Interlayer adaptation-induced explosive synchronization in multiplex networks

arXiv: Adaptation and Self-Organizing Systems Pub Date : 2019-10-23 DOI:10.1103/PHYSREVRESEARCH.2.023259

Anil Kumar, Ajay Deep Kachhvah, S. Jalan

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引用次数: 20

Abstract

It is known that intra-layer adaptive coupling among connected oscillators instigates explosive synchronization (ES) in multilayer networks. Taking an altogether different cue in the present work, we consider inter-layer adaptive coupling in a multiplex network of phase oscillators and show that the scheme gives rise to ES with an associated hysteresis irrespective of the network architecture of individual layers. The hysteresis is shaped by the inter-layer coupling strength and the frequency mismatch between the mirror nodes. We provide rigorous mean-field analytical treatment for the measure of global coherence and manifest they are in a good match with respective numerical assessments. Moreover, the analytical predictions provide a complete insight into how adaptive multiplexing suppresses the formation of a giant cluster, eventually giving birth to ES. The study will help in spotlighting the role of multiplexing in the emergence of ES in real-world systems represented by multilayer architecture. Particularly, it is relevant to those systems which have limitations towards change in intra-layer coupling strength.

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多路网络层间自适应诱导的爆炸同步

在多层网络中，相互连接的振子之间的层内自适应耦合导致了爆炸同步。在本工作中采用完全不同的线索，我们考虑了相位振荡器多路网络中的层间自适应耦合，并表明该方案会产生具有相关滞后的ES，而与各个层的网络结构无关。磁滞是由层间耦合强度和镜像节点之间的频率不匹配决定的。我们为全球一致性的测量提供了严格的平均场分析处理，并表明它们与各自的数值评估相匹配。此外，分析预测提供了一个完整的见解，即自适应多路复用如何抑制巨大集群的形成，最终产生ES。该研究将有助于突出多路复用在以多层体系结构为代表的现实系统中ES出现中的作用。特别是与那些对层内耦合强度变化有限制的系统有关。

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: Adaptation and Self-Organizing Systems

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