Inter-layer competition in adaptive multiplex network

Elena Pitsik; Vladimir Makarov; Daniil Kirsanov; Nikita Frolov; Mikhail Goremyko; Xuelong Li; Zhen Wang; Alexander Hramov; Stefano Boccaletti

doi:10.1088/1367-2630/aad00d

Inter-layer competition in adaptive multiplex network

Elena Pitsik, Vladimir Makarov, Daniil Kirsanov, Nikita Frolov, Mikhail Goremyko, Xuelong Li, Zhen Wang, Alexander Hramov, Stefano Boccaletti

School of Cybersecurity

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

We consider competition between layers in adaptive multiplex networks of phase oscillators, where adaptation principles (which cause intra-layer topology evolution) are inspired by real world homophily and homeostasis phenomena. Our model yields the emergence of both scale-free topologies and meso-scale structures in the layers, for an appropriate choice of the control parameters. We further report that the growth of the number of interacting layers leads to a decrease of the global order, due to inter-layer structural competition. However, the increase of the system's scale can effect local synchronization between neighboring (or strongly coupled) nodes. Such unforeseen phenomena is connected with the nature of the competitive mechanism, which implies the rivalry for optimal structure within the whole system, a situation occurring in a variety of natural systems.

Original language	English
Article number	075004
Journal	New Journal of Physics
Volume	20
Issue number	7
DOIs	https://doi.org/10.1088/1367-2630/aad00d
State	Published - Jul 2018

Keywords

homeostasis
homophily
inter-layer competition
multiplex network

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10.1088/1367-2630/aad00d

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title = "Inter-layer competition in adaptive multiplex network",

abstract = "We consider competition between layers in adaptive multiplex networks of phase oscillators, where adaptation principles (which cause intra-layer topology evolution) are inspired by real world homophily and homeostasis phenomena. Our model yields the emergence of both scale-free topologies and meso-scale structures in the layers, for an appropriate choice of the control parameters. We further report that the growth of the number of interacting layers leads to a decrease of the global order, due to inter-layer structural competition. However, the increase of the system's scale can effect local synchronization between neighboring (or strongly coupled) nodes. Such unforeseen phenomena is connected with the nature of the competitive mechanism, which implies the rivalry for optimal structure within the whole system, a situation occurring in a variety of natural systems.",

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AU - Pitsik, Elena

AU - Makarov, Vladimir

AU - Kirsanov, Daniil

AU - Frolov, Nikita

AU - Goremyko, Mikhail

AU - Li, Xuelong

AU - Wang, Zhen

AU - Hramov, Alexander

AU - Boccaletti, Stefano

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N2 - We consider competition between layers in adaptive multiplex networks of phase oscillators, where adaptation principles (which cause intra-layer topology evolution) are inspired by real world homophily and homeostasis phenomena. Our model yields the emergence of both scale-free topologies and meso-scale structures in the layers, for an appropriate choice of the control parameters. We further report that the growth of the number of interacting layers leads to a decrease of the global order, due to inter-layer structural competition. However, the increase of the system's scale can effect local synchronization between neighboring (or strongly coupled) nodes. Such unforeseen phenomena is connected with the nature of the competitive mechanism, which implies the rivalry for optimal structure within the whole system, a situation occurring in a variety of natural systems.

AB - We consider competition between layers in adaptive multiplex networks of phase oscillators, where adaptation principles (which cause intra-layer topology evolution) are inspired by real world homophily and homeostasis phenomena. Our model yields the emergence of both scale-free topologies and meso-scale structures in the layers, for an appropriate choice of the control parameters. We further report that the growth of the number of interacting layers leads to a decrease of the global order, due to inter-layer structural competition. However, the increase of the system's scale can effect local synchronization between neighboring (or strongly coupled) nodes. Such unforeseen phenomena is connected with the nature of the competitive mechanism, which implies the rivalry for optimal structure within the whole system, a situation occurring in a variety of natural systems.

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KW - homophily

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Inter-layer competition in adaptive multiplex network

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Keywords

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