Controlling chaos and codimension-two bifurcation in a discrete fractional-order Brusselator model

IF 2.3 3区工程技术 Q2 ACOUSTICS

Journal of Vibration and Control Pub Date : 2024-07-22 DOI:10.1177/10775463241267033

Qamar Din

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Abstract

This paper explores the qualitative behavior of a discrete fractional–order Brusselator model. We analyze the local dynamics of the model around its fixed point and determine its topological classification. We perform the bifurcation analysis for both codimension-one and codimension-two cases to examine the system behavior near critical parameter values. Using normal form theory and center manifold theorem (CMT), we prove that the model exhibits period-doubling bifurcation around its interior fixed point. We also study the existence and direction of Neimark–Sacker bifurcation using normal form theory. For codimension-two bifurcation, we show that the model undergoes 1:2, 1:3, and 1:4 resonances by applying normal form theory and suitable affine transformations. The system displays a rich variety of bifurcations, including quasi–periodicity, periodic orbits, chaotic behavior, and resonance bifurcation. Furthermore, the existence of chaos is discussed in the sense of Marotto, and a novel chaos control method is proposed for discrete Brusselator model using an extended pole–placement approach. This modified approach is more suitable for codimension-two bifurcation situations. Numerical simulations are used to illustrate the theoretical discussion.

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控制离散分数阶布鲁塞尔子模型中的混沌和二维分岔

本文探讨了离散分数阶布鲁塞尔子模型的定性行为。我们分析了模型在其定点附近的局部动力学，并确定了其拓扑分类。我们对标度一和标度二的情况进行了分岔分析，以研究临界参数值附近的系统行为。利用正态形式理论和中心流形定理（CMT），我们证明了模型在其内部定点附近表现出周期加倍分岔。我们还利用正态形式理论研究了 Neimark-Sacker 分岔的存在性和方向。对于二维分岔，我们运用正态形式理论和适当的仿射变换证明了该模型经历了 1:2、1:3 和 1:4 共振。该系统显示出丰富多样的分岔，包括准周期性、周期轨道、混沌行为和共振分岔。此外，还在 Marotto 的意义上讨论了混沌的存在，并针对离散布鲁塞尔器模型提出了一种新的混沌控制方法，该方法使用了一种扩展的极点置换方法。这种改进方法更适用于二维分岔情况。数值模拟用于说明理论讨论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Vibration and Control 工程技术-工程：机械

CiteScore

5.20

自引率

17.90%

发文量

336

审稿时长

6 months

期刊介绍： The Journal of Vibration and Control is a peer-reviewed journal of analytical, computational and experimental studies of vibration phenomena and their control. The scope encompasses all linear and nonlinear vibration phenomena and covers topics such as: vibration and control of structures and machinery, signal analysis, aeroelasticity, neural networks, structural control and acoustics, noise and noise control, waves in solids and fluids and shock waves.