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MINIMUM-ERROR TRIANGULATIONS FOR SEA SURFACE RECONSTRUCTION.

Authors :
Arutyunova, Anna
Driemel, Anne
Haunert, Jan-Henrik
Haverkort, Herman
Kusche, Jürgen
Langetepe, Elmar
Mayer, Philip
Mutzel, Petra
Röglin, Heiko
Source :
Journal of Computational Geometry; 2023, Vol. 14 Issue 2, p108-171, 64p
Publication Year :
2023

Abstract

We apply state-of-the-art computational geometry methods to the problem of reconstructing a time-varying sea surface from tide gauge records. Our work builds on a recent article by Nitzke et al. (Computers & Geosciences, 157:104920, 2021) who have suggested to learn a triangulation D of a given set of tide gauge stations. The objective is to minimize the misfit of the piecewise linear surface induced by D to a reference surface that has been acquired with satellite altimetry. The authors restricted their search to k-order Delaunay (k-OD) triangulations and used an integer linear program in order to solve the resulting optimization problem. In geometric terms, the input to our problem consists of two sets of points in R2 with elevations: a set S that is to be triangulated, and a set R of reference points. Intuitively, we define the error of a triangulation as the average vertical distance of a point in R to the triangulated surface that is obtained by interpolating elevations of S linearly in each triangle. Our goal is to find the triangulation of S that has minimum error with respect to R. In our work, we prove that the minimum-error triangulation problem is NP-hard and cannot be approximated within any multiplicative factor in polynomial time unless P = NP. At the same time we show that the problem instances that occur in our application (considering sea level data from several hundreds of tide gauge stations worldwide) can be solved relatively fast using dynamic programming when restricted to k-OD triangulations for k = 7. The fast runtime is a result of a set of fixed edges called the k-OD fixed-edge graph. Instances for which the number of connected components of the k-OD fixed-edge graph is small can be solved within few seconds. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
1920180X
Volume :
14
Issue :
2
Database :
Complementary Index
Journal :
Journal of Computational Geometry
Publication Type :
Academic Journal
Accession number :
174485886