paradigm for rigid body simulation is presented and analyzed. Current techniques for rigid bod...
We demonstrate the acceleration potential of the Chebyshev semi-iterative approach for fluid simulat...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...
simulation of multibody systems Constraint gradient projective method for stabilization of constrain...
We introduce a novel fast and robust simulation method for deformable solids that supports complex p...
Figure 1: Interactive animation of deformable bodies, modeled using Position Based Dynamics [MHHR07]...
This paper introduces a generic way of dealing with a set of different constraints (bilateral, unila...
We present a new method for implicit time integration of physical systems. Our approach builds a bri...
Figure 1: We propose a new “projection-based ” implicit Euler integrator that supports a large varie...
This paper describes a new way of using projective methods for simulating the constrained dynamics o...
We present a new method for particle based fluid simulation, using a combination of Projective Dynam...
International audienceProjective dynamics was introduced a few years ago as a fast method to yield a...
This paper presents a novel implicit scheme for the constraint resolution in real-time finite elemen...
We present a novel, fast differentiable simulator for soft-body learning and control a...
A new paradigm for rigid body simulation is presented and analyzed. Current techniques for rigid bod...
We demonstrate the acceleration potential of the Chebyshev semi-iterative approach for fluid simulat...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...
We propose a new method for physics-based simulation supporting many different types of hyperelastic...
simulation of multibody systems Constraint gradient projective method for stabilization of constrain...
We introduce a novel fast and robust simulation method for deformable solids that supports complex p...
Figure 1: Interactive animation of deformable bodies, modeled using Position Based Dynamics [MHHR07]...
This paper introduces a generic way of dealing with a set of different constraints (bilateral, unila...
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