English

Cortical oscillations implement a backbone for sampling-based computation in spiking neural networks

Neurons and Cognition 2022-04-05 v5 Neural and Evolutionary Computing

Abstract

Being permanently confronted with an uncertain world, brains have faced evolutionary pressure to represent this uncertainty in order to respond appropriately. Often, this requires visiting multiple interpretations of the available information or multiple solutions to an encountered problem. This gives rise to the so-called mixing problem: since all of these "valid" states represent powerful attractors, but between themselves can be very dissimilar, switching between such states can be difficult. We propose that cortical oscillations can be effectively used to overcome this challenge. By acting as an effective temperature, background spiking activity modulates exploration. Rhythmic changes induced by cortical oscillations can then be interpreted as a form of simulated tempering. We provide a rigorous mathematical discussion of this link and study some of its phenomenological implications in computer simulations. This identifies a new computational role of cortical oscillations and connects them to various phenomena in the brain, such as sampling-based probabilistic inference, memory replay, multisensory cue combination, and place cell flickering.

Keywords

Cite

@article{arxiv.2006.11099,
  title  = {Cortical oscillations implement a backbone for sampling-based computation in spiking neural networks},
  author = {Agnes Korcsak-Gorzo and Michael G. Müller and Andreas Baumbach and Luziwei Leng and Oliver Julien Breitwieser and Sacha J. van Albada and Walter Senn and Karlheinz Meier and Robert Legenstein and Mihai A. Petrovici},
  journal= {arXiv preprint arXiv:2006.11099},
  year   = {2022}
}

Comments

34 pages, 9 figures

R2 v1 2026-06-23T16:27:46.726Z