Numerical Continuation Methods for Dynamical Systems

Numerical Continuation Methods for Dynamical Systems
Author :
Publisher : Springer
Total Pages : 411
Release :
ISBN-10 : 9781402063565
ISBN-13 : 1402063563
Rating : 4/5 (65 Downloads)

Synopsis Numerical Continuation Methods for Dynamical Systems by : Bernd Krauskopf

Path following in combination with boundary value problem solvers has emerged as a continuing and strong influence in the development of dynamical systems theory and its application. It is widely acknowledged that the software package AUTO - developed by Eusebius J. Doedel about thirty years ago and further expanded and developed ever since - plays a central role in the brief history of numerical continuation. This book has been compiled on the occasion of Sebius Doedel's 60th birthday. Bringing together for the first time a large amount of material in a single, accessible source, it is hoped that the book will become the natural entry point for researchers in diverse disciplines who wish to learn what numerical continuation techniques can achieve. The book opens with a foreword by Herbert B. Keller and lecture notes by Sebius Doedel himself that introduce the basic concepts of numerical bifurcation analysis. The other chapters by leading experts discuss continuation for various types of systems and objects and showcase examples of how numerical bifurcation analysis can be used in concrete applications. Topics that are treated include: interactive continuation tools, higher-dimensional continuation, the computation of invariant manifolds, and continuation techniques for slow-fast systems, for symmetric Hamiltonian systems, for spatially extended systems and for systems with delay. Three chapters review physical applications: the dynamics of a SQUID, global bifurcations in laser systems, and dynamics and bifurcations in electronic circuits.

Continuation Techniques and Bifurcation Problems

Continuation Techniques and Bifurcation Problems
Author :
Publisher : Birkhäuser
Total Pages : 218
Release :
ISBN-10 : 9783034856812
ISBN-13 : 3034856814
Rating : 4/5 (12 Downloads)

Synopsis Continuation Techniques and Bifurcation Problems by : MITTELMANN

The analysis of parameter-dependent nonlinear has received much attention in recent years. Numerical continuation techniques allow the efficient computation of solution branches in a one-parameter problem. In many cases continuation procedures are used as part of a more complete analysis of a nonlinear problem, based on bifurcation theory and singularity theory. These theories contribute to the understanding of many nonlinear phenomena in nature and they form the basis for various analytical and numerical tools, which provide qualitative and quantitative results about nonlinear systems. In this issue we have collected a number of papers dealing with continuation techniques and bifurcation problems. Readers familiar with the notions of continuation and bifurcation will find recent research results addressing a variety of aspects in this issue. Those who intend to learn about the field or a specific topic in it may find it useful to first consult earlier literature on the numerical treatment of these problems together with some theoretical background. The papers in this issue fall naturally into different groups.

Numerical Continuation Methods

Numerical Continuation Methods
Author :
Publisher : Springer Science & Business Media
Total Pages : 402
Release :
ISBN-10 : 9783642612572
ISBN-13 : 3642612571
Rating : 4/5 (72 Downloads)

Synopsis Numerical Continuation Methods by : Eugene L. Allgower

Over the past fifteen years two new techniques have yielded extremely important contributions toward the numerical solution of nonlinear systems of equations. This book provides an introduction to and an up-to-date survey of numerical continuation methods (tracing of implicitly defined curves) of both predictor-corrector and piecewise-linear types. It presents and analyzes implementations aimed at applications to the computation of zero points, fixed points, nonlinear eigenvalue problems, bifurcation and turning points, and economic equilibria. Many algorithms are presented in a pseudo code format. An appendix supplies five sample FORTRAN programs with numerical examples, which readers can adapt to fit their purposes, and a description of the program package SCOUT for analyzing nonlinear problems via piecewise-linear methods. An extensive up-to-date bibliography spanning 46 pages is included. The material in this book has been presented to students of mathematics, engineering and sciences with great success, and will also serve as a valuable tool for researchers in the field.

Numerical Continuation and Bifurcation in Nonlinear PDEs

Numerical Continuation and Bifurcation in Nonlinear PDEs
Author :
Publisher : SIAM
Total Pages : 380
Release :
ISBN-10 : 9781611976618
ISBN-13 : 1611976618
Rating : 4/5 (18 Downloads)

Synopsis Numerical Continuation and Bifurcation in Nonlinear PDEs by : Hannes Uecker

This book provides a hands-on approach to numerical continuation and bifurcation for nonlinear PDEs in 1D, 2D, and 3D. Partial differential equations (PDEs) are the main tool to describe spatially and temporally extended systems in nature. PDEs usually come with parameters, and the study of the parameter dependence of their solutions is an important task. Letting one parameter vary typically yields a branch of solutions, and at special parameter values, new branches may bifurcate. After a concise review of some analytical background and numerical methods, the author explains the free MATLAB package pde2path by using a large variety of examples with demo codes that can be easily adapted to the reader's given problem. Numerical Continuation and Bifurcation in Nonlinear PDEs will appeal to applied mathematicians and scientists from physics, chemistry, biology, and economics interested in the numerical solution of nonlinear PDEs, particularly the parameter dependence of solutions. It can be used as a supplemental text in courses on nonlinear PDEs and modeling and bifurcation.

