1996 / xii + 256 pages / Softcover / ISBN: 978-0-898713-53-4 / List Price $59.50 / SIAM Member Price $41.65 / Order Code CL14
[This book] is indisputably the best existing book on DAEs. It has structured the most important results on solvability properties, numerical methods, and software for DAEs. It is well written and describes difficulties with DAEs in a comprehensible way. It does not require any prior knowledge of the subject by the reader. The book is recommended to anyone who wants an introduction to DAEs. It is also a book that everyone who performs reseach on DAEs should have. Anders Barrlund, OPTIMA, No. 53, March 1997
Many physical problems are most naturally described by systems of differential and algebraic equations. This book describes some of the places where differential-algebraic equations (DAE's) occur. The basic mathematical theory for these equations is developed and numerical methods are presented and analyzed. Examples drawn from a variety of applications are used to motivate and illustrate the concepts and techniques.
This classic edition, originally published in 1989, is the only general DAE book available. It not only develops guidelines for choosing different numerical methods, it is the first book to discuss DAE codes, including the popular DASSL code. An extensive discussion of backward differentiation formulas details why they have emerged as the most popular and best understood class of linear multistep methods for general DAE's. New to this edition is a chapter that brings the discussion of DAE software up to date.
The objective of this monograph is to advance and consolidate the existing research results for the numerical solution of DAE's. The authors present results on the analysis of numerical methods, and also show how these results are relevant for the solution of problems from applications. They develop guidelines for problem formulation and effective use of the available mathematical software and provide extensive references for further study.
Engineers, physicists, and other scientists who must solve DAE's, numerical analysts, and applied mathematicians will find this monograph both useful and informative.
Preface; Chapter 1: Introduction. Why DAE's?; Basic Types of DAE's; Applications; Overview; Chapter 2: Theory of DAE's. Introduction; Solvability and the Index; Linear Constant Coefficient DAE's; Linear Time Varying DAE's; Nonlinear Systems; Chapter 3: Multistep methods. Introduction; DBF Convergence; BDF Methods, DAE's and Stiff Problems; General Linear Multistep Methods; Chapter 4: One-Step Methods. Introduction; Linear Constant Coefficient Systems; Nonlinear Index One Systems; Semi-Explicit Nonlinear Index Two Systems; Order Reduction and Stiffness; Extrapolation Methods; Chapter 5: Software and DAE's. Introduction; Algorithms and Strategies in Dassl; Obtaining Numerical Solutions; Solving Higher Index Systems; Chapter 6: Applications. Introduction; Systems of Rigid Bodies; Trajectory Prescribed Path control; Electrical Networks; DAE's Arising from the Method of Lines; Bibliography; Chapter 7: The DAE Home Page. Introduction; Theoretical Advances; Numerical Analysis Advancements; DAE Software; DASSL; Supplementary Bibliography; Index.
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