Almost optimal sparsification of random geometric graphs

Abstract

A random geometric irrigation graph n(rn,) has n vertices identified by n independent uniformly distributed points X1,…,Xn in the unit square [0,1]2. Each point Xi selects i neighbors at random, without replacement, among those points Xj (j≠ i) for which \|Xi-Xj\| < rn, and the selected vertices are connected to Xi by an edge. The number i of the neighbors is an integer-valued random variable, chosen independently with identical distribution for each Xi such that i satisfies 1 i for a constant >1. We prove that when rn = γn n/n for γn ∞ with γn =o(n1/6/5/6n), then the random geometric irrigation graph experiences explosive percolation in the sense that when E i=1, then the largest connected component has size o(n) but if E i >1, then the size of the largest connected component is with high probability n-o(n). This offers a natural non-centralized sparsification of a random geometric graph that is mostly connected.