Functional poisson approximation in kantorovich-rubinstein distance with applications to u-statistics and stochastic geometry

Laurent Decreusefond; Matthias Schulte; Christoph Thäle

doi:10.1214/15-AOP1020

Functional poisson approximation in kantorovich-rubinstein distance with applications to u-statistics and stochastic geometry

Laurent Decreusefond
, Matthias Schulte
, Christoph Thäle

Institute of Meteorology and Climate Research
Ruhr-University Bochum

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

A Poisson or a binomial process on an abstract state space and a symmetric function f acting on k-tuples of its points are considered. They induce a point process on the target space of f. The main result is a functional limit theorem which provides an upper bound for an optimal transportation distance between the image process and a Poisson process on the target space. The technical background are a version of Stein's method for Poisson process approximation, a Glauber dynamics representation for the Poisson process and the Malliavin formalism. As applications of the main result, error bounds for approximations of U-statistics by Poisson, compound Poisson and stable random variables are derived, and examples from stochastic geometry are investigated.

langue originale	Anglais
Pages (de - à)	2147-2197
Nombre de pages	51
journal	Annals of Probability
Volume	44
Numéro de publication	3
Les DOIs	https://doi.org/10.1214/15-AOP1020
état	Publié - 1 janv. 2016

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10.1214/15-AOP1020

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title = "Functional poisson approximation in kantorovich-rubinstein distance with applications to u-statistics and stochastic geometry",

abstract = "A Poisson or a binomial process on an abstract state space and a symmetric function f acting on k-tuples of its points are considered. They induce a point process on the target space of f. The main result is a functional limit theorem which provides an upper bound for an optimal transportation distance between the image process and a Poisson process on the target space. The technical background are a version of Stein's method for Poisson process approximation, a Glauber dynamics representation for the Poisson process and the Malliavin formalism. As applications of the main result, error bounds for approximations of U-statistics by Poisson, compound Poisson and stable random variables are derived, and examples from stochastic geometry are investigated.",

keywords = "Binomial process, Configuration space, Functional limit theorem, Glauber dynamics, Kantorovich-rubinstein distance, Malliavin formalism, Poisson process, Stein's method, Stochastic geometry, U-statistics",

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AU - Decreusefond, Laurent

AU - Schulte, Matthias

AU - Thäle, Christoph

N1 - Publisher Copyright: © Institute of Mathematical Statistics, 2016.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - A Poisson or a binomial process on an abstract state space and a symmetric function f acting on k-tuples of its points are considered. They induce a point process on the target space of f. The main result is a functional limit theorem which provides an upper bound for an optimal transportation distance between the image process and a Poisson process on the target space. The technical background are a version of Stein's method for Poisson process approximation, a Glauber dynamics representation for the Poisson process and the Malliavin formalism. As applications of the main result, error bounds for approximations of U-statistics by Poisson, compound Poisson and stable random variables are derived, and examples from stochastic geometry are investigated.

AB - A Poisson or a binomial process on an abstract state space and a symmetric function f acting on k-tuples of its points are considered. They induce a point process on the target space of f. The main result is a functional limit theorem which provides an upper bound for an optimal transportation distance between the image process and a Poisson process on the target space. The technical background are a version of Stein's method for Poisson process approximation, a Glauber dynamics representation for the Poisson process and the Malliavin formalism. As applications of the main result, error bounds for approximations of U-statistics by Poisson, compound Poisson and stable random variables are derived, and examples from stochastic geometry are investigated.

KW - Binomial process

KW - Configuration space

KW - Functional limit theorem

KW - Glauber dynamics

KW - Kantorovich-rubinstein distance

KW - Malliavin formalism

KW - Poisson process

KW - Stein's method

KW - Stochastic geometry

KW - U-statistics

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M3 - Article

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SN - 0091-1798

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JO - Annals of Probability

JF - Annals of Probability

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ER -

Functional poisson approximation in kantorovich-rubinstein distance with applications to u-statistics and stochastic geometry

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