Synchrony in stochastically driven neuronal networks with complex topologies

Abstract: We study the synchronization of a stochastically driven, current-based, integrate-and-fire neuronal model on a preferential-attachment network with scale-free characteristics and high clustering. The synchrony is induced by cascading total firing events where every neuron in the network fires at the same instant of time. We show that in the regime where the system remains in this highly synchronous state, the firing rate of the network is completely independent of the synaptic coupling, and depends solely on t… Show more

“…In the following, in order to discuss conveniently, we abbreviate ( ) as . According to (3) and (4), the dynamical network model can be acquired as follows:…”

“…As one of the most important collective behaviors, synchronization phenomena have been a topic of research. This topic occurs in physical science field and mathematics field for quite some time [3][4][5]. Several books and reviews [6,7] which deal with this topic have also appeared.…”

Exponential Synchronization for Second-Order Nodes in Complex Dynamical Network with Communication Time Delays and Switching Topologies

“…In the following, in order to discuss conveniently, we abbreviate ( ) as . According to (3) and (4), the dynamical network model can be acquired as follows:…”

“…As one of the most important collective behaviors, synchronization phenomena have been a topic of research. This topic occurs in physical science field and mathematics field for quite some time [3][4][5]. Several books and reviews [6,7] which deal with this topic have also appeared.…”

Exponential Synchronization for Second-Order Nodes in Complex Dynamical Network with Communication Time Delays and Switching Topologies

Coarse-grained descriptions of oscillations in neuronal network models