Geometric Integrators for Differential Equations with Highly Oscillatory Solutions
Title | Geometric Integrators for Differential Equations with Highly Oscillatory Solutions PDF eBook |
Author | Xinyuan Wu |
Publisher | Springer Nature |
Pages | 507 |
Release | 2021-09-28 |
Genre | Mathematics |
ISBN | 981160147X |
The idea of structure-preserving algorithms appeared in the 1980's. The new paradigm brought many innovative changes. The new paradigm wanted to identify the long-time behaviour of the solutions or the existence of conservation laws or some other qualitative feature of the dynamics. Another area that has kept growing in importance within Geometric Numerical Integration is the study of highly-oscillatory problems: problems where the solutions are periodic or quasiperiodic and have to be studied in time intervals that include an extremely large number of periods. As is known, these equations cannot be solved efficiently using conventional methods. A further study of novel geometric integrators has become increasingly important in recent years. The objective of this monograph is to explore further geometric integrators for highly oscillatory problems that can be formulated as systems of ordinary and partial differential equations. Facing challenging scientific computational problems, this book presents some new perspectives of the subject matter based on theoretical derivations and mathematical analysis, and provides high-performance numerical simulations. In order to show the long-time numerical behaviour of the simulation, all the integrators presented in this monograph have been tested and verified on highly oscillatory systems from a wide range of applications in the field of science and engineering. They are more efficient than existing schemes in the literature for differential equations that have highly oscillatory solutions. This book is useful to researchers, teachers, students and engineers who are interested in Geometric Integrators and their long-time behaviour analysis for differential equations with highly oscillatory solutions.
Geometric Numerical Integration
Title | Geometric Numerical Integration PDF eBook |
Author | Ernst Hairer |
Publisher | Springer Science & Business Media |
Pages | 526 |
Release | 2013-03-09 |
Genre | Mathematics |
ISBN | 3662050188 |
This book deals with numerical methods that preserve properties of Hamiltonian systems, reversible systems, differential equations on manifolds and problems with highly oscillatory solutions. A complete self-contained theory of symplectic and symmetric methods, which include Runge-Kutta, composition, splitting, multistep and various specially designed integrators, is presented and their construction and practical merits are discussed. The long-time behaviour of the numerical solutions is studied using a backward error analysis (modified equations) combined with KAM theory. The book is illustrated by numerous figures, treats applications from physics and astronomy, and contains many numerical experiments and comparisons of different approaches.
Simulating Hamiltonian Dynamics
Title | Simulating Hamiltonian Dynamics PDF eBook |
Author | Benedict Leimkuhler |
Publisher | Cambridge University Press |
Pages | 464 |
Release | 2004 |
Genre | Mathematics |
ISBN | 9780521772907 |
Geometric integrators are time-stepping methods, designed such that they exactly satisfy conservation laws, symmetries or symplectic properties of a system of differential equations. In this book the authors outline the principles of geometric integration and demonstrate how they can be applied to provide efficient numerical methods for simulating conservative models. Beginning from basic principles and continuing with discussions regarding the advantageous properties of such schemes, the book introduces methods for the N-body problem, systems with holonomic constraints, and rigid bodies. More advanced topics treated include high-order and variable stepsize methods, schemes for treating problems involving multiple time-scales, and applications to molecular dynamics and partial differential equations. The emphasis is on providing a unified theoretical framework as well as a practical guide for users. The inclusion of examples, background material and exercises enhance the usefulness of the book for self-instruction or as a text for a graduate course on the subject.
A First Course in the Numerical Analysis of Differential Equations
Title | A First Course in the Numerical Analysis of Differential Equations PDF eBook |
Author | A. Iserles |
Publisher | Cambridge University Press |
Pages | 481 |
Release | 2009 |
Genre | Mathematics |
ISBN | 0521734908 |
lead the reader to a theoretical understanding of the subject without neglecting its practical aspects. The outcome is a textbook that is mathematically honest and rigorous and provides its target audience with a wide range of skills in both ordinary and partial differential equations." --Book Jacket.
Highly Oscillatory Problems
Title | Highly Oscillatory Problems PDF eBook |
Author | Bjorn Engquist |
Publisher | Cambridge University Press |
Pages | 254 |
Release | 2009-07-02 |
Genre | Mathematics |
ISBN | 0521134439 |
Review papers from experts in areas of active research into highly oscillatory problems, with an emphasis on computation.
Recent Developments in Structure-Preserving Algorithms for Oscillatory Differential Equations
Title | Recent Developments in Structure-Preserving Algorithms for Oscillatory Differential Equations PDF eBook |
Author | Xinyuan Wu |
Publisher | Springer |
Pages | 356 |
Release | 2018-04-19 |
Genre | Mathematics |
ISBN | 9811090041 |
The main theme of this book is recent progress in structure-preserving algorithms for solving initial value problems of oscillatory differential equations arising in a variety of research areas, such as astronomy, theoretical physics, electronics, quantum mechanics and engineering. It systematically describes the latest advances in the development of structure-preserving integrators for oscillatory differential equations, such as structure-preserving exponential integrators, functionally fitted energy-preserving integrators, exponential Fourier collocation methods, trigonometric collocation methods, and symmetric and arbitrarily high-order time-stepping methods. Most of the material presented here is drawn from the recent literature. Theoretical analysis of the newly developed schemes shows their advantages in the context of structure preservation. All the new methods introduced in this book are proven to be highly effective compared with the well-known codes in the scientific literature. This book also addresses challenging problems at the forefront of modern numerical analysis and presents a wide range of modern tools and techniques.
Discrete Mechanics, Geometric Integration and Lie–Butcher Series
Title | Discrete Mechanics, Geometric Integration and Lie–Butcher Series PDF eBook |
Author | Kurusch Ebrahimi-Fard |
Publisher | Springer |
Pages | 366 |
Release | 2018-11-05 |
Genre | Mathematics |
ISBN | 3030013979 |
This volume resulted from presentations given at the international “Brainstorming Workshop on New Developments in Discrete Mechanics, Geometric Integration and Lie–Butcher Series”, that took place at the Instituto de Ciencias Matemáticas (ICMAT) in Madrid, Spain. It combines overview and research articles on recent and ongoing developments, as well as new research directions. Why geometric numerical integration? In their article of the same title Arieh Iserles and Reinout Quispel, two renowned experts in numerical analysis of differential equations, provide a compelling answer to this question. After this introductory chapter a collection of high-quality research articles aim at exploring recent and ongoing developments, as well as new research directions in the areas of geometric integration methods for differential equations, nonlinear systems interconnections, and discrete mechanics. One of the highlights is the unfolding of modern algebraic and combinatorial structures common to those topics, which give rise to fruitful interactions between theoretical as well as applied and computational perspectives. The volume is aimed at researchers and graduate students interested in theoretical and computational problems in geometric integration theory, nonlinear control theory, and discrete mechanics.