Effect of Autaptic Activity on Intrinsic Coherence Resonance in Newman–Watts Networks of Stochastic Hodgkin–Huxley Neurons

Abstract

In this paper, we study the effect of autaptic activity on intrinsic coherence resonance (CR) induced by channel noise in Newman–Watts (NW) networks of stochastic Hodgkin–Huxley (HH) neurons. It is found that autaptic strength and autaptic delay have a big effect on the intrinsic CR. As autaptic strength increases, there is optimal autaptic strength by which the intrinsic CR is most highly enhanced. Autaptic delay can enhance, reduce, or destroy the intrinsic CR, depending on the delay length. Moreover, there are optimal coupling strength and network randomness by which autaptic activity can most highly enhance the intrinsic CR. These results show that autaptic activity has different effects on the intrinsic CR in the neuronal networks, and it can most highly enhance the intrinsic CR at optimal coupling strength and network randomness. These findings could find potential implications of channel noise and autaptic activity for the information processing and transmission in neural systems.