Shape, Smoothness, and Invariant Stratification of an Attracting Set for Delayed Monotone Positive Feedback

Shape, Smoothness, and Invariant Stratification of an Attracting Set for Delayed Monotone Positive Feedback
Author :
Publisher : American Mathematical Soc.
Total Pages : 526
Release :
ISBN-10 : 0821871692
ISBN-13 : 9780821871690
Rating : 4/5 (690 Downloads)

Book Synopsis Shape, Smoothness, and Invariant Stratification of an Attracting Set for Delayed Monotone Positive Feedback by : Tibor Krisztin

Download or read book Shape, Smoothness, and Invariant Stratification of an Attracting Set for Delayed Monotone Positive Feedback written by Tibor Krisztin and published by American Mathematical Soc.. This book was released on with total page 526 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book contains recent results about the global dynamics defined by a class of delay differential equations which model basic feedback mechanisms and arise in a variety of applications such as neural networks. The authors describe in detail the geometric structure of a fundamental invariant set, which in special cases is the global attractor, and the asymptotic behavior of solution curves on it. The approach makes use of advanced tools which in recent years have been developed for the investigation of infinite-dimensional dynamical systems: local invariant manifolds and inclination lemmas for noninvertible maps, Floquet theory for delay differential equations, a priori estimates controlling the growth and decay of solutions with prescribed oscillation frequency, a discrete Lyapunov functional counting zeros, methods to represent invariant sets as graphs, and Poincaré-Bendixson techniques for classes of delay differential systems. Several appendices provide the general results needed in the case study, so the presentation is self-contained. Some of the general results are not available elsewhere, specifically on smooth infinite-dimensional centre-stable manifolds for maps. Results in the appendices will be useful for future studies of more complicated attractors of delay and partial differential equations.


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