Narrowband oscillations from asynchronous neural activity
Neurons and Cognition
2015-12-08 v1
Abstract
We investigate the possibility that narrowband oscillations may emerge from completely asynchronous, independent neural firing. We find that a population of asynchronous neurons may produce narrowband oscillations if each neuron fires quasi-periodically, and we deduce bounds on the degree of variability in neural spike-timing which will permit the emergence of such oscillations. These results suggest a novel mechanism of neural rhythmogenesis, and they help to explain recent experimental reports of large-amplitude local field potential oscillations in the absence of neural spike-timing synchrony. Simply put, although synchrony can produce oscillations, oscillations do not always imply the existence of synchrony.
Cite
@article{arxiv.1512.01622,
title = {Narrowband oscillations from asynchronous neural activity},
author = {Stephen V. Gliske and Eugene Lim and Katherine A. Holman and William C. Stacey and Christian G. Fink},
journal= {arXiv preprint arXiv:1512.01622},
year = {2015}
}
Comments
5 pages, 4 figures