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Potential functions of random walks ...

Uchiyama, Kohei.

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Potential functions of random walks in Z with infinite variance = estimates and applications /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Potential functions of random walks in Z with infinite variance/ by Kohei Uchiyama.
Reminder of title:	estimates and applications /
Author:	Uchiyama, Kohei.
Published:	Cham :Springer Nature Switzerland : : 2023.,
Description:	ix, 276 p. :ill., digital ;24 cm.
[NT 15003449]:	Preface -- Introduction -- Preliminaries -- Bounds of the Potential Function -- Some Explicit Asymptotic Forms of a(x) -- Applications Under m+/m → 0 -- The Two-Sided Exit Problem - General Case -- The Two-Sided Exit Problem for Relatively Stable Walks -- Absorption Problems for Asymptotically Stable Random Walks -- Asymptotically Stable RandomWalks Killed Upon Hitting a Finite Set -- Appendix -- References -- Notation Index -- Subject Index.
Contained By:	Springer Nature eBook
Subject:	Random walks (Mathematics) -
Online resource:	https://doi.org/10.1007/978-3-031-41020-8
ISBN:	9783031410208

Potential functions of random walks in Z with infinite variance = estimates and applications /
Uchiyama, Kohei.

Potential functions of random walks in Z with infinite varianceestimates and applications /[electronic resource] :by Kohei Uchiyama. - Cham :Springer Nature Switzerland :2023. - ix, 276 p. :ill., digital ;24 cm. - Lecture notes in mathematics,v. 23381617-9692 ;. - Lecture notes in mathematics ;v. 2338..

Preface -- Introduction -- Preliminaries -- Bounds of the Potential Function -- Some Explicit Asymptotic Forms of a(x) -- Applications Under m+/m → 0 -- The Two-Sided Exit Problem - General Case -- The Two-Sided Exit Problem for Relatively Stable Walks -- Absorption Problems for Asymptotically Stable Random Walks -- Asymptotically Stable RandomWalks Killed Upon Hitting a Finite Set -- Appendix -- References -- Notation Index -- Subject Index.

This book studies the potential functions of one-dimensional recurrent random walks on the lattice of integers with step distribution of infinite variance. The central focus is on obtaining reasonably nice estimates of the potential function. These estimates are then applied to various situations, yielding precise asymptotic results on, among other things, hitting probabilities of finite sets, overshoot distributions, Green functions on long finite intervals and the half-line, and absorption probabilities of two-sided exit problems. The potential function of a random walk is a central object in fluctuation theory. If the variance of the step distribution is finite, the potential function has a simple asymptotic form, which enables the theory of recurrent random walks to be described in a unified way with rather explicit formulae. On the other hand, if the variance is infinite, the potential function behaves in a wide range of ways depending on the step distribution, which the asymptotic behaviour of many functionals of the random walk closely reflects. In the case when the step distribution is attracted to a strictly stable law, aspects of the random walk have been intensively studied and remarkable results have been established by many authors. However, these results generally do not involve the potential function, and important questions still need to be answered. In the case where the random walk is relatively stable, or if one tail of the step distribution is negligible in comparison to the other on average, there has been much less work. Some of these unsettled problems have scarcely been addressed in the last half-century. As revealed in this treatise, the potential function often turns out to play a significant role in their resolution. Aimed at advanced graduate students specialising in probability theory, this book will also be of interest to researchers and engineers working with random walks and stochastic systems.

ISBN: 9783031410208

Standard No.: 10.1007/978-3-031-41020-8doiSubjects--Topical Terms:

532102
Random walks (Mathematics)

LC Class. No.: QA274.73

Dewey Class. No.: 519.282

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505 0 $a Preface -- Introduction -- Preliminaries -- Bounds of the Potential Function -- Some Explicit Asymptotic Forms of a(x) -- Applications Under m+/m → 0 -- The Two-Sided Exit Problem - General Case -- The Two-Sided Exit Problem for Relatively Stable Walks -- Absorption Problems for Asymptotically Stable Random Walks -- Asymptotically Stable RandomWalks Killed Upon Hitting a Finite Set -- Appendix -- References -- Notation Index -- Subject Index.
520 $a This book studies the potential functions of one-dimensional recurrent random walks on the lattice of integers with step distribution of infinite variance. The central focus is on obtaining reasonably nice estimates of the potential function. These estimates are then applied to various situations, yielding precise asymptotic results on, among other things, hitting probabilities of finite sets, overshoot distributions, Green functions on long finite intervals and the half-line, and absorption probabilities of two-sided exit problems. The potential function of a random walk is a central object in fluctuation theory. If the variance of the step distribution is finite, the potential function has a simple asymptotic form, which enables the theory of recurrent random walks to be described in a unified way with rather explicit formulae. On the other hand, if the variance is infinite, the potential function behaves in a wide range of ways depending on the step distribution, which the asymptotic behaviour of many functionals of the random walk closely reflects. In the case when the step distribution is attracted to a strictly stable law, aspects of the random walk have been intensively studied and remarkable results have been established by many authors. However, these results generally do not involve the potential function, and important questions still need to be answered. In the case where the random walk is relatively stable, or if one tail of the step distribution is negligible in comparison to the other on average, there has been much less work. Some of these unsettled problems have scarcely been addressed in the last half-century. As revealed in this treatise, the potential function often turns out to play a significant role in their resolution. Aimed at advanced graduate students specialising in probability theory, this book will also be of interest to researchers and engineers working with random walks and stochastic systems.
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