Scalable synchronization cluster in networked chaotic oscillators

arXiv - PHYS - Pattern Formation and Solitons Pub Date : 2024-05-14 DOI:arxiv-2405.08844

Huawei Fan, Yafeng Wang, Yao Du, Haibo Qiu, Xingang Wang

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Abstract

Cluster synchronization in synthetic networks of coupled chaotic oscillators is investigated. It is found that despite the asymmetric nature of the network structure, a subset of the oscillators can be synchronized as a cluster while the other oscillators remain desynchronized. Interestingly, with the increase of the coupling strength, the cluster is expanding gradually by recruiting the desynchronized oscillators one by one. This new synchronization phenomenon, which is named ``scalable synchronization cluster", is explored theoretically by the method of eigenvector-based analysis, and it is revealed that the scalability of the cluster is attributed to the unique feature of the eigenvectors of the network coupling matrix. The transient dynamics of the cluster in response to random perturbations are also studied, and it is shown that in restoring to the synchronization state, oscillators inside the cluster are stabilized in sequence, illustrating again the hierarchy of the oscillators. The findings shed new light on the collective behaviors of networked chaotic oscillators, and are helpful for the design of real-world networks where scalable synchronization clusters are concerned.

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网络混沌振荡器中的可扩展同步集群

研究了耦合混沌振荡器合成网络中的簇同步。研究发现，尽管网络结构具有不对称的性质，但振荡器的一个子集可以作为一个簇同步，而其他振荡器则保持不同步。有趣的是，随着耦合强度的增加，簇会通过逐个招募非同步振荡器而逐渐扩大。这种新的同步现象被命名为 "可扩展同步簇"，我们用基于特征向量的分析方法对其进行了理论探讨，发现簇的可扩展性归因于网络耦合矩阵特征向量的独特性。此外，还研究了集群在随机扰动下的瞬态动力学，结果表明，在恢复到同步状态时，集群内部的振荡器依次趋于稳定，这再次说明了振荡器的层次结构。这些发现为网络混沌振荡器的集体行为提供了新的启示，有助于设计可扩展同步集群的现实世界网络。

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 - Pattern Formation and Solitons

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