Fitting Voronoi Diagrams to Planar Tesselations

Dannier Trinchet; Greg Aloupis; Guillermo Pineda-Villavicencio; Hebert P\'erez-Ros\'es; Perouz Taslakian

arxiv: 1308.5550 · v1 · pith:2LYVRN6Jnew · submitted 2013-08-26 · 💻 cs.CG

Fitting Voronoi Diagrams to Planar Tesselations

Greg Aloupis , Hebert P\'erez-Ros\'es , Guillermo Pineda-Villavicencio , Perouz Taslakian , Dannier Trinchet This is my paper

classification 💻 cs.CG

keywords voronoicitedefinedplanarplanepointsproblemalgorithm

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Given a tesselation of the plane, defined by a planar straight-line graph $G$, we want to find a minimal set $S$ of points in the plane, such that the Voronoi diagram associated with $S$ "fits" \ $G$. This is the Generalized Inverse Voronoi Problem (GIVP), defined in \cite{Trin07} and rediscovered recently in \cite{Baner12}. Here we give an algorithm that solves this problem with a number of points that is linear in the size of $G$, assuming that the smallest angle in $G$ is constant.

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Fitting Voronoi Diagrams to Planar Tesselations

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