Traditional polygon-arc-node topology is standard in vector GIS, but it has its limitations. This is particularly evident at the digitizing stage, which often appears excessively complex and tedious, Other methods, however, are capable of maintaining some forms of topology “automatically”, and this paper is an overview of three approaches based on the Voronoi diagram (or the equivalent Delaunay triangulation). The first uses standard point Voronoi diagrams to speed up the polygon digitizing process; the second uses the constrained Delaunay triangulation to represent terrain as a triangulated irregular network with included linear features; and the third uses the Voronoi diagram of line segments and points to generate dynamically a more comp...
Using the domain-theoretic model for geometric computation, we define the partial Delaunay triangula...
This paper is a review of Voronoi diagrams, Delaunay triangula-tions, and many properties of special...
This paper presents simple point insertion and deletion operations in Voronoi diagrams and Delaunay ...
ABSTRACT This paper gives a survey of static, dynamic, and kinematic Voronoi diagrams as a basic too...
Abstract: The Voronoi diagram is a fundamental structure in computational geometry and arises natura...
In an attempt to escape some of the limitations of traditional GIS data structures, the Voronoi diag...
<p>Voronoi tessellation, and its dual the Delaunay triangulation, provide a cohesive framework for t...
We introduce a new method for computing the geodesic Voronoi diagram of point sites in a simple poly...
Fields as found in the geosciences have properties that are not usually found in other disciplines: ...
Intrinsic Delaunay triangulation (IDT) naturally generalizes Delaunay triangulation from R2 to curve...
We describe two reversible line-drawing methods for cartographic applications based on the kinetic (...
Voronoi diagrams have been integral to the efforts aimed at reducing the difficulty of representing ...
AbstractWe show how to divide the edge graph of a Voronoi diagram into a tree that corresponds to th...
To support the need for interactive spatial analysis, it is often necessary to rethink the data stru...
10.1016/j.comgeo.2015.04.001Computational Geometry: Theory and Applications487507-51
Using the domain-theoretic model for geometric computation, we define the partial Delaunay triangula...
This paper is a review of Voronoi diagrams, Delaunay triangula-tions, and many properties of special...
This paper presents simple point insertion and deletion operations in Voronoi diagrams and Delaunay ...
ABSTRACT This paper gives a survey of static, dynamic, and kinematic Voronoi diagrams as a basic too...
Abstract: The Voronoi diagram is a fundamental structure in computational geometry and arises natura...
In an attempt to escape some of the limitations of traditional GIS data structures, the Voronoi diag...
<p>Voronoi tessellation, and its dual the Delaunay triangulation, provide a cohesive framework for t...
We introduce a new method for computing the geodesic Voronoi diagram of point sites in a simple poly...
Fields as found in the geosciences have properties that are not usually found in other disciplines: ...
Intrinsic Delaunay triangulation (IDT) naturally generalizes Delaunay triangulation from R2 to curve...
We describe two reversible line-drawing methods for cartographic applications based on the kinetic (...
Voronoi diagrams have been integral to the efforts aimed at reducing the difficulty of representing ...
AbstractWe show how to divide the edge graph of a Voronoi diagram into a tree that corresponds to th...
To support the need for interactive spatial analysis, it is often necessary to rethink the data stru...
10.1016/j.comgeo.2015.04.001Computational Geometry: Theory and Applications487507-51
Using the domain-theoretic model for geometric computation, we define the partial Delaunay triangula...
This paper is a review of Voronoi diagrams, Delaunay triangula-tions, and many properties of special...
This paper presents simple point insertion and deletion operations in Voronoi diagrams and Delaunay ...