Propagation of spiking moments in linear hawkes networks

Gilson, Matthieu; Pfister, Jean-Pascal

doi:http://dx.doi.org/10.1137/18M1220030

Propagation of spiking moments in linear hawkes networks

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Gilson M, Pfister JP. Propagation of spiking moments in linear hawkes networks. SIAM J Appl Dyn Syst. 2020 Apr 20;19(2):828-59. DOI: 10.1137/18M1220030

Abstract

The present paper provides exact mathematical expressions for the high-order moments of spiking activity in a recurrently connected network of linear Hawkes processes. It extends previous studies that have explored the case of a (linear) Hawkes network driven by deterministic intensity functions to the case of a stimulation by external inputs (rate functions or spike trains) with arbitrary correlation structure. Our approach describes the spatio-temporal filtering induced by the afferent and recurrent connectivities (with arbitrary synaptic response kernels) using operators acting on the input moments. This algebraic viewpoint provides intuition about how the network ingredients shape the input-output mapping for moments, as well as cumulants. We also show using numerical simulation that our results hold for neurons with refractoriness implemented by self-inhibition, provided the corresponding negative feedback for each neuron only mildly alters its mean firing probability.