Period-1 Motions to Twin Spiral Homoclinic Orbits in the Rössler System

IF 1.9 4区 工程技术 Q3 ENGINEERING, MECHANICAL
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引用次数: 1

Abstract

In this paper, period-1 motions to twin spiral homoclinic orbits in the Rossler system are presented. The period-1 motions varying with a systems parameter are predicted semi-analytically through an implicit mapping method, and the corresponding stability and bifurcations of the period-1 motions are determined through eigenvalue analysis. The approximate homoclinic orbits are obtained, which can be detected through the periodic motions with the positive and negative infinite large eigenvalues. The two limit ends of the bifurcation diagram of the period-1 motion are at twin spiral homoclinic orbits. For comparison, numerical and analytical results of stable period-1 motion are presented. The approximate spiral homoclinic orbits are demonstrated for a better understanding of complex dynamics of homoclinic orbits. Herein, only initial results on periodic motions to homoclinic orbits are presented for the Rossler system. In fact, the Rossler system has rich complex dynamics existing in other high-dimensional nonlinear systems. Thus, the further studies of bifurcation trees of periodic motions to infinite homoclinic orbits will be completed in sequel.
Rössler系统中双螺旋同斜轨道的周期1运动
本文给出了Rossler系统中双螺旋同斜轨道的周期1运动。通过隐式映射方法半解析地预测了随系统参数变化的周期运动,并通过特征值分析确定了周期运动的稳定性和分岔。通过具有正、负无穷大特征值的周期运动,得到了近似同斜轨道。周期-1运动分岔图的两个极限端点位于双螺旋同斜轨道上。为了比较,给出了稳定周期1运动的数值和分析结果。为了更好地理解同斜轨道的复杂动力学,给出了近似的螺旋同斜轨道。本文只给出了罗斯勒系统同斜轨道周期运动的初步结果。实际上,Rossler系统具有其他高维非线性系统所具有的丰富的复杂动力学特性。因此,无限同斜轨道周期运动的分岔树的进一步研究将在后续中完成。
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来源期刊
CiteScore
4.00
自引率
10.00%
发文量
72
审稿时长
6-12 weeks
期刊介绍: The purpose of the Journal of Computational and Nonlinear Dynamics is to provide a medium for rapid dissemination of original research results in theoretical as well as applied computational and nonlinear dynamics. The journal serves as a forum for the exchange of new ideas and applications in computational, rigid and flexible multi-body system dynamics and all aspects (analytical, numerical, and experimental) of dynamics associated with nonlinear systems. The broad scope of the journal encompasses all computational and nonlinear problems occurring in aeronautical, biological, electrical, mechanical, physical, and structural systems.
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