Nonlinear PDEs

Nonlinear PDEs
Author :
Publisher : American Mathematical Soc.
Total Pages : 593
Release :
ISBN-10 : 9781470436131
ISBN-13 : 1470436132
Rating : 4/5 (31 Downloads)

Synopsis Nonlinear PDEs by : Guido Schneider

This is an introductory textbook about nonlinear dynamics of PDEs, with a focus on problems over unbounded domains and modulation equations. The presentation is example-oriented, and new mathematical tools are developed step by step, giving insight into some important classes of nonlinear PDEs and nonlinear dynamics phenomena which may occur in PDEs. The book consists of four parts. Parts I and II are introductions to finite- and infinite-dimensional dynamics defined by ODEs and by PDEs over bounded domains, respectively, including the basics of bifurcation and attractor theory. Part III introduces PDEs on the real line, including the Korteweg-de Vries equation, the Nonlinear Schrödinger equation and the Ginzburg-Landau equation. These examples often occur as simplest possible models, namely as amplitude or modulation equations, for some real world phenomena such as nonlinear waves and pattern formation. Part IV explores in more detail the connections between such complicated physical systems and the reduced models. For many models, a mathematically rigorous justification by approximation results is given. The parts of the book are kept as self-contained as possible. The book is suitable for self-study, and there are various possibilities to build one- or two-semester courses from the book.

Numerical Methods for Bifurcation Problems and Large-Scale Dynamical Systems

Numerical Methods for Bifurcation Problems and Large-Scale Dynamical Systems
Author :
Publisher : Springer Science & Business Media
Total Pages : 482
Release :
ISBN-10 : 9781461212089
ISBN-13 : 1461212081
Rating : 4/5 (89 Downloads)

Synopsis Numerical Methods for Bifurcation Problems and Large-Scale Dynamical Systems by : Eusebius Doedel

The Institute for Mathematics and its Applications (IMA) devoted its 1997-1998 program to Emerging Applications of Dynamical Systems. Dynamical systems theory and related numerical algorithms provide powerful tools for studying the solution behavior of differential equations and mappings. In the past 25 years computational methods have been developed for calculating fixed points, limit cycles, and bifurcation points. A remaining challenge is to develop robust methods for calculating more complicated objects, such as higher- codimension bifurcations of fixed points, periodic orbits, and connecting orbits, as well as the calcuation of invariant manifolds. Another challenge is to extend the applicability of algorithms to the very large systems that result from discretizing partial differential equations. Even the calculation of steady states and their linear stability can be prohibitively expensive for large systems (e.g. 10_3- -10_6 equations) if attempted by simple direct methods. Several of the papers in this volume treat computational methods for low and high dimensional systems and, in some cases, their incorporation into software packages. A few papers treat fundamental theoretical problems, including smooth factorization of matrices, self -organized criticality, and unfolding of singular heteroclinic cycles. Other papers treat applications of dynamical systems computations in various scientific fields, such as biology, chemical engineering, fluid mechanics, and mechanical engineering.

Numerical Methods for Bifurcations of Dynamical Equilibria

Numerical Methods for Bifurcations of Dynamical Equilibria
Author :
Publisher : SIAM
Total Pages : 384
Release :
ISBN-10 : 0898719542
ISBN-13 : 9780898719543
Rating : 4/5 (42 Downloads)

Synopsis Numerical Methods for Bifurcations of Dynamical Equilibria by : Willy J. F. Govaerts

Dynamical systems arise in all fields of applied mathematics. The author focuses on the description of numerical methods for the detection, computation, and continuation of equilibria and bifurcation points of equilibria of dynamical systems. This subfield has the particular attraction of having links with the geometric theory of differential equations, numerical analysis, and linear algebra.

Continuation and Bifurcations: Numerical Techniques and Applications

Continuation and Bifurcations: Numerical Techniques and Applications
Author :
Publisher : Springer Science & Business Media
Total Pages : 415
Release :
ISBN-10 : 9789400906594
ISBN-13 : 9400906595
Rating : 4/5 (94 Downloads)

Synopsis Continuation and Bifurcations: Numerical Techniques and Applications by : Dirk Roose

Proceedings of the NATO Advanced Research Workshop, Leuven, Belgium, September 18-22, 1989

Elementary Flight Dynamics with an Introduction to Bifurcation and Continuation Methods

Elementary Flight Dynamics with an Introduction to Bifurcation and Continuation Methods
Author :
Publisher : CRC Press
Total Pages : 362
Release :
ISBN-10 : 9781482234886
ISBN-13 : 1482234882
Rating : 4/5 (86 Downloads)

Synopsis Elementary Flight Dynamics with an Introduction to Bifurcation and Continuation Methods by : Nandan K. Sinha

Many textbooks are unable to step outside the classroom and connect with industrial practice, and most describe difficult-to-rationalize ad hoc derivations of the modal parameters. In contrast, Elementary Flight Dynamics with an Introduction to Bifurcation and Continuation Methods uses an optimal mix of physical insight and mathematical presentatio

Introduction to Numerical Continuation Methods

Introduction to Numerical Continuation Methods
Author :
Publisher : SIAM
Total Pages : 409
Release :
ISBN-10 : 9780898715446
ISBN-13 : 089871544X
Rating : 4/5 (46 Downloads)

Synopsis Introduction to Numerical Continuation Methods by : Eugene L. Allgower

Numerical continuation methods have provided important contributions toward the numerical solution of nonlinear systems of equations for many years. The methods may be used not only to compute solutions, which might otherwise be hard to obtain, but also to gain insight into qualitative properties of the solutions. Introduction to Numerical Continuation Methods, originally published in 1979, was the first book to provide easy access to the numerical aspects of predictor corrector continuation and piecewise linear continuation methods. Not only do these seemingly distinct methods share many common features and general principles, they can be numerically implemented in similar ways. Introduction to Numerical Continuation Methods also features the piecewise linear approximation of implicitly defined surfaces, the algorithms of which are frequently used in computer graphics, mesh generation, and the evaluation of surface integrals.