131 research outputs found

    Continuum AB percolation and AB random geometric graphs

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    Consider a bipartite random geometric graph on the union of two independent homogeneous Poisson point processes in dd-space, with distance parameter rr and intensities λ,μ\lambda,\mu. We show for d≥2d \geq 2 that if λ\lambda is supercritical for the one-type random geometric graph with distance parameter 2r2r, there exists μ\mu such that (λ,μ)(\lambda,\mu) is supercritical (this was previously known for d=2d=2). For d=2d=2 we also consider the restriction of this graph to points in the unit square. Taking μ=τλ\mu = \tau \lambda for fixed τ\tau, we give a strong law of large numbers as λ→∞\lambda \to \infty, for the connectivity threshold of this graph

    Inhomogeneous random graphs, isolated vertices, and Poisson approximation

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    Consider a graph on randomly scattered points in an arbitrary space, with two points x,yx,y connected with probability Ï•(x,y)\phi(x,y). Suppose the number of points is large but the mean number of isolated points is O(1)O(1). We give general criteria for the latter to be approximately Poisson distributed. More generally, we consider the number of vertices of fixed degree, the number of components of fixed order, and the number of edges. We use a general result on Poisson approximation by Stein's method for a set of points selected from a Poisson point process. This method also gives a good Poisson approximation for U-statistics of a Poisson process.Comment: 31 page

    Connectivity of soft random geometric graphs

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    Consider a graph on nn uniform random points in the unit square, each pair being connected by an edge with probability pp if the inter-point distance is at most rr. We show that as n→∞n\to\infty the probability of full connectivity is governed by that of having no isolated vertices, itself governed by a Poisson approximation for the number of isolated vertices, uniformly over all choices of p,rp,r. We determine the asymptotic probability of connectivity for all (pn,rn)(p_n,r_n) subject to rn=O(n−ε)r_n=O(n^{-\varepsilon}), some ε>0\varepsilon >0. We generalize the first result to higher dimensions and to a larger class of connection probability functions.Comment: Published at http://dx.doi.org/10.1214/15-AAP1110 in the Annals of Applied Probability (http://www.imstat.org/aap/) by the Institute of Mathematical Statistics (http://www.imstat.org

    Laws of large numbers in stochastic geometry with statistical applications

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    Given nn independent random marked dd-vectors (points) XiX_i distributed with a common density, define the measure νn=∑iξi\nu_n=\sum_i\xi_i, where ξi\xi_i is a measure (not necessarily a point measure) which stabilizes; this means that ξi\xi_i is determined by the (suitably rescaled) set of points near XiX_i. For bounded test functions ff on RdR^d, we give weak and strong laws of large numbers for νn(f)\nu_n(f). The general results are applied to demonstrate that an unknown set AA in dd-space can be consistently estimated, given data on which of the points XiX_i lie in AA, by the corresponding union of Voronoi cells, answering a question raised by Khmaladze and Toronjadze. Further applications are given concerning the Gamma statistic for estimating the variance in nonparametric regression.Comment: Published in at http://dx.doi.org/10.3150/07-BEJ5167 the Bernoulli (http://isi.cbs.nl/bernoulli/) by the International Statistical Institute/Bernoulli Society (http://isi.cbs.nl/BS/bshome.htm
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