The General Topology of Dynamical Systems

This document was uploaded by one of our users. The uploader already confirmed that they had the permission to publish it. If you are author/publisher or own the copyright of this documents, please report to us by using this DMCA report form.

Simply click on the Download Book button.

Yes, Book downloads on Ebookily are 100% Free.

Sometimes the book is free on Amazon As well, so go ahead and hit "Search on Amazon"

Topology, the foundation of modern analysis, arose historically as a way to organize ideas like compactness and connectedness which had emerged from analysis. Similarly, recent work in dynamical systems theory has both highlighted certain topics in the pre-existing subject of topological dynamics (such as the construction of Lyapunov functions and various notions of stability) and also generated new concepts and results (such as attractors, chain recurrence, and basic sets). This book collects these results, both old and new, and organizes them into a natural foundation for all aspects of dynamical systems theory. No existing book is comparable in content or scope. Requiring background in point-set topology and some degree of "mathematical sophistication", Akin's book serves as an excellent textbook for a graduate course in dynamical systems theory. In addition, Akin's reorganization of previously scattered results makes this book of interest to mathematicians and other researchers who use dynamical systems in their work. Readership: Graduate students and research mathematicians interested in dynamical systems.

Author(s): Ethan Akin
Series: Graduate Studies in Mathematics 1
Edition: Reprint
Publisher: American Mathematical Society
Year: 2010

Language: English
Pages: C, X, 261, B

Preface
Chapter 0. Introduction: Gradient Systems
Chapter 1. Closed Relations and Their Dynamic Extensions
Supplementary exercises
Chapter 2. Invariant Sets and Lyapunov Functions
Supplementary exercises
Chapter 3. Attractors and Basic Sets
Supplementary exercises
Chapter 4. Mappings-Invariant Subsets and Transitivity Concepts
Supplementary exercises
Chapter 5. Computation of the Chain Recurrent Set
Supplementary exercises
Chapter 6. Chain Recurrence and Lyapunov Functions for Flows
Supplementary exercises
Chapter 7. Topologically Robust Properties of Dynamical Systems
Supplementary exercises
Chapter 8. Invariant Measures for Mappings
Supplementary exercises
Chapter 9. Examples-Circles; Simplex; and Symbols
Supplementary exercises
Chapter 10. Fixed Points
Supplementary exercises
Chapter 11. Hyperbolic Sets and Axiom A Homeomorphisms
Supplementary exercises
Historical Remarks
References
Subject Index