A curious gap in one-dimensional geometric random graphs between connectivity and the absence of isolated node

Abstract

One-dimensional geometric random graphs are constructed by distributing n nodes uniformly and independently on a unit interval and then assigning an undirected edge between any two nodes that have a distance at most rn. These graphs have received much interest and been used in various applications including wireless networks. A threshold of rn for connectivity is known as rn* = nn in the literature. In this paper, we prove that a threshold of rn for the absence of isolated node is n2 n (i.e., a half of the threshold rn*). Our result shows there is a curious gap between thresholds of connectivity and the absence of isolated node in one-dimensional geometric random graphs; in particular, when rn equals c n n for a constant c ∈( 12, 1), a one-dimensional geometric random graph has no isolated node but is not connected. This curious gap in one-dimensional geometric random graphs is in sharp contrast to the prevalent phenomenon in many other random graphs such as two-dimensional geometric random graphs, Erdos-R\'enyi graphs, and random intersection graphs, all of which in the asymptotic sense become connected as soon as there is no isolated node.