English

Synchronization in Electrically Coupled Neural Networks

Neurons and Cognition 2007-05-23 v1

Abstract

In this report, we investigate the synchronization of temporal activity in an electrically coupled neural network model. The electrical coupling is established by homotypic static gap-junctions (Connexin 43). Two distinct network topologies, namely: {\em sparse random network, (SRN)} and {\em fully connected network, (FCN)} are used to establish the connectivity. The strength of connectivity in the FCN is governed by the {\em mean gap junctional conductance} (μ\mu). In the case of the SRN, the overall strength of connectivity is governed by the {\em density of connections} (δ\delta) and the connection strength between two neurons (S0S_0). The synchronization of the network with increasing gap junctional strength and varying population sizes is investigated. It was observed that the network {\em abruptly} makes a transition from a weakly synchronized to a well synchronized regime when (δ\delta) or (μ\mu) exceeds a critical value. It was also observed that the (δ\delta, μ\mu) values used to achieve synchronization decreases with increasing network size.

Keywords

Cite

@article{arxiv.q-bio/0603035,
  title  = {Synchronization in Electrically Coupled Neural Networks},
  author = {Rajesh G Kavasseri and Radhakrishnan Nagarajan},
  journal= {arXiv preprint arXiv:q-bio/0603035},
  year   = {2007}
}