|Title:||A Simplified Lindstedt-Poincare Method for Saving Computational Cost to Determine Higher Order Nonlinear Free Vibrations||Authors:||Liu, Chein-Shan
|Keywords:||nonlinear oscillators;analytic solution;Lindstedt-Poincare method;Linearized Lindstedt-Poincare method||Issue Date:||1-Dec-2021||Publisher:||MDPI||Journal Volume:||9||Journal Issue:||23||Source:||MATHEMATICS||Abstract:||
In order to improve the Lindstedt-Poincare method to raise the accuracy and the performance for the application to strongly nonlinear oscillators, a new analytic method by engaging in advance a linearization technique in the nonlinear differential equation is developed, which is realized in terms of a weight factor to decompose the nonlinear term into two sides. We expand the constant preceding the displacement in powers of the introduced parameter so that the coefficients can be determined to avoid the appearance of secular solutions. The present linearized Lindstedt-Poincare method is easily implemented to provide accurate higher order analytic solutions of nonlinear oscillators, such as Duffing and van Der Pol nonlinear oscillators. The accuracy of analytic solutions is evaluated by comparing to the numerical results obtained from the fourth-order Runge-Kotta method. The major novelty is that we can simplify the Lindstedt-Poincare method to solve strongly a nonlinear oscillator with a large vibration amplitude.
|Appears in Collections:||海洋中心|
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