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COMPGEOM
1995
ACM
1995
ACM
A Comparison of Sequential Delaunay Triangulation Algorithms
This paper presents an experimental comparison of a number of different algorithms for computing the Deluanay triangulation. The algorithms examined are: Dwyer’s divide and conquer algorithm, Fortune’s sweepline algorithm, several versions of the incremental algorithm (including one by Ohya, Iri, and Murota, a new bucketing-based algorithm described in this paper, and Devillers’s version of a Delaunay-tree based algorithm that appears in LEDA), an algorithm that incrementally adds a correct Delaunay triangle adjacent to a current triangle in a manner similar to gift wrapping algorithms for convex hulls, and Barber’s convex hull based algorithm. Most of the algorithms examined are designed for good performance on uniformly distributed sites. However, we also test implementations of these algorithms on a number of non-uniform distibutions. The experiments go beyond measuring total running time, which tends to be machine-dependent. We also analyze the major high-level primitives ...
Real-time TrafficAlgorithms | COMPGEOM 1995 | Delaunay-tree Based Algorithm | Discrete Geometry | Hull Based Algorithm |
| Added | 25 Aug 2010 |
| Updated | 25 Aug 2010 |
| Type | Conference |
| Year | 1995 |
| Where | COMPGEOM |
| Authors | Peter Su, Robert L. (Scot) Drysdale III |
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