Amplitude equations and asymptotic expansions for multi-scale problems


Autoria(s): Kirkinis, E.
Data(s)

2010

Resumo

In this paper we introduce a new technique to obtain the slow-motion dynamics in nonequilibrium and singularly perturbed problems characterized by multiple scales. Our method is based on a straightforward asymptotic reduction of the order of the governing differential equation and leads to amplitude equations that describe the slowly-varying envelope variation of a uniformly valid asymptotic expansion. This may constitute a simpler and in certain cases a more general approach toward the derivation of asymptotic expansions, compared to other mainstream methods such as the method of Multiple Scales or Matched Asymptotic expansions because of its relation with the Renormalization Group. We illustrate our method with a number of singularly perturbed problems for ordinary and partial differential equations and recover certain results from the literature as special cases. © 2010 - IOS Press and the authors. All rights reserved.

Identificador

http://eprints.qut.edu.au/73427/

Relação

DOI:10.3233/ASY-2009-0964

Kirkinis, E. (2010) Amplitude equations and asymptotic expansions for multi-scale problems. Asymptotic Analysis, 67(1-2), pp. 1-16.

Fonte

School of Mathematical Sciences; Science & Engineering Faculty

Palavras-Chave #Asymptotic analysis #Boundary layers #Nonlinear oscillators #Partial differential equations #Perturbation methods #Amplitude equation #Asymptotic expansion #General approach #Governing differential equations #Matched asymptotic expansion #Method of multiple scale #Motion dynamics #Multiple scale #Multiscale problem #Non equilibrium #Non-linear oscillators #Ordinary and partial differential equations #Perturbation method #Renormalization group #Singularly perturbed problem #Amplitude modulation #Biped locomotion #Computational fluid dynamics #Equations of motion #Nonlinear equations #Ordinary differential equations #Oscillators (mechanical) #Perturbation techniques #Statistical mechanics
Tipo

Journal Article