Impact of multiplexing noise on multilayer networks of bistable maps

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-10-16 DOI:10.1016/j.physd.2024.134397

N. Nikishina , E. Rybalova , A. Zakharova , G. Strelkova , T. Vadivasova

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Abstract

We explore numerically the complex dynamics of multilayer networks (consisting of three and one hundred layers) of cubic maps in the presence of noise-modulated interlayer coupling (multiplexing noise). The coupling strength is defined by independent discrete-time sources of color Gaussian noise. Uncoupled layers can demonstrate different complex structures, such as double-well chimeras, coherent and spatially incoherent regimes. Regions of partial synchronization of these structures are identified in the presence of multiplexing noise. We elucidate how synchronization of a three-layer network depends on the initially observed structures in the layers and construct synchronization regions in the plane of multiplexing noise parameters “noise spectrum width – noise intensity”. It is shown that in a hundred-layer network, clusters of synchronized layers can be formed at certain optimal values of multiplexing noise parameters. The performed numerical studies confidently indicate that the spatial dynamics of multilayer networks can be controlled by varying multiplexing noise parameters.

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多路复用噪声对双稳态映射多层网络的影响

我们从数值上探索了在噪声调制的层间耦合（复用噪声）存在的情况下，立方体地图多层网络（由三层和一百层组成）的复杂动态。耦合强度由独立的离散时间彩色高斯噪声源定义。无耦合层可显示出不同的复杂结构，如双孔嵌合体、相干和空间不相干状态。在存在多路复用噪声的情况下，可以识别出这些结构的部分同步区域。我们阐明了三层网络的同步如何取决于最初观察到的各层结构，并在多路复用噪声参数 "噪声频谱宽度-噪声强度 "平面上构建了同步区域。结果表明，在百层网络中，在复用噪声参数的某些最佳值下，可以形成同步层群。所进行的数值研究清楚地表明，多层网络的空间动力学可以通过改变多路复用噪声参数来控制。

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

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464