English

Master stability functions for complete, intra-layer and inter-layer synchronization in multiplex networks

Chaotic Dynamics 2019-01-09 v2 Physics and Society

Abstract

Synchronization phenomena are of broad interest across disciplines and increasingly of interest in a multiplex network setting. Here we show how the Master Stability Function, a celebrated framework for analyzing synchronization on a single network, can be extended to certain classes of multiplex networks with different intra-layer and inter-layer coupling functions. We derive three master stability equations that determine respectively the necessary regions of complete synchronization, intra-layer synchronization and inter-layer synchronization. We calculate these three regions explicitly for the case of a two-layer network of R{\"o}ssler oscillators and show that the overlap of the regions determines the type of synchronization achieved. In particular, if the inter- or intra-layer coupling function is such that the inter-layer or intra-layer synchronization region is empty, complete synchronization cannot be achieved regardless of the coupling strength. Furthermore, for any given nodal dynamics and network structure, the occurrence of intra-layer and inter-layer synchronization depend mainly on the coupling functions of nodes within a layer and across layers, respectively. Our mathematical analysis requires that the intra- and inter-layer supra-Laplacians commute. But we show this is only a sufficient, and not necessary, condition and that the results can be applied more generally.

Keywords

Cite

@article{arxiv.1611.09110,
  title  = {Master stability functions for complete, intra-layer and inter-layer synchronization in multiplex networks},
  author = {Longkun Tang and Xiaoqun Wu and Jinhu Lü and Jun-an Lu and Raissa M. D'Souza},
  journal= {arXiv preprint arXiv:1611.09110},
  year   = {2019}
}

Comments

30 pages, 12 figures

R2 v1 2026-06-22T17:06:19.150Z