Coverage of the unit cube by dynamic Boolean models

Abstract

Motivated by peer-to-peer telecommunication, we study a dynamic Boolean model. We define a Poisson number of random lines through the (d-1)-dimensional base of a d-dimensional unit cube and dilate them to define cylinders. Letting be the expected number of cylinders, the random variable of interest is the coverage radius R, which is the cylinder radius required to cover the d-dimensional unit cube. We show that Rd-1 is of the order / with high probability as tends to infinity. We also consider alternative dynamics resulting in generalized cylinders that are generated by dilating the trajectories of stochastic processes, in particular Brownian motions. This leads to a coverage radius of the same order.