非连续广义李纳方程中极限循环次数的估计值

IF 1.9 3区数学 Q1 MATHEMATICS

Qualitative Theory of Dynamical Systems Pub Date : 2024-05-07 DOI:10.1007/s12346-024-01048-2

Tiago M. P. de Abreu, Ricardo M. Martins

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引用次数: 0

摘要

本文研究了片断平稳微分方程系统 \(\dot{x}=y, \dot{y}=-x-\varepsilon \cdot (f(x)\cdot y +\textrm{sgn}(y)\cdot g(x))/)的最大极限循环次数。利用平均法，我们能够推广先前关于李纳系统的一个结果。在我们的归纳中，我们将 g 视为阶数为 m 的多项式。我们的结论是，对于足够小的\(|{\varepsilon }|\)值，数字 \(h_{m,n}=\left[\frac{n}{2}\right] +\left[\frac{m}{2}\right] +1\)是这个系统中极限循环的最大数量的下限、这是从线性中心 \(\dot{x}=y\)， \(\dot{y}=-x\)的周期轨道分叉而来的。此外，我们还证明了确实有可能得到一个具有（h_{m,n}\）极限循环的系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Estimates for the Number of Limit Cycles in Discontinuous Generalized Liénard Equations

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Estimates for the Number of Limit Cycles in Discontinuous Generalized Liénard Equations

In this paper, we study the maximum number of limit cycles for the piecewise smooth system of differential equations \(\dot{x}=y, \ \dot{y}=-x-\varepsilon \cdot (f(x)\cdot y +\textrm{sgn}(y)\cdot g(x))\). Using the averaging method, we were able to generalize a previous result for Liénard systems. In our generalization, we consider g as a polynomial of degree m. We conclude that for sufficiently small values of \(|{\varepsilon }|\), the number \(h_{m,n}=\left[ \frac{n}{2}\right] +\left[ \frac{m}{2}\right] +1\) serves as a lower bound for the maximum number of limit cycles in this system, which bifurcates from the periodic orbits of the linear center \(\dot{x}=y\), \(\dot{y}=-x\). Furthermore, we demonstrate that it is indeed possible to obtain a system with \(h_{m,n}\) limit cycles.

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来源期刊

Qualitative Theory of Dynamical Systems MATHEMATICS, APPLIED-MATHEMATICS

CiteScore

2.50

自引率

14.30%

发文量

130

期刊介绍： Qualitative Theory of Dynamical Systems (QTDS) publishes high-quality peer-reviewed research articles on the theory and applications of discrete and continuous dynamical systems. The journal addresses mathematicians as well as engineers, physicists, and other scientists who use dynamical systems as valuable research tools. The journal is not interested in numerical results, except if these illustrate theoretical results previously proved.