Non-normal amplification of stochastic quasicycles

Sara Nicoletti; Niccolò Zagli; Duccio Fanelli; Roberto Livi; Timoteo Carletti; Giacomo Innocenti

doi:10.1103/PhysRevE.98.032214

Non-normal amplification of stochastic quasicycles

Sara Nicoletti, Niccolò Zagli, Duccio Fanelli, Roberto Livi, Timoteo Carletti, Giacomo Innocenti

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Résumé

Stochastic quasicycles for a two-species model of the excitatory-inhibitory type, arranged on a triangular loop, are studied. By increasing the strength of the internode coupling, one moves the system towards the Hopf bifurcation, and the amplitude of the stochastic oscillations is consequently magnified. When the system is instead constrained to evolve on specific manifolds, selected so as to return a constant rate of deterministic damping for the perturbations, the observed amplification correlates with the degree of non-normal reactivity, here quantified by the numerical abscissa. The thermodynamics of the reactive loop is also investigated and the degree of inherent reactivity shown to facilitate the out-of-equilibrium exploration of the available phase space

langue originale	Anglais
Numéro d'article	032214
Pages (de - à)	032214-1-11
Nombre de pages	11
journal	Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
Volume	98
Numéro de publication	3
Les DOIs	https://doi.org/10.1103/PhysRevE.98.032214
Etat de la publication	Publié - 20 sept. 2018

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10.1103/PhysRevE.98.032214

PRE_98_2018_pp032214Version finale publiée, 1,05 MB

https://journals.aps.org/pre/abstract/10.1103/PhysRevE.98.032214

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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 = "Non-normal amplification of stochastic quasicycles",

abstract = "Stochastic quasicycles for a two-species model of the excitatory-inhibitory type, arranged on a triangular loop, are studied. By increasing the strength of the internode coupling, one moves the system towards the Hopf bifurcation, and the amplitude of the stochastic oscillations is consequently magnified. When the system is instead constrained to evolve on specific manifolds, selected so as to return a constant rate of deterministic damping for the perturbations, the observed amplification correlates with the degree of non-normal reactivity, here quantified by the numerical abscissa. The thermodynamics of the reactive loop is also investigated and the degree of inherent reactivity shown to facilitate the out-of-equilibrium exploration of the available phase space",

keywords = "stochastic dynamics, quasi cycle, non-normality, Wilson-Cowan model",

author = "Sara Nicoletti and Niccol{\`o} Zagli and Duccio Fanelli and Roberto Livi and Timoteo Carletti and Giacomo Innocenti",

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T1 - Non-normal amplification of stochastic quasicycles

AU - Nicoletti, Sara

AU - Zagli, Niccolò

AU - Fanelli, Duccio

AU - Livi, Roberto

AU - Carletti, Timoteo

AU - Innocenti, Giacomo

PY - 2018/9/20

Y1 - 2018/9/20

N2 - Stochastic quasicycles for a two-species model of the excitatory-inhibitory type, arranged on a triangular loop, are studied. By increasing the strength of the internode coupling, one moves the system towards the Hopf bifurcation, and the amplitude of the stochastic oscillations is consequently magnified. When the system is instead constrained to evolve on specific manifolds, selected so as to return a constant rate of deterministic damping for the perturbations, the observed amplification correlates with the degree of non-normal reactivity, here quantified by the numerical abscissa. The thermodynamics of the reactive loop is also investigated and the degree of inherent reactivity shown to facilitate the out-of-equilibrium exploration of the available phase space

AB - Stochastic quasicycles for a two-species model of the excitatory-inhibitory type, arranged on a triangular loop, are studied. By increasing the strength of the internode coupling, one moves the system towards the Hopf bifurcation, and the amplitude of the stochastic oscillations is consequently magnified. When the system is instead constrained to evolve on specific manifolds, selected so as to return a constant rate of deterministic damping for the perturbations, the observed amplification correlates with the degree of non-normal reactivity, here quantified by the numerical abscissa. The thermodynamics of the reactive loop is also investigated and the degree of inherent reactivity shown to facilitate the out-of-equilibrium exploration of the available phase space

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KW - non-normality

KW - Wilson-Cowan model

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ER -

Non-normal amplification of stochastic quasicycles

Résumé

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Projets

Reaction-diffusion equations: the role of geometry and granularity

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

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