Synchronization of Caputo fractional neural networks with bounded time variable delays

Synchronization of Caputo fractional neural networks with bounded time variable delays

One of the main problems connected with neural networks is synchronization. We examine a model of a neural network with time-varying delay and also the case when the connection weights (the influential strength of the jjth neuron to the iith neuron) are variable in time and unbounded. The rate of ch...

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Bibliographic Details
Main Authors: Almeida Ricardo, Hristova Snezhana, Tersian Stepan
Format: article
Language:EN
Published: De Gruyter 2021
Subjects:
nonlinear neural networks
delay
synchronization
lyapunov functions
34-xx
39-xx
44-xx
Mathematics
QA1-939
Online Access:https://doaj.org/article/37a9c892c506427d90a0e3dfed16b616
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Summary:One of the main problems connected with neural networks is synchronization. We examine a model of a neural network with time-varying delay and also the case when the connection weights (the influential strength of the jjth neuron to the iith neuron) are variable in time and unbounded. The rate of change of the dynamics of all neurons is described by the Caputo fractional derivative. We apply Lyapunov functions and the Razumikhin method to obtain some sufficient conditions to ensure synchronization in the model. These sufficient conditions are explicitly expressed in terms of the parameters of the system, and hence, they are easily verifiable. We illustrate our theory with a particular nonlinear neural network.

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