Author : Mark Levi
Publisher : American Mathematical Soc.
Page : 163 pages
File Size : 38,8 MB
Release : 1981
Category : Mathematics
ISBN : 0821822446
Author : Mark Ageev
Publisher :
Page : 148 pages
File Size : 17,79 MB
Release : 1981
Category :
ISBN :
Author : David J. Eck
Publisher :
Page : 164 pages
File Size : 20,45 MB
Release : 1981
Category : Algebra, Universal
ISBN : 9780821822449
Author : Johan Grasman
Publisher : Springer Science & Business Media
Page : 229 pages
File Size : 13,96 MB
Release : 2012-12-06
Category : Science
ISBN : 1461210569
In various fields of science, notably in physics and biology, one is con fronted with periodic phenomena having a remarkable temporal structure: it is as if certain systems are periodically reset in an initial state. A paper of Van der Pol in the Philosophical Magazine of 1926 started up the investigation of this highly nonlinear type of oscillation for which Van der Pol coined the name "relaxation oscillation". The study of relaxation oscillations requires a mathematical analysis which differs strongly from the well-known theory of almost linear oscillations. In this monograph the method of matched asymptotic expansions is employed to approximate the periodic orbit of a relaxation oscillator. As an introduction, in chapter 2 the asymptotic analysis of Van der Pol's equation is carried out in all detail. The problem exhibits all features characteristic for a relaxation oscillation. From this case study one may learn how to handle other or more generally formulated relaxation oscillations. In the survey special attention is given to biological and chemical relaxation oscillators. In chapter 2 a general definition of a relaxation oscillation is formulated.
Author : John Guckenheimer
Publisher : Springer Science & Business Media
Page : 475 pages
File Size : 48,35 MB
Release : 2013-11-21
Category : Mathematics
ISBN : 1461211409
An application of the techniques of dynamical systems and bifurcation theories to the study of nonlinear oscillations. Taking their cue from Poincare, the authors stress the geometrical and topological properties of solutions of differential equations and iterated maps. Numerous exercises, some of which require nontrivial algebraic manipulations and computer work, convey the important analytical underpinnings of problems in dynamical systems and help readers develop an intuitive feel for the properties involved.
Author : Christian Kuehn
Publisher : Springer
Page : 816 pages
File Size : 11,15 MB
Release : 2015-02-25
Category : Mathematics
ISBN : 3319123165
This book provides an introduction to dynamical systems with multiple time scales. The approach it takes is to provide an overview of key areas, particularly topics that are less available in the introductory form. The broad range of topics included makes it accessible for students and researchers new to the field to gain a quick and thorough overview. The first of its kind, this book merges a wide variety of different mathematical techniques into a more unified framework. The book is highly illustrated with many examples and exercises and an extensive bibliography. The target audience of this book are senior undergraduates, graduate students as well as researchers interested in using the multiple time scale dynamics theory in nonlinear science, either from a theoretical or a mathematical modeling perspective.
Author :
Publisher :
Page : 750 pages
File Size : 39,43 MB
Release : 1979
Category : Aeronautics
ISBN :
Lists citations with abstracts for aerospace related reports obtained from world wide sources and announces documents that have recently been entered into the NASA Scientific and Technical Information Database.
Author : Rafael Ortega
Publisher : Walter de Gruyter GmbH & Co KG
Page : 200 pages
File Size : 30,4 MB
Release : 2019-05-06
Category : Mathematics
ISBN : 3110551160
Periodic differential equations appear in many contexts such as in the theory of nonlinear oscillators, in celestial mechanics, or in population dynamics with seasonal effects. The most traditional approach to study these equations is based on the introduction of small parameters, but the search of nonlocal results leads to the application of several topological tools. Examples are fixed point theorems, degree theory, or bifurcation theory. These well-known methods are valid for equations of arbitrary dimension and they are mainly employed to prove the existence of periodic solutions. Following the approach initiated by Massera, this book presents some more delicate techniques whose validity is restricted to two dimensions. These typically produce additional dynamical information such as the instability of periodic solutions, the convergence of all solutions to periodic solutions, or connections between the number of harmonic and subharmonic solutions. The qualitative study of periodic planar equations leads naturally to a class of discrete dynamical systems generated by homeomorphisms or embeddings of the plane. To study these maps, Brouwer introduced the notion of a translation arc, somehow mimicking the notion of an orbit in continuous dynamical systems. The study of the properties of these translation arcs is full of intuition and often leads to "non-rigorous proofs". In the book, complete proofs following ideas developed by Brown are presented and the final conclusion is the Arc Translation Lemma, a counterpart of the Poincaré–Bendixson theorem for discrete dynamical systems. Applications to differential equations and discussions on the topology of the plane are the two themes that alternate throughout the five chapters of the book.
Author : Philippe Geril
Publisher : VSP
Page : 832 pages
File Size : 21,42 MB
Release : 1986
Category : Digital computer simulation
ISBN : 9789067640954
Author : Miklos Farkas
Publisher : Springer Science & Business Media
Page : 585 pages
File Size : 26,53 MB
Release : 2013-03-14
Category : Mathematics
ISBN : 1475742118
A summary of the most important results in the existence and stability of periodic solutions for ordinary differential equations achieved in the twentieth century, along with relevant applications. It differs from standard classical texts on non-linear oscillations in that it also contains linear theory; theorems are proved with mathematical rigor; and, besides the classical applications such as Van der Pol's, Linard's and Duffing's equations, most applications come from biomathematics. For graduate and Ph.D students in mathematics, physics, engineering, and biology, and as a standard reference for use by researchers in the field of dynamical systems and their applications.
