Stability Problems for Stochastic Models: Theory and Applications

doi:10.3390/books978-3-0365-0453-7

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Stability Problems for Stochastic Models: Theory and Applications

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March 2021

370 pages

ISBN978-3-0365-0452-0 (Hardback)
ISBN978-3-0365-0453-7 (PDF)

https://doi.org/10.3390/books978-3-0365-0453-7

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This book is a reprint of the Special Issue Stability Problems for Stochastic Models: Theory and Applications that was published in

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Summary

The aim of this Special Issue of Mathematics is to commemorate the outstanding Russian mathematician Vladimir Zolotarev, whose 90th birthday will be celebrated on February 27th, 2021. The present Special Issue contains a collection of new papers by participants in sessions of the International Seminar on Stability Problems for Stochastic Models founded by Zolotarev. Along with research in probability distributions theory, limit theorems of probability theory, stochastic processes, mathematical statistics, and queuing theory, this collection contains papers dealing with applications of stochastic models in modeling of pension schemes, modeling of extreme precipitation, construction of statistical indicators of scientific publication importance, and other fields.

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Keywords

continuous-time Markov chains; non-stationary Markovian queueing model; stability; perturbation bounds; forward Kolmogorov system; threshold processing; random samples; long-term dependence; mean-square risk estimate; integrals and sums; rates of convergence; conditional law of large numbers; conditional central limit theorem; stochastic differential observation system; nonlinear filtering problem; state-dependent observation noise; numerical filtering algorithm; filtering given time-discretized observations; stable approximation; approximation accuracy; Rényi theorem; Kantorovich distance; zeta-metrics; Stein’s method; stationary renewal distribution; equilibrium transform; geometric random sum; characteristic function; precipitation; limit theorems; statistical test; generalized negative binomial distribution; generalized gamma distribution; asymptotic approximations; extreme order statistics; random sample size; slowly varying; monotony in the Zygmund sense; class Γ_a(g); self-neglecting function; convergence rates; citation distribution; Hirsch index; geometric distribution; Sibuya distribution; geometrically stable distribution; generalized Linnik distribution; random sum; transfer theorem; multivariate normal scale mixtures; heavy-tailed distributions; multivariate stable distribution; multivariate Linnik distribution; generalized Mittag–Leffler distribution; multivariate generalized Mittag–Leffler distribution; stable distribution; probability density function; distribution function; Hankel contours; multivariate stable processes; contour integrals; fractional laplacian; second order expansions; high-dimensional; low sample size; random sample size; Laplace distribution; Student’s t-distribution; pareto mixture distribution; multiserver system; uniform distance; perfect simulation; priority system; marked Markov arrival process; phase-type distribution; change of the priority; dispatching; heterogeneous servers; Markov decision process; policy-iteration algorithm; mean number of customers; decomposable semi-regenerative process; multiple power series distribution; integral limit theorem; local limit theorem; Tauberian lemma; R-weakly one-sided oscillation of the multiple sequence at infinity along the given multiple sequence; pension schemes; balance equation; gross premium; premium load; lump sum; defined contribution pension schemes; decrement tables; robustness; minimax approach; stable estimation