Cycle-Star Motifs: Network Response to Link Modifications

arXiv - PHYS - Chaotic Dynamics Pub Date : 2024-09-02 DOI:arxiv-2409.01244

Sajjad Bakrani, Narcicegi Kiran, Deniz Eroglu, Tiago Pereira

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Abstract

Understanding efficient modifications to improve network functionality is a fundamental problem of scientific and industrial interest. We study the response of network dynamics against link modifications on a weakly connected directed graph consisting of two strongly connected components: an undirected star and an undirected cycle. We assume that there are directed edges starting from the cycle and ending at the star (master-slave formalism). We modify the graph by adding directed edges of arbitrarily large weights starting from the star and ending at the cycle (opposite direction of the cutset). We provide criteria (based on the sizes of the star and cycle, the coupling structure, and the weights of cutset and modification edges) that determine how the modification affects the spectral gap of the Laplacian matrix. We apply our approach to understand the modifications that either enhance or hinder synchronization in networks of chaotic Lorenz systems as well as R\"ossler. Our results show that the hindrance of collective dynamics due to link additions is not atypical as previously anticipated by modification analysis and thus allows for better control of collective properties.

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循环-星形图案：网络对链接修改的响应

了解有效的修改以提高网络功能是科学界和工业界关注的一个基本问题。我们研究了弱连接有向图（由两个强连接部分组成）上的链接修改对网络动力学的影响：一个无向星和一个无向循环。我们假设存在从循环开始到星形结束的有向边（主从形式）。我们通过添加任意大权重的有向边来修改图，这些有向边从星形开始，到循环结束（切割集的相反方向）。我们提供的标准（基于星形和周期的大小、耦合结构以及剪切集和修改边的权重）决定了修改如何影响拉普拉斯矩阵的谱间隙。我们运用这种方法来理解在混沌洛伦兹系统和 R\"ossler 网络中增强或阻碍同步化的修改。我们的研究结果表明，链路添加对集体动力学的阻碍并不像之前的修正分析所预期的那样非典型，因此可以更好地控制集体特性。

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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arXiv - PHYS - Chaotic Dynamics

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