Rejection- and importance-sampling-based perfect simulation for Gibbs hard-sphere models
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Published:2021-09
Issue:3
Volume:53
Page:839-885
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ISSN:0001-8678
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Container-title:Advances in Applied Probability
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language:en
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Short-container-title:Adv. Appl. Probab.
Author:
Moka Sarat,Juneja Sandeep,Mandjes Michel
Abstract
AbstractCoupling-from-the-past (CFTP) methods have been used to generate perfect samples from finite Gibbs hard-sphere models, an important class of spatial point processes consisting of a set of spheres with the centers on a bounded region that are distributed as a homogeneous Poisson point process (PPP) conditioned so that spheres do not overlap with each other. We propose an alternative importance-sampling-based rejection methodology for the perfect sampling of these models. We analyze the asymptotic expected running time complexity of the proposed method when the intensity of the reference PPP increases to infinity while the (expected) sphere radius decreases to zero at varying rates. We further compare the performance of the proposed method analytically and numerically with that of a naive rejection algorithm and of popular dominated CFTP algorithms. Our analysis relies upon identifying large deviations decay rates of the non-overlapping probability of spheres whose centers are distributed as a homogeneous PPP.
Publisher
Cambridge University Press (CUP)
Subject
Applied Mathematics,Statistics and Probability