Stability, Bifurcation and Dynamics in a Network with Delays

IF 1.9 4区数学 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS International Journal of Bifurcation and Chaos Pub Date : 2024-03-12 DOI:10.1142/s0218127424500251

Xu Xu, Jianming Liu

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Abstract

In real-world networks, due to complex topological structures and uncertainties such as time delays, uncontrolled systems may generate instability and complexity, thereby degrading network performance. This paper provides a detailed analysis of the stability, Hopf bifurcation, and complex dynamics of a networked system under delayed feedback control. Based on the linear stability method and Hopf bifurcation theorem, the stability of the equilibrium of the error system and the existence of Hopf bifurcation are studied. The stability of periodic solutions bifurcating from the trivial equilibrium is analyzed using normal form theory and central manifold theorem. Special focus is on the effects of the network topology and time delays on the stability and Hopf bifurcation. The theoretical results are also extended to the complex networks with asymmetric adjacent matrices. In addition, the controlled model exhibits complicated dynamical behavior via three types of codimension two bifurcations and period-doubling bifurcations that eventually lead to chaos. Numerical experiments have validated the theoretical results and indicated that delayed feedback control can effectively generate or annihilate the complicated behavior of complex networks.

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有延迟网络的稳定性、分岔和动态性

在现实世界的网络中，由于复杂的拓扑结构和时间延迟等不确定因素，不受控制的系统可能会产生不稳定性和复杂性，从而降低网络性能。本文详细分析了延迟反馈控制下网络系统的稳定性、霍普夫分岔和复杂动力学。基于线性稳定性方法和霍普夫分岔定理，研究了误差系统平衡的稳定性和霍普夫分岔的存在性。利用正则表达式理论和中心流形定理分析了从微分平衡分岔出的周期解的稳定性。重点分析了网络拓扑结构和时间延迟对稳定性和霍普夫分岔的影响。理论结果还扩展到了具有非对称相邻矩阵的复杂网络。此外，受控模型通过三种类型的二维分岔和周期加倍分岔表现出复杂的动力学行为，最终导致混沌。数值实验验证了理论结果，并表明延迟反馈控制能有效产生或消除复杂网络的复杂行为。

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

International Journal of Bifurcation and Chaos 数学-数学跨学科应用

CiteScore

4.10

自引率

13.60%

发文量

237

审稿时长

2-4 weeks

期刊介绍： The International Journal of Bifurcation and Chaos is widely regarded as a leading journal in the exciting fields of chaos theory and nonlinear science. Represented by an international editorial board comprising top researchers from a wide variety of disciplines, it is setting high standards in scientific and production quality. The journal has been reputedly acclaimed by the scientific community around the world, and has featured many important papers by leading researchers from various areas of applied sciences and engineering. The discipline of chaos theory has created a universal paradigm, a scientific parlance, and a mathematical tool for grappling with complex dynamical phenomena. In every field of applied sciences (astronomy, atmospheric sciences, biology, chemistry, economics, geophysics, life and medical sciences, physics, social sciences, ecology, etc.) and engineering (aerospace, chemical, electronic, civil, computer, information, mechanical, software, telecommunication, etc.), the local and global manifestations of chaos and bifurcation have burst forth in an unprecedented universality, linking scientists heretofore unfamiliar with one another''s fields, and offering an opportunity to reshape our grasp of reality.