Homogeneous-per-layer patterns in multiplex networks

Daniel M. Busiello; Timoteo Carletti; Duccio Fanelli

doi:https://doi.org/10.1209/0295-5075/121/48006

Homogeneous-per-layer patterns in multiplex networks

Daniel M. Busiello, Timoteo Carletti, Duccio Fanelli

Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs

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Résumé

A new class of patterns for multiplex networks is studied, which consists in a collection of different homogeneous states each referred to a distinct layer. The associated stability diagram exhibits a tricritical point, as a function of the inter-layer diffusion coefficients. The patterns, made of alternating homogeneous layers of networks, are dynamically selected via non-homogeneous perturbations superposed to the underlying, globally homogeneous, fixed point and by properly modulating the coupling strength between layers. Furthermore, layer-homogeneous fixed points can turn unstable following a mechanism à la Turing, instigated by the intra-layer diffusion. This novel class of solutions enriches the spectrum of dynamical phenomena as displayed within the variegated realm of multiplex science.

langue originale	Anglais
Pages (de - à)	48006-p1 - p7
Nombre de pages	7
journal	Europhysics Letters
Volume	121
Numéro de publication	4
Les DOIs	https://doi.org/10.1209/0295-5075/121/48006
Etat de la publication	Publié - 4 févr. 2018

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https://doi.org/10.1209/0295-5075/121/48006

EPL_121_2018pp48006Version finale publiée, 3,37 MB

http://iopscience.iop.org/article/10.1209/0295-5075/121/48006

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1 Terminé
1 Actif

Reaction-diffusion equations: the role of geometry and granularity
Carletti, T. & Fuzfa, A.
3/10/11 → …
Projet: Recherche
PAI n°P7/19 - DYSCO: Dynamical systems, control and optimization (DYSCO)
Winkin, J., Blondel, V., Vandewalle, J., Pintelon, R., Sepulchre, R., Vande Wouwer, A. & Sartenaer, A.
1/04/12 → 30/09/17
Projet: Recherche

Contient cette citation

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title = "Homogeneous-per-layer patterns in multiplex networks",

abstract = "A new class of patterns for multiplex networks is studied, which consists in a collection of different homogeneous states each referred to a distinct layer. The associated stability diagram exhibits a tricritical point, as a function of the inter-layer diffusion coefficients. The patterns, made of alternating homogeneous layers of networks, are dynamically selected via non-homogeneous perturbations superposed to the underlying, globally homogeneous, fixed point and by properly modulating the coupling strength between layers. Furthermore, layer-homogeneous fixed points can turn unstable following a mechanism {\`a} la Turing, instigated by the intra-layer diffusion. This novel class of solutions enriches the spectrum of dynamical phenomena as displayed within the variegated realm of multiplex science.",

keywords = "turing patterns, dynamical systems, reaction diffusion, complex network",

author = "Busiello, {Daniel M.} and Timoteo Carletti and Duccio Fanelli",

note = "Funding Information: The work of TC presents research results of the Belgian Network DYSCO (Dynamical Systems, Control, and Optimization), funded by the Interuniversity Attraction Poles Programme, initiated by the Belgian State, Science Policy Office. The scientific responsibility rests with its author(s). DF acknowledges financial support from H2020-MSCA-ITN-2015 project COSMOS 642563. Publisher Copyright: {\textcopyright} CopyrightEPLA, 2018.",

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doi = "https://doi.org/10.1209/0295-5075/121/48006",

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AU - Busiello, Daniel M.

AU - Carletti, Timoteo

AU - Fanelli, Duccio

N1 - Funding Information: The work of TC presents research results of the Belgian Network DYSCO (Dynamical Systems, Control, and Optimization), funded by the Interuniversity Attraction Poles Programme, initiated by the Belgian State, Science Policy Office. The scientific responsibility rests with its author(s). DF acknowledges financial support from H2020-MSCA-ITN-2015 project COSMOS 642563. Publisher Copyright: © CopyrightEPLA, 2018.

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N2 - A new class of patterns for multiplex networks is studied, which consists in a collection of different homogeneous states each referred to a distinct layer. The associated stability diagram exhibits a tricritical point, as a function of the inter-layer diffusion coefficients. The patterns, made of alternating homogeneous layers of networks, are dynamically selected via non-homogeneous perturbations superposed to the underlying, globally homogeneous, fixed point and by properly modulating the coupling strength between layers. Furthermore, layer-homogeneous fixed points can turn unstable following a mechanism à la Turing, instigated by the intra-layer diffusion. This novel class of solutions enriches the spectrum of dynamical phenomena as displayed within the variegated realm of multiplex science.

AB - A new class of patterns for multiplex networks is studied, which consists in a collection of different homogeneous states each referred to a distinct layer. The associated stability diagram exhibits a tricritical point, as a function of the inter-layer diffusion coefficients. The patterns, made of alternating homogeneous layers of networks, are dynamically selected via non-homogeneous perturbations superposed to the underlying, globally homogeneous, fixed point and by properly modulating the coupling strength between layers. Furthermore, layer-homogeneous fixed points can turn unstable following a mechanism à la Turing, instigated by the intra-layer diffusion. This novel class of solutions enriches the spectrum of dynamical phenomena as displayed within the variegated realm of multiplex science.

KW - turing patterns

KW - dynamical systems

KW - reaction diffusion

KW - complex network

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SN - 0295-5075

VL - 121

SP - 48006-p1 - p7

JO - Europhysics Letters

JF - Europhysics Letters

IS - 4

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Homogeneous-per-layer patterns in multiplex networks

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Reaction-diffusion equations: the role of geometry and granularity

PAI n°P7/19 - DYSCO: Dynamical systems, control and optimization (DYSCO)

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