Clustering of noise-induced oscillations

Olga Sosnovtseva; A I Fomin; D E Postnov; V S Anishchenko

Clustering of noise-induced oscillations

Olga Sosnovtseva, A I Fomin, D E Postnov, V S Anishchenko

Nyre- og Karforskning

16 Citationer (Scopus)

Abstract

The subject of our study is clustering in a population of excitable systems driven by Gaussian white noise and with randomly distributed coupling strength. The cluster state is frequency-locked state in which all functional units run at the same noise-induced frequency. Cooperative dynamics of this regime is described in terms of effective synchronization and noise-induced coherence.

Originalsprog	Engelsk
Tidsskrift	Physical Review E (Statistical, Nonlinear, and Soft Matter Physics)
Vol/bind	64
Udgave nummer	2 Pt 2
Sider (fra-til)	026204
ISSN	1539-3755
Status	Udgivet - 1 aug. 2001

Citationsformater

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title = "Clustering of noise-induced oscillations",

abstract = "The subject of our study is clustering in a population of excitable systems driven by Gaussian white noise and with randomly distributed coupling strength. The cluster state is frequency-locked state in which all functional units run at the same noise-induced frequency. Cooperative dynamics of this regime is described in terms of effective synchronization and noise-induced coherence.",

author = "Olga Sosnovtseva and Fomin, {A I} and Postnov, {D E} and Anishchenko, {V S}",

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T1 - Clustering of noise-induced oscillations

AU - Sosnovtseva, Olga

AU - Fomin, A I

AU - Postnov, D E

AU - Anishchenko, V S

PY - 2001/8/1

Y1 - 2001/8/1

N2 - The subject of our study is clustering in a population of excitable systems driven by Gaussian white noise and with randomly distributed coupling strength. The cluster state is frequency-locked state in which all functional units run at the same noise-induced frequency. Cooperative dynamics of this regime is described in terms of effective synchronization and noise-induced coherence.

AB - The subject of our study is clustering in a population of excitable systems driven by Gaussian white noise and with randomly distributed coupling strength. The cluster state is frequency-locked state in which all functional units run at the same noise-induced frequency. Cooperative dynamics of this regime is described in terms of effective synchronization and noise-induced coherence.

M3 - Journal article

C2 - 11497674

SN - 2470-0045

VL - 64

SP - 026204

JO - Physical Review E

JF - Physical Review E

IS - 2 Pt 2

ER -

Clustering of noise-induced oscillations

Abstract

Fingeraftryk

Citationsformater