Probabilistic bounds on the length of a longest edge in Delaunay graphs of random points in d-dimensions

Esther M. Arkin; Antonio Fernández Anta; Joseph S.B. Mitchell; Miguel A. Mosteiro

doi:10.1016/j.comgeo.2014.08.008

Probabilistic bounds on the length of a longest edge in Delaunay graphs of random points in d-dimensions

Esther M. Arkin
, Antonio Fernández Anta
, Joseph S.B. Mitchell
, Miguel A. Mosteiro

Applied Mathematics and Statistics

Instituto IMDEA Networks
Kean University

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

5 Scopus citations

Abstract

Motivated by low energy consumption in geographic routing in wireless networks, there has been recent interest in determining bounds on the length of edges in the Delaunay graph of randomly distributed points. Asymptotic results are known for random networks in planar domains. In this paper, we obtain upper and lower bounds that hold with parametric probability in any dimension, for points distributed uniformly at random in domains with and without boundary. The results obtained are asymptotically tight for all relevant values of such probability and constant number of dimensions, and show that the overhead produced by boundary nodes in the plane holds also for higher dimensions. To our knowledge, this is the first comprehensive study on the lengths of long edges in Delaunay graphs.

Original language	English
Pages (from-to)	134-146
Number of pages	13
Journal	Computational Geometry: Theory and Applications
Volume	48
Issue number	2
DOIs	https://doi.org/10.1016/j.comgeo.2014.08.008
State	Published - Feb 2015

Keywords

Delaunay graphs
Multidimensional
Radio networks
Random geometric graphs

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10.1016/j.comgeo.2014.08.008

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title = "Probabilistic bounds on the length of a longest edge in Delaunay graphs of random points in d-dimensions",

abstract = "Motivated by low energy consumption in geographic routing in wireless networks, there has been recent interest in determining bounds on the length of edges in the Delaunay graph of randomly distributed points. Asymptotic results are known for random networks in planar domains. In this paper, we obtain upper and lower bounds that hold with parametric probability in any dimension, for points distributed uniformly at random in domains with and without boundary. The results obtained are asymptotically tight for all relevant values of such probability and constant number of dimensions, and show that the overhead produced by boundary nodes in the plane holds also for higher dimensions. To our knowledge, this is the first comprehensive study on the lengths of long edges in Delaunay graphs.",

keywords = "Delaunay graphs, Multidimensional, Radio networks, Random geometric graphs",

author = "Arkin, \{Esther M.\} and \{Fern{\'a}ndez Anta\}, Antonio and Mitchell, \{Joseph S.B.\} and Mosteiro, \{Miguel A.\}",

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AU - Arkin, Esther M.

AU - Fernández Anta, Antonio

AU - Mitchell, Joseph S.B.

AU - Mosteiro, Miguel A.

PY - 2015/2

Y1 - 2015/2

N2 - Motivated by low energy consumption in geographic routing in wireless networks, there has been recent interest in determining bounds on the length of edges in the Delaunay graph of randomly distributed points. Asymptotic results are known for random networks in planar domains. In this paper, we obtain upper and lower bounds that hold with parametric probability in any dimension, for points distributed uniformly at random in domains with and without boundary. The results obtained are asymptotically tight for all relevant values of such probability and constant number of dimensions, and show that the overhead produced by boundary nodes in the plane holds also for higher dimensions. To our knowledge, this is the first comprehensive study on the lengths of long edges in Delaunay graphs.

AB - Motivated by low energy consumption in geographic routing in wireless networks, there has been recent interest in determining bounds on the length of edges in the Delaunay graph of randomly distributed points. Asymptotic results are known for random networks in planar domains. In this paper, we obtain upper and lower bounds that hold with parametric probability in any dimension, for points distributed uniformly at random in domains with and without boundary. The results obtained are asymptotically tight for all relevant values of such probability and constant number of dimensions, and show that the overhead produced by boundary nodes in the plane holds also for higher dimensions. To our knowledge, this is the first comprehensive study on the lengths of long edges in Delaunay graphs.

KW - Delaunay graphs

KW - Multidimensional

KW - Radio networks

KW - Random geometric graphs

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JO - Computational Geometry: Theory and Applications

JF - Computational Geometry: Theory and Applications

IS - 2

ER -

Probabilistic bounds on the length of a longest edge in Delaunay graphs of random points in d-dimensions

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