Generating Realistic Terrains with Higher-Order Delaunay Triangulations

Thierry de Kok; Marc van Kreveld; Maarten Löffler

doi:10.1016/j.comgeo.2005.09.005

Generating Realistic Terrains with Higher-Order Delaunay Triangulations

Thierry de Kok, Marc van Kreveld, Maarten Löffler

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

For hydrologic applications, terrain models should have few local minima, and drainage lines should coincide with edges. We show that triangulating a set of points with elevations such that the number of local minima of the resulting terrain is minimized is NP-hard for degenerate point sets. The same result applies when there are no degeneracies for higher-order Delaunay triangulations. Two heuristics are presented to reduce the number of local minima for higher-order Delaunay triangulations, which start out with the Delaunay triangulation. We give efficient algorithms for their implementation, and test on real-world data how well they perform. We also study another desirable drainage characteristic, few valley components, and how to obtain it for higher-order Delaunay triangulations. This gives rise to a third heuristic. Tables and visualizations show how the heuristics perform for the drainage characteristics on real-world data.

Original language	English
Pages (from-to)	52-65
Number of pages	14
Journal	Computational geometry
Volume	36
Issue number	1
DOIs	https://doi.org/10.1016/j.comgeo.2005.09.005
Publication status	Published - 2007

Bibliographical note

kkl-grtho-07
Een twintigtal professionals aan het woord ter gelegenheid van het tienjarig bestaan van het Platform Keteninformatisering

Keywords

CG, GIS, TIN, DT

Access to Document

10.1016/j.comgeo.2005.09.005

http://dx.doi.org/10.1016/j.comgeo.2005.09.005

Cite this

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title = "Generating Realistic Terrains with Higher-Order Delaunay Triangulations",

abstract = "For hydrologic applications, terrain models should have few local minima, and drainage lines should coincide with edges. We show that triangulating a set of points with elevations such that the number of local minima of the resulting terrain is minimized is NP-hard for degenerate point sets. The same result applies when there are no degeneracies for higher-order Delaunay triangulations. Two heuristics are presented to reduce the number of local minima for higher-order Delaunay triangulations, which start out with the Delaunay triangulation. We give efficient algorithms for their implementation, and test on real-world data how well they perform. We also study another desirable drainage characteristic, few valley components, and how to obtain it for higher-order Delaunay triangulations. This gives rise to a third heuristic. Tables and visualizations show how the heuristics perform for the drainage characteristics on real-world data.",

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N2 - For hydrologic applications, terrain models should have few local minima, and drainage lines should coincide with edges. We show that triangulating a set of points with elevations such that the number of local minima of the resulting terrain is minimized is NP-hard for degenerate point sets. The same result applies when there are no degeneracies for higher-order Delaunay triangulations. Two heuristics are presented to reduce the number of local minima for higher-order Delaunay triangulations, which start out with the Delaunay triangulation. We give efficient algorithms for their implementation, and test on real-world data how well they perform. We also study another desirable drainage characteristic, few valley components, and how to obtain it for higher-order Delaunay triangulations. This gives rise to a third heuristic. Tables and visualizations show how the heuristics perform for the drainage characteristics on real-world data.

AB - For hydrologic applications, terrain models should have few local minima, and drainage lines should coincide with edges. We show that triangulating a set of points with elevations such that the number of local minima of the resulting terrain is minimized is NP-hard for degenerate point sets. The same result applies when there are no degeneracies for higher-order Delaunay triangulations. Two heuristics are presented to reduce the number of local minima for higher-order Delaunay triangulations, which start out with the Delaunay triangulation. We give efficient algorithms for their implementation, and test on real-world data how well they perform. We also study another desirable drainage characteristic, few valley components, and how to obtain it for higher-order Delaunay triangulations. This gives rise to a third heuristic. Tables and visualizations show how the heuristics perform for the drainage characteristics on real-world data.

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Generating Realistic Terrains with Higher-Order Delaunay Triangulations

Abstract

Bibliographical note

Keywords

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