English

Trial matching: capturing variability with data-constrained spiking neural networks

Neurons and Cognition 2023-12-04 v2

Abstract

Simultaneous behavioral and electrophysiological recordings call for new methods to reveal the interactions between neural activity and behavior. A milestone would be an interpretable model of the co-variability of spiking activity and behavior across trials. Here, we model a mouse cortical sensory-motor pathway in a tactile detection task reported by licking with a large recurrent spiking neural network (RSNN), fitted to the recordings via gradient-based optimization. We focus specifically on the difficulty to match the trial-to-trial variability in the data. Our solution relies on optimal transport to define a distance between the distributions of generated and recorded trials. The technique is applied to artificial data and neural recordings covering six cortical areas. We find that the resulting RSNN can generate realistic cortical activity and predict jaw movements across the main modes of trial-to-trial variability. Our analysis also identifies an unexpected mode of variability in the data corresponding to task-irrelevant movements of the mouse.

Keywords

Cite

@article{arxiv.2306.03603,
  title  = {Trial matching: capturing variability with data-constrained spiking neural networks},
  author = {Christos Sourmpis and Carl Petersen and Wulfram Gerstner and Guillaume Bellec},
  journal= {arXiv preprint arXiv:2306.03603},
  year   = {2023}
}

Comments

12 pages of main text, 4 figures in main, 5 pages of appendix, 5 figures in appendix

R2 v1 2026-06-28T10:57:42.735Z