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Perturbation methods for nonlinear autonomous discrete-time dynamical systems

โœ Scribed by Angelo Luongo

Publisher
Springer Netherlands
Year
1996
Tongue
English
Weight
893 KB
Volume
10
Category
Article
ISSN
0924-090X

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โœฆ Synopsis

Two perturbation methods for nonlinear autonomous discrete-time dynamical systems are presented. They generalize the classical Lindstedt-Poincar6 and multiple scale perturbation methods that are valid for continuous-time systems. The Lindstedt-Poincar6 method allows determination of the periodic or almost-periodic orbits of the nonlinear system (limit cycles), while the multiple scale method also permits analysis of the transient state and the stability of the limit cycles. An application to the discrete Van der Pol equation is also presented, for which the asymptotic solution is shown to be in excellent agreement with the exact (numerical) solution. It is demonstrated that, when the sampling step tends to zero the asymptotic transient and steady-state discrete-time solutions correctly tend to the asymptotic continuous-time solutions.

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