Gaussian approximation for rooted edges in a random minimal directed spanning tree

Abstract

We study the total α-powered length of the rooted edges in a random minimal directed spanning tree - first introduced in Bhatt and Roy (2004) - on a Poisson process with intensity s 1 on the unit cube [0,1]d for d 3. While a Dickman limit was proved in Penrose and Wade (2004) in the case of d=2, in dimensions three and higher, Bai, Lee and Penrose (2006) showed a Gaussian central limit theorem when α=1, with a rate of convergence of the order ( s)-(d-2)/4 ( s)(d+1)/2. In this paper, we extend these results and prove a central limit theorem in any dimension d 3 for any α>0. Moreover, making use of recent results in Stein's method for region-stabilizing functionals, we provide presumably optimal non-asymptotic bounds of the order ( s)-(d-2)/2 on the Wasserstein and the Kolmogorov distances between the distribution of the total α-powered length of rooted edges, suitably normalized, and that of a standard Gaussian random variable.