V. V. Zaitsev, A. V. Karlov, Ar. V. Karlov, “About numerical modelling of Thomson self-oscillatory systems”, Vestnik Samarskogo Gosudarstvennogo Universiteta. Estestvenno-Nauchnaya Seriya, 2015, Issue 6(128),Pages <nobr>141

This article is cited in 1 paper

Mathematic Modeling

About numerical modelling of Thomson self-oscillatory systems

V. V. Zaitsev^a, A. V. Karlov^b, Ar. V. Karlov^a

^a Samara State University, 1, Acad. Pavlov Street, Samara, 443011, Russian Federation
^b Joint Stock Company Space Rocket Centre Progress, 18, Zemetsa Street, Samara, 443009, Russian Federation

Abstract: The algorithm of numerical integration of a task of Cauchy for the equations of the movement of self-oscillatory systems of Thomson type is offered. The algorithm is based on the use of samples of impulse response of linear resonant system as discretization sequences at the transition to the discrete time in the integral form of the equations of motion. Estimates of an error of numerical decisions are given. Transformation of finite difference algorithm in object of nonlinear dynamics in discrete time is discussed. Version of discrete mapping of Van der Pol oscillator is proposed.

Keywords: self-oscillatory system, Volterra integral equation, impulse response of resonator, finite difference algorithm, nonlinear dynamics in discrete time, discrete mapping of Van der Pol oscillator.

UDC: 621.373.12+519.622

Received: 28.05.2015