Behzad Djafari Rouhani, Hadi Khatibzadeh

Nonlinear Evolution and Difference Equations of Monotone Typnonlinear Evolution and Difference Equations of Monotone Type in Hilbert Spaces E in Hilbert Spaces

• Gebundenes Buch

Produktbeschreibung

This book deals with first and second order evolution and difference monotone type equations. The approach followed in the book was first introduced by Dr. Djafari-Rouhani, and later advanced by him along with Dr. Khatibzadeh.

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Produktdetails

• Verlag: Taylor & Francis Ltd (Sales)
• Seitenzahl: 248
• Erscheinungstermin: 21. März 2019
• Englisch
• Abmessung: 234mm x 156mm x 16mm
• Gewicht: 526g
• ISBN-13: 9781482228182
• ISBN-10: 1482228181
• Artikelnr.: 42462132

Autorenporträt

BIOGRAPHIES: Behzad Djafari Rouhani received his PhD degree from Yale University in 1981, under the direction of the late Professor Shizuo Kakutani. He is currently a Professor of Mathematics at the University of Texas at El Paso, USA. Hadi Khatibzadeh received his PhD degree form Tarbiat Modares University in 2007, under the direction of the first author. He is currently an Associate Professor of Mathematics at University of Zanjan, Iran. They both work in the field of Nonlinear Analysis and its Applications, and they each have over 50 refereed publications. Narcisa Apreutesei

Inhaltsangabe

Table of Contents:
PART I. PRELIMINARIES
Preliminaries of Functional Analysis
Introduction to Hilbert Spaces
Weak Topology and Weak Convergence
Reexive Banach Spaces
Distributions and Sobolev Spaces
Convex Analysis and Subdifferential Operators
Introduction
Convex Sets and Convex Functions
Continuity of Convex Functions
Minimization Properties
Fenchel Subdifferential
The Fenchel Conjugate
Maximal Monotone Operators
Introduction
Monotone Operators
Maximal Monotonicity
Resolvent and Yosida Approximation
Canonical Extension
PART II - EVOLUTION EQUATIONS OF MONOTONE TYPE
First Order Evolution Equations
Introduction
Existence and Uniqueness of Solutions
Periodic Forcing
Nonexpansive Semigroup Generated by a Maximal Monotone Operator
Ergodic Theorems for Nonexpansive Sequences and Curves
Weak Convergence of Solutions and Means
Almost Orbits
Sub-differential and Non-expansive Cases
Strong Ergodic Convergence
Strong Convergence of Solutions
Quasi-convex Case
Second Order Evolution Equations
Introduction
Existence and Uniqueness of Solutions
Two Point Boundary Value Problems
Existence of Solutions for the Nonhomogeneous Case
Periodic Forcing
Square Root of a Maximal Monotone Operator
Asymptotic Behavior
Asymptotic Behavior for some Special Nonhomogeneous Cases
Heavy Ball with Friction Dynamical System
Introduction
Minimization Properties
PART III. DIFFERENCE EQUATIONS OF MONOTONE TYPE
First Order Difference Equations and Proximal Point Algorithm
Introduction
Boundedness of Solutions
Periodic Forcing
Convergence of the Proximal Point Algorithm
Convergence with Non-summable Errors
Rate of Convergence
Second Order Difference Equations
Introduction
Existence and Uniqueness
Periodic Forcing
Continuous Dependence on Initial Conditions
Asymptotic Behavior for the Homogeneous Case
Subdifferential Case
Asymptotic Behavior for the Non-Homogeneous Case
Applications to Optimization
Discrete Nonlinear Oscillator Dynamical System and the Inertial Proximal
Algorithm
Introduction
Boundedness of the Sequence and an Ergodic Theorem
Weak Convergence of the Algorithm with Errors
Subdifferential Case
Strong Convergence
PART IV. APPLICATIONS
Some Applications to Nonlinear Partial Differential Equations and
Optimization
Introduction
Applications to Convex Minimization and Monotone Operators
Application to Variational Problems
Some Applications to Partial Differential Equations
Complete Bibliography