Disorder-Induced Dynamics in Complex Networks

IF 1.9 4区数学 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

International Journal of Bifurcation and Chaos Pub Date : 2024-04-18 DOI:10.1142/s0218127424300106

Antonio Palacios, Visarath In, Mani Amani

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引用次数: 0

Abstract

Disorder in parameters appears to influence the collective behavior of complex adaptive networks in ways that might seem unconventional. For instance, heterogeneities may, unexpectedly, lead to enhanced regions of existence of stable synchronization states. This behavior is unexpected because synchronization appears, generically, in symmetric networks with homogeneous components. Related works have, however, misidentified cases where disorder seems to play a critical role in enhancing synchronization, where it is actually not the case. Thus, in order to clarify the role of disorder in adaptive networks, we use normal forms to study, mathematically, when and how the presence of disorder can facilitate the emergence of collective patterns. We employ parameter symmetry breaking to study the interplay between disorder and the underlying bifurcations that determine the conditions for the existence and stability of collective behavior. This work provides a rigorous justification for a certain barycentric condition to be imposed on the heterogeneity of the parameters while studying the synchronization state. Theoretical results are accompanied by numerical simulations, which help clarify incorrect claims of disorder purportedly enhancing synchronization states.

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复杂网络中的无序动力学

参数紊乱似乎会以看似非常规的方式影响复杂自适应网络的集体行为。例如，异质性可能会出人意料地导致稳定同步状态的存在区域增强。这种行为出乎意料，因为同步一般出现在具有同质成分的对称网络中。然而，相关研究却误认为无序性似乎在增强同步性方面发挥了关键作用，而实际上并非如此。因此，为了澄清无序在自适应网络中的作用，我们使用正态形式从数学角度研究无序的存在何时以及如何促进集体模式的出现。我们利用参数对称性破缺来研究无序与基本分岔之间的相互作用，这些分岔决定了集体行为存在和稳定的条件。这项工作为在研究同步状态时对参数的异质性施加一定的重心条件提供了严格的理由。理论结果与数值模拟相辅相成，有助于澄清所谓增强同步状态的无序性的错误说法。

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.