Article ID Journal Published Year Pages File Type
5471160 Applied Mathematical Modelling 2017 31 Pages PDF
Abstract
Synchronization which relates to the system's stability is important to many engineering and neural applications. In this paper, an attempt has been made to implement response synchronization using coupling mechanism for a class of nonlinear neural systems. We propose an OPCL (open-plus-closed-loop) coupling method to investigate the synchronization state of driver-response neural systems, and to understand how the behavior of these coupled systems depend on their inner dynamics. We have investigated a general method of coupling for generalized synchronization (GS) in 3D modified spiking and bursting Morris-Lecar (M-L) neural models. We have also presented the synchronized behavior of a network of four bursting Hindmarsh-Rose (H-R) neural oscillators using a bidirectional coupling mechanism. We can extend the coupling scheme to a network of N neural oscillators to reach the desired synchronous state. To make the investigations more promising, we consider another coupling method to a network of H-R oscillators using bidirectional ring type connections and present the effectiveness of the coupling scheme.
Related Topics
Physical Sciences and Engineering Engineering Computational Mechanics
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