The Boolean Model in the Shannon Regime: Three Thresholds and Related Asymptotics

Abstract

Consider a family of Boolean models, indexed by integers n 1, where the n-th model features a Poisson point process in Rn of intensity en n with n as n ∞, and balls of independent and identically distributed radii distributed like Xn n, with Xn satisfying a large deviations principle. It is shown that there exist three deterministic thresholds: τd the degree threshold; τp the percolation threshold; and τv the volume fraction threshold; such that asymptotically as n tends to infinity, in a sense made precise in the paper: (i) for < τd, almost every point is isolated, namely its ball intersects no other ball; (ii) for τd< < τp, almost every ball intersects an infinite number of balls and nevertheless there is no percolation; (iii) for τp< < τv, the volume fraction is 0 and nevertheless percolation occurs; (iv) for τd< < τv, almost every ball intersects an infinite number of balls and nevertheless the volume fraction is 0; (v) for > τv, the whole space covered. The analysis of this asymptotic regime is motivated by related problems in information theory, and may be of interest in other applications of stochastic geometry.