On second-order differential equations with highly oscillatory forcing terms-Reference-Cited by-同舟云学术

On second-order differential equations with highly oscillatory forcing terms

Published:2010-01-13 Issue:2118 Volume:466 Page:1809-1828
ISSN:1364-5021
Container-title:Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
language:en
Short-container-title:Proc. R. Soc. A.

Author:

Condon Marissa¹,Deaño Alfredo²,Iserles Arieh³

Affiliation:

1. School of Electronic Engineering, Dublin City University, Dublin 9, Ireland

2. Departamento de Matemáticas, Universidad Carlos III de Madrid, Avenida Universidad, 30, Leganés 28911, Madrid, Spain

3. DAMTP, University of Cambridge, Wilberforce Road, Cambridge CB3 0WA, UK

Abstract

We present a method to compute efficiently solutions of systems of ordinary differential equations (ODEs) that possess highly oscillatory forcing terms. This approach is based on asymptotic expansions in inverse powers of the oscillatory parameter, and features two fundamental advantages with respect to standard numerical ODE solvers: first, the construction of the numerical solution is more efficient when the system is highly oscillatory, and, second, the cost of the computation is essentially independent of the oscillatory parameter. Numerical examples are provided, featuring the Van der Pol and Duffing oscillators and motivated by problems in electronic engineering.

Publisher

The Royal Society

Subject

General Physics and Astronomy,General Engineering,General Mathematics

Link

https://royalsocietypublishing.org/doi/pdf/10.1098/rspa.2009.0481

Reference13 articles.

1. Modulated Fourier Expansions of Highly Oscillatory Differential Equations

2. On highly oscillatory problems arising in electronic engineering

3. Condon M. Deaño A.& Iserles A.. 2009 b On systems of differential equations with extrinsic oscillation. DAMTP Technical Report NA2009/09 University of Cambridge Cambridge UK. See http://www.damtp.cam.ac.uk/user/na/reports.html.

4. On numerical methods for highly oscillatory problems in circuit simulation

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