The Impulse-Refractive Mode in the Neural Network with Ring Synaptic Interaction

The Impulse-Refractive Mode in the Neural Network with Ring Synaptic Interaction

In the paper, a mathematical model of a neural network with an even number of ring synaptic interaction elements is considered. The model is a system of scalar nonlinear differentialdifference equations, the right parts of which depend on large parameters. The unknown functions included in the syste...

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Bibliographic Details
Main Author: Margarita M. Preobrazhenskaia
Format: Article
Language:English
Published: Yaroslavl State University 2017-10-01
Series:Modelirovanie i Analiz Informacionnyh Sistem
Subjects:
relaxation oscillations
delay
large parameter
synaptic connection
Online Access:https://www.mais-journal.ru/jour/article/view/580
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spelling doaj-8a6d8a6758e747c49c3352c05c1ab22a2021-07-29T08:15:15ZengYaroslavl State UniversityModelirovanie i Analiz Informacionnyh Sistem1818-10152313-54172017-10-0124555056610.18255/1818-1015-2017-5-550-566422The Impulse-Refractive Mode in the Neural Network with Ring Synaptic InteractionMargarita M. Preobrazhenskaia0P.G. Demidov Yaroslavl State University; Scientific Center in Chernogolovka RASIn the paper, a mathematical model of a neural network with an even number of ring synaptic interaction elements is considered. The model is a system of scalar nonlinear differentialdifference equations, the right parts of which depend on large parameters. The unknown functions included in the system characterize the membrane potentials of the neurons. The search of special impulse-refraction cycles within the system of equations is of interest. The functions with odd numbers of the impulse-refraction cycle have an asymptotically high pulses and the functions with even numbers are asymptotically small. Two changes allow to study a two-dimension nonlinear differential-difference system with two delays instead of the system. Further, a limit object that represents a relay system with two delays is defined by a large parameter tending to infinity. There exists the only periodic solution of the relay system with the initial function from a suitable function class. This is structurally proved, by using the step method. Next, the existence of relaxation periodic solutions of the two-dimension singularly perturbed system is proved by using the Poincare operator and the Schauder principle. The asymptotics of this solution is constructed, and it is proved that the solution is close to the decision of the relay system. Because of the exponential estimate of the Frechet derivative of the Poincare operator it implies the uniqueness and stability of solutions of the two-dimension differential-difference equation with two delays. Furthermore, with the help of reverse replacement the proved result is transferred to the original system.https://www.mais-journal.ru/jour/article/view/580relaxation oscillationsdelaylarge parametersynaptic connection
collection DOAJ
language English
format Article
sources DOAJ
author Margarita M. Preobrazhenskaia
spellingShingle Margarita M. Preobrazhenskaia
The Impulse-Refractive Mode in the Neural Network with Ring Synaptic Interaction
Modelirovanie i Analiz Informacionnyh Sistem
relaxation oscillations
delay
large parameter
synaptic connection
author_facet Margarita M. Preobrazhenskaia
author_sort Margarita M. Preobrazhenskaia
title The Impulse-Refractive Mode in the Neural Network with Ring Synaptic Interaction
title_short The Impulse-Refractive Mode in the Neural Network with Ring Synaptic Interaction
title_full The Impulse-Refractive Mode in the Neural Network with Ring Synaptic Interaction
title_fullStr The Impulse-Refractive Mode in the Neural Network with Ring Synaptic Interaction
title_full_unstemmed The Impulse-Refractive Mode in the Neural Network with Ring Synaptic Interaction
title_sort impulse-refractive mode in the neural network with ring synaptic interaction
publisher Yaroslavl State University
series Modelirovanie i Analiz Informacionnyh Sistem
issn 1818-1015
2313-5417
publishDate 2017-10-01
description In the paper, a mathematical model of a neural network with an even number of ring synaptic interaction elements is considered. The model is a system of scalar nonlinear differentialdifference equations, the right parts of which depend on large parameters. The unknown functions included in the system characterize the membrane potentials of the neurons. The search of special impulse-refraction cycles within the system of equations is of interest. The functions with odd numbers of the impulse-refraction cycle have an asymptotically high pulses and the functions with even numbers are asymptotically small. Two changes allow to study a two-dimension nonlinear differential-difference system with two delays instead of the system. Further, a limit object that represents a relay system with two delays is defined by a large parameter tending to infinity. There exists the only periodic solution of the relay system with the initial function from a suitable function class. This is structurally proved, by using the step method. Next, the existence of relaxation periodic solutions of the two-dimension singularly perturbed system is proved by using the Poincare operator and the Schauder principle. The asymptotics of this solution is constructed, and it is proved that the solution is close to the decision of the relay system. Because of the exponential estimate of the Frechet derivative of the Poincare operator it implies the uniqueness and stability of solutions of the two-dimension differential-difference equation with two delays. Furthermore, with the help of reverse replacement the proved result is transferred to the original system.
topic relaxation oscillations
delay
large parameter
synaptic connection
url https://www.mais-journal.ru/jour/article/view/580
work_keys_str_mv AT margaritampreobrazhenskaia theimpulserefractivemodeintheneuralnetworkwithringsynapticinteraction
AT margaritampreobrazhenskaia impulserefractivemodeintheneuralnetworkwithringsynapticinteraction
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