On the Number of Coexisting Autowaves in the Chain of Coupled Oscillators

On the Number of Coexisting Autowaves in the Chain of Coupled Oscillators

We consider a model of neuron complex formed by a chain of diffusion coupled oscillators. Every oscillator simulates a separate neuron and is given by a singularly perturbed nonlinear differential-difference equation with two delays. Oscillator singularity allows reduction to limit system without sm...

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Bibliographic Details
Main Authors: Y. V. Bogomolov, S. D. GlyzinA, A. Yu. Kolesov
Format: Article
Language:English
Published: Yaroslavl State University 2014-10-01
Series:Моделирование и анализ информационных систем
Subjects:
difference-differential equations
relaxation cycle
autowaves
stability
buffering
bursting
Online Access:https://www.mais-journal.ru/jour/article/view/92
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Summary:We consider a model of neuron complex formed by a chain of diffusion coupled oscillators. Every oscillator simulates a separate neuron and is given by a singularly perturbed nonlinear differential-difference equation with two delays. Oscillator singularity allows reduction to limit system without small parameters but with pulse external action. The statement on correspondence between the resulting system with pulse external action and the original oscillator chain gives a way to demonstrate that under consistent growth of the chain node number and decrease of diffusion coefficient we can obtain in this chain unlimited growth of its coexistent stable periodic orbits (buffer phenomenon). Numerical simulations give the actual dependence of the number of stable orbits on the diffusion parameter value.
ISSN:1818-1015
2313-5417

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