Guaranteed-quality unstructured meshing algorithms facilitate the development of automatic meshing tools. However, these algorithms require domains discretized using a set of linear segments, leading to numerical errors in domains with curved boundaries. We introduce an extension of Ruppert’s Delaunay refinement algorithm to two-dimensional domains with curved boundaries and prove that the same quality bounds apply with curved boundaries as with straight boundaries. We provide implementation details for two-dimensional boundary patches such as lines, circular arcs, cubic parametric curves, and interpolated splines. We present guaranteed-quality triangular meshes generated with curved boundaries, and propose solutions to some problems associ...
We present a robust method for generating high-order nodal tetrahedral curved meshes. The approach c...
International audienceWe address the problem of generating 2D quality triangle meshes from a set of ...
International audienceMeshes with curvilinear elements hold the appealing promise of enhanced geomet...
Delaunay refinement is a mesh generation paradigm noted for offering theoretical guarantees regardin...
AbstractDelaunay refinement is a technique for generating unstructured meshes of triangles for use i...
AbstractA Frontal-Delaunay refinement algorithm for mesh generation in piecewise smooth domains is d...
The development of high-order computational methods for solving partial differen- tial equations on ...
Most algorithms for guaranteed-quality tetrahedral mesh generation create Delaunay meshes. Delaunay ...
They are not endorsed by, and do not necessarily reflect the position or policies of, the U. S. Gove...
Purpose – The purpose of this paper is to investigate the extension of Delaunay refinement algorithm...
We propose an algorithm to compute a conforming Delaunay mesh of a bounded domain in specified by a ...
There are a number of applications for which it is desirable to divide a given region in the plane ...
We present a practical approach to isotropic tetrahedral meshing of 3D domains bounded by piecewise ...
We present algorithms to produce Delaunay meshes from arbitrary triangle meshes by edge flipping and...
This thesis describes and analyses a new 3D meshes generation algorithm, for domains bounded by smoo...
We present a robust method for generating high-order nodal tetrahedral curved meshes. The approach c...
International audienceWe address the problem of generating 2D quality triangle meshes from a set of ...
International audienceMeshes with curvilinear elements hold the appealing promise of enhanced geomet...
Delaunay refinement is a mesh generation paradigm noted for offering theoretical guarantees regardin...
AbstractDelaunay refinement is a technique for generating unstructured meshes of triangles for use i...
AbstractA Frontal-Delaunay refinement algorithm for mesh generation in piecewise smooth domains is d...
The development of high-order computational methods for solving partial differen- tial equations on ...
Most algorithms for guaranteed-quality tetrahedral mesh generation create Delaunay meshes. Delaunay ...
They are not endorsed by, and do not necessarily reflect the position or policies of, the U. S. Gove...
Purpose – The purpose of this paper is to investigate the extension of Delaunay refinement algorithm...
We propose an algorithm to compute a conforming Delaunay mesh of a bounded domain in specified by a ...
There are a number of applications for which it is desirable to divide a given region in the plane ...
We present a practical approach to isotropic tetrahedral meshing of 3D domains bounded by piecewise ...
We present algorithms to produce Delaunay meshes from arbitrary triangle meshes by edge flipping and...
This thesis describes and analyses a new 3D meshes generation algorithm, for domains bounded by smoo...
We present a robust method for generating high-order nodal tetrahedral curved meshes. The approach c...
International audienceWe address the problem of generating 2D quality triangle meshes from a set of ...
International audienceMeshes with curvilinear elements hold the appealing promise of enhanced geomet...