Add to ORKGIn this paper we present a Delaunay refinement algorithm for generating good aspect ratio and optimal size triangulations. This is the first algorithm known to have sub-quadratic running time. The algorithm is based on the extremely popular Delaunay refinement algorithm of Ruppert. We know of no prior refinement algorithm with an analyzed subquadratic time bound. For many natural classes of meshing problems, our time bounds are comparable to know bounds for quadtree methods.
Computing the Delaunay triangulation of n points requires usually a minimum of (n log n) operations...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
Recently a Delaunay refinement algorithm has been proposed that can mesh domains as general as piece...
In this paper we present a Delaunay refinement algorithm for generating good aspect ratio and optima...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
We present two new Delaunay refinement algorithms, second an extension of the first. For a given inp...
Ruppert’s algorithm [6] is an elegant method for generating size-competitive meshes, but admits a po...
An efficient algorithm for Delaunay triangulation of a given set of points in d dimensions is presen...
AbstractDelaunay refinement is a technique for generating unstructured meshes of triangles for use i...
Ruppert’s algorithm [6] is an elegant method for gener-ating size-competitive meshes, but admits a p...
An efficient algorithm for heuristic dynamic Delaunay triangulation has been produced. Heuristics ha...
This paper provides a unified discussion of the Delaunay triangulation. Its geometric properties are...
Computing the Delaunay triangulation of n points requires usually a minimum of (n log n) operations...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
Recently a Delaunay refinement algorithm has been proposed that can mesh domains as general as piece...
In this paper we present a Delaunay refinement algorithm for generating good aspect ratio and optima...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
We present two new Delaunay refinement algorithms, second an extension of the first. For a given inp...
Ruppert’s algorithm [6] is an elegant method for generating size-competitive meshes, but admits a po...
An efficient algorithm for Delaunay triangulation of a given set of points in d dimensions is presen...
AbstractDelaunay refinement is a technique for generating unstructured meshes of triangles for use i...
Ruppert’s algorithm [6] is an elegant method for gener-ating size-competitive meshes, but admits a p...
An efficient algorithm for heuristic dynamic Delaunay triangulation has been produced. Heuristics ha...
This paper provides a unified discussion of the Delaunay triangulation. Its geometric properties are...
Computing the Delaunay triangulation of n points requires usually a minimum of (n log n) operations...
The Delaunay triangulation of n points in the plane can be constructed in o(n log n) time when the c...
Recently a Delaunay refinement algorithm has been proposed that can mesh domains as general as piece...