Ergodicity for infinite dimensional systems / G. Da Prato, J. Zabczyk.

Call Number	519.2
Author	Da Prato, Giuseppe, author.
Title	Ergodicity for infinite dimensional systems / G. Da Prato, J. Zabczyk.
Physical Description	1 online resource (xi, 339 pages) : digital, PDF file(s).
Series	London Mathematical Society lecture note series ; 229
Notes	Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Contents	I. Markovian Dynamical Systems. 1. General Dynamical Systems. 2. Canonical Markovian Systems. 3. Ergodic and mixing measures. 4. Regular Markovian systems -- II. Invariant measures for stochastic evolution equations. 5. Stochastic Differential Equations. 6. Existence of invariant measures. 7. Uniqueness of invariant measures. 8. Densities of invariant measures -- III. Invariant measures for specific models. 9. Ornstein -- Uhlenbeck processes. 10. Stochastic delay systems. 11. Reaction-Diffusion equations. 12. Spin systems. 13. Systems perturbed through the boundary. 14. Burgers equation. 15. Navier-Stokes equations -- IV. Appendices -- A Smoothing properties of convolutions -- B An estimate on modulus of continuity -- C A result on implicit functions.
Summary	This book is devoted to the asymptotic properties of solutions of stochastic evolution equations in infinite dimensional spaces. It is divided into three parts: Markovian dynamical systems; invariant measures for stochastic evolution equations; invariant measures for specific models. The focus is on models of dynamical processes affected by white noise, which are described by partial differential equations such as the reaction-diffusion equations or Navier–Stokes equations. Besides existence and uniqueness questions, special attention is paid to the asymptotic behaviour of the solutions, to invariant measures and ergodicity. Some of the results found here are presented for the first time. For all whose research interests involve stochastic modelling, dynamical systems, or ergodic theory, this book will be an essential purchase.
Added Author	Zabczyk, Jerzy, author.
Subject	Stochastic partial differential equations Asymptotic theory. DIFFERENTIABLE DYNAMICAL SYSTEMS. ERGODIC THEORY.
Multimedia	https://doi.org/10.1017/CBO9780511662829

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$a I. Markovian Dynamical Systems. 1. General Dynamical Systems. 2. Canonical Markovian Systems. 3. Ergodic and mixing measures. 4. Regular Markovian systems -- II. Invariant measures for stochastic evolution equations. 5. Stochastic Differential Equations. 6. Existence of invariant measures. 7. Uniqueness of invariant measures. 8. Densities of invariant measures -- III. Invariant measures for specific models. 9. Ornstein -- Uhlenbeck processes. 10. Stochastic delay systems. 11. Reaction-Diffusion equations. 12. Spin systems. 13. Systems perturbed through the boundary. 14. Burgers equation. 15. Navier-Stokes equations -- IV. Appendices -- A Smoothing properties of convolutions -- B An estimate on modulus of continuity -- C A result on implicit functions.

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$a This book is devoted to the asymptotic properties of solutions of stochastic evolution equations in infinite dimensional spaces. It is divided into three parts: Markovian dynamical systems; invariant measures for stochastic evolution equations; invariant measures for specific models. The focus is on models of dynamical processes affected by white noise, which are described by partial differential equations such as the reaction-diffusion equations or Navier–Stokes equations. Besides existence and uniqueness questions, special attention is paid to the asymptotic behaviour of the solutions, to invariant measures and ergodicity. Some of the results found here are presented for the first time. For all whose research interests involve stochastic modelling, dynamical systems, or ergodic theory, this book will be an essential purchase.

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$a Stochastic partial differential equations $x Asymptotic theory.

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Summary	This book is devoted to the asymptotic properties of solutions of stochastic evolution equations in infinite dimensional spaces. It is divided into three parts: Markovian dynamical systems; invariant measures for stochastic evolution equations; invariant measures for specific models. The focus is on models of dynamical processes affected by white noise, which are described by partial differential equations such as the reaction-diffusion equations or Navier–Stokes equations. Besides existence and uniqueness questions, special attention is paid to the asymptotic behaviour of the solutions, to invariant measures and ergodicity. Some of the results found here are presented for the first time. For all whose research interests involve stochastic modelling, dynamical systems, or ergodic theory, this book will be an essential purchase.
Notes	Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Contents	I. Markovian Dynamical Systems. 1. General Dynamical Systems. 2. Canonical Markovian Systems. 3. Ergodic and mixing measures. 4. Regular Markovian systems -- II. Invariant measures for stochastic evolution equations. 5. Stochastic Differential Equations. 6. Existence of invariant measures. 7. Uniqueness of invariant measures. 8. Densities of invariant measures -- III. Invariant measures for specific models. 9. Ornstein -- Uhlenbeck processes. 10. Stochastic delay systems. 11. Reaction-Diffusion equations. 12. Spin systems. 13. Systems perturbed through the boundary. 14. Burgers equation. 15. Navier-Stokes equations -- IV. Appendices -- A Smoothing properties of convolutions -- B An estimate on modulus of continuity -- C A result on implicit functions.
Subject	Stochastic partial differential equations Asymptotic theory. DIFFERENTIABLE DYNAMICAL SYSTEMS. ERGODIC THEORY.
Multimedia	https://doi.org/10.1017/CBO9780511662829