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COMPGEOM
2004
ACM

On locally Delaunay geometric graphs

14 years 4 months ago
On locally Delaunay geometric graphs
A geometric graph is a simple graph G = (V, E) with an embedding of the set V in the plane such that the points that represent V are in general position. A geometric graph is said to be k-locally Delaunay (or a Dk-graph) if for each edge (u, v) ∈ E there is a (Euclidean) disc d that contains u and v but no other vertex of G that is within k hops from u or v. The study of these graphs was recently motivated by topology control for wireless networks [6, 7]. We obtain the following results: (i) We prove that if G is a D1-graph on n vertices, then it has O(n3/2 ) edges. (ii) We show that for any n there exist D1-graphs with n vertices and Ω(n4/3 ) edges. (iii) We prove that if G is a D2-graph on n vertices, then it has O(n) edges. This bound is worst-case asymptotically tight. As an application of the first result, we show that: (iv) The maximum size of a family of pairwise non-overlapping lenses in an arrangement of n unit circles in the plane is O(n3/2 ). The first two results imp...
Rom Pinchasi, Shakhar Smorodinsky
Added 30 Jun 2010
Updated 30 Jun 2010
Type Conference
Year 2004
Where COMPGEOM
Authors Rom Pinchasi, Shakhar Smorodinsky
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