To increase the efficiency when processing large data sets, a novel parallel algorithm is proposed for constructing the Delaunay triangulation of a planar point set based on a twofold-divide-and-conquer scheme. This algorithm automatically divides the planar point set into several non-overlapping subsets along the x-axis and y-axis directions alternately, according to the number of points and their spatial distribution. Next, the Guibas-Stolfi divide-and-conquer algorithm is applied to construct Delaunay sub-triangulations in each subset. Finally, the sub-triangulations are merged based on the binary tree. All three sequential steps are processed using multitasking parallel technology. Our results show that the proposed parallel algorithm i...
This thesis gives an overview of parallel techniques used in co mputer graphics. It investigates t...
Computers with multiple processor cores using shared mem-ory are now ubiquitous. In this paper, we p...
A new algorithm, featuring overlapping domain decompositions, for the parallel construction of Delau...
This paper describes the derivation of an empirically efficient parallel two-dimensional Delaunay tr...
Abstract—We show how to localize the Delaunay triangulation of a given planar point set, namely, bou...
This paper provides a unified discussion of the Delaunay triangulation. Its geometric properties are...
Delaunay triangulation is a main topic in computer graphics. Various types of new requirements have ...
This paper presents a new scalable parallelization scheme to generate the 3D Delaunay triangulation ...
Delaunay triangulated irregular network (D-TIN) has been widely used in various fields and also play...
AbstractComputers with multiple processor cores using shared memory are now ubiquitous. In this pape...
Abstract. A triangulation of points in , or a tetrahedronization of points in , is used in many appl...
A fast and easy to implement divide-and-conquer algorithm is presented for the construction of the C...
We present an efficient implementation of a Dwyer-style Delaunay triangulation algorithm that runs i...
International audienceIn this paper, we propose an algorithm to compute the Delaunay triangulation o...
An efficient algorithm for Delaunay triangulation of a given set of points in d dimensions is presen...
This thesis gives an overview of parallel techniques used in co mputer graphics. It investigates t...
Computers with multiple processor cores using shared mem-ory are now ubiquitous. In this paper, we p...
A new algorithm, featuring overlapping domain decompositions, for the parallel construction of Delau...
This paper describes the derivation of an empirically efficient parallel two-dimensional Delaunay tr...
Abstract—We show how to localize the Delaunay triangulation of a given planar point set, namely, bou...
This paper provides a unified discussion of the Delaunay triangulation. Its geometric properties are...
Delaunay triangulation is a main topic in computer graphics. Various types of new requirements have ...
This paper presents a new scalable parallelization scheme to generate the 3D Delaunay triangulation ...
Delaunay triangulated irregular network (D-TIN) has been widely used in various fields and also play...
AbstractComputers with multiple processor cores using shared memory are now ubiquitous. In this pape...
Abstract. A triangulation of points in , or a tetrahedronization of points in , is used in many appl...
A fast and easy to implement divide-and-conquer algorithm is presented for the construction of the C...
We present an efficient implementation of a Dwyer-style Delaunay triangulation algorithm that runs i...
International audienceIn this paper, we propose an algorithm to compute the Delaunay triangulation o...
An efficient algorithm for Delaunay triangulation of a given set of points in d dimensions is presen...
This thesis gives an overview of parallel techniques used in co mputer graphics. It investigates t...
Computers with multiple processor cores using shared mem-ory are now ubiquitous. In this paper, we p...
A new algorithm, featuring overlapping domain decompositions, for the parallel construction of Delau...