随机偏微分方程的有效动力学

首页 > 图书 > 科技/2020-07-11 / 加入收藏 / 阅读 [打印]
随机偏微分方程的有效动力学

随机偏微分方程的有效动力学

作者:(美)段金桥,王伟著

开 本:25cm

书号ISBN:9787560357645

定价:88.0

出版时间:2016-01-01

出版社:哈尔滨工业大学出版社

随机偏微分方程的有效动力学 本书特色

   段金桥、王伟所*的《随机偏微分方程的有效动 力学(英文版)/国外**数学*作原版系列》主要介 绍了随机偏微分方程与时间测度、空间测度之间的关 系。内容包括平均值、同质化、从随机偏微方程里面 提取有效的动力学等。本书内容深刻全面,涵盖面广 ,对学习研究偏微分的人具有很大地帮助。本书可作 为相关专业本科生及研究生参考书。

随机偏微分方程的有效动力学 目录

preface1 introduction 1.1 motivation 1.2 examples of stochastic partial differential equations 1.3 outlines for this book2 deterministic partial differential equations 2.1 fourier series in hilbert space 2.2 solving linear partial differential equations 2.3 integral equalities 2.4 differential and integral inequalities 2.5 sobolev inequalities 2.6 some nonlinear partial differential equations 2.7 problems3 stochastic calculus in hilbert space 3.1 brownian motion and white noise in euclidean space 3.2 deterministic calculus in hilbert space 3.3 random variables in hilbert space 3.4 gaussian random variables in hilbert space 3.5 brownian motion and white noise in hilbert space 3.6 stochastic calculus in hilbert space 3.7 it6's formula in hilbert space 3.8 problems4 stochastic partial differential equations 4.1 basic setup 4.2 strong and weak solutions 4.3 mild solutions 4.4 martingale solutions 4.5 conversion between it6 and stratonovich spdes 4.6 linear stochastic partial differential equations 4.7 effects of noise on solution paths 4.8 large deviations for spdes 4.9 infinite dimensional stochastic dynamics 4.10 random dynamical systems defined by spdes 4.11 problems5 stochastic averaging principles 5.1 classical results on averaging 5.2 an averaging principle for slow-fast spdes 5.3 proof of the averaging principle theorem 5.20 5.4 a normal deviation principle for slow-fast spdes 5.5 proof of the normal deviation principle theorem 5.34 5.6 macroscopic reduction for stochastic systems 5.7 large deviation principles for the averaging approximation 5.8 pdes with random coefficients 5.9 further remarks 5.10 looking forward 5.11 problems6 slow manifold reduction 6.1 background 6.2 random center-unstable manifolds for stochastic systems 6.3 random center-unstable manifold reduction 6.4 local random invariant manifold for spdes 6.5 random slow manifold reduction for slow-fast spdes 6.6 a different reduction method for spdes: amplitude equation 6.7 looking forward 6.8 problems7 stochastic homogenization 7.1 deterministic homogenization 7.2 homogenized macroscopic dynamics for stochastic linear microscopic systems 7.3 homogenized macroscopic dynamics for stochastic nonlinear microscopic systems 7.4 looking forward 7.5 problemshints and solutionsnotationsreferences 随机偏微分方程的有效动力学

自然科学 数学 微积分

在线阅读