Spanners in randomly weighted graphs: Euclidean case

Abstract

Given a connected graph G=(V,E) and a length function :E R we let dv,w denote the shortest distance between vertex v and vertex w. A t-spanner is a subset E'⊂eq E such that if d'v,w denotes shortest distances in the subgraph G'=(V,E') then d'v,w≤ t dv,w for all v,w∈ V. We study the size of spanners in the following scenario: we consider a random embedding of Gn,p into the unit square with Euclidean edge lengths. For ε>0 constant, we prove the existence w.h.p. of (1+ε)-spanners for Xp that have Oε(n) edges. These spanners can be constructed in Oε(n2 n) time. (We will use Oε to indicate that the hidden constant depends on ε.) There are constraints on p preventing it going to zero too quickly.