This paper presents a linear running time optimization algorithm for meshes with subdivision connectivity, e.g., subdivision surfaces. The algorithm optimizes a model using a metric defined by the user. Two functionals are used to build the metric: a rate functional and a distortion (i.e. error) functional. The distortion functional defines the error function to minimize, whereas the rate functional defines the minimization constraint. The algorithm computes approximations within this metric using jointly global error and an optimal vertex selection technique inspired from optimal tree pruning algorithms used in compression. We present an update mechanism, that we name merging domain intersections (MDIs), allowing the control of global erro...
We present a new method for remeshing of triangular and tetrahedral meshes. Relative element sizes a...
International audienceIn this paper we present a new framework, based on subdivision surface fitting...
Mesh (pre)processing remains an important issue for obtaining useful meshes used in mechanical engin...
Meshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly pop...
AbstractMeshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasi...
Meshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly pop...
Abstract. To reduce the complexity of polygonal models used in computer graphics, simplification tec...
We propose a new optimization strategy for unstructured meshes that, when coupled with existing auto...
We present a method for solving the following problem: Given a set of data points scattered in three...
This paper proposes an incremental mesh reduction scheme that provides fine grained control over the...
This paper presents a global mesh optimization framework for 3D triangular meshes of arbitrary topol...
The thesis studies the optimization of a specific type of computer graphic representation: polygon-b...
We study the problem of moving a vertex in an unstructured mesh of triangular, quadrilateral, or tet...
Mesh untangling and smoothing is an important part of the meshing process to obtain high-quality dis...
We develop a new optimisation technique that combines multiresolution subdivision surfaces for bound...
We present a new method for remeshing of triangular and tetrahedral meshes. Relative element sizes a...
International audienceIn this paper we present a new framework, based on subdivision surface fitting...
Mesh (pre)processing remains an important issue for obtaining useful meshes used in mechanical engin...
Meshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly pop...
AbstractMeshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasi...
Meshes with (recursive) subdivision connectivity, such as subdivision surfaces, are increasingly pop...
Abstract. To reduce the complexity of polygonal models used in computer graphics, simplification tec...
We propose a new optimization strategy for unstructured meshes that, when coupled with existing auto...
We present a method for solving the following problem: Given a set of data points scattered in three...
This paper proposes an incremental mesh reduction scheme that provides fine grained control over the...
This paper presents a global mesh optimization framework for 3D triangular meshes of arbitrary topol...
The thesis studies the optimization of a specific type of computer graphic representation: polygon-b...
We study the problem of moving a vertex in an unstructured mesh of triangular, quadrilateral, or tet...
Mesh untangling and smoothing is an important part of the meshing process to obtain high-quality dis...
We develop a new optimisation technique that combines multiresolution subdivision surfaces for bound...
We present a new method for remeshing of triangular and tetrahedral meshes. Relative element sizes a...
International audienceIn this paper we present a new framework, based on subdivision surface fitting...
Mesh (pre)processing remains an important issue for obtaining useful meshes used in mechanical engin...