Delay before synchronization and its role in latency of sensory awareness

TL;DR

This paper investigates how the delay before synchronization in coupled systems influences sensory awareness latency, proposing that brain awareness delay corresponds to the time needed for neural synchrony to develop, based on coupled-map models.

Contribution

It introduces a model linking synchronization delay in coupled systems to neural awareness latency, highlighting the role of connection dynamics and coupling strength.

Findings

Synchronization delay depends on coupling strength and connection dynamics.

Systems with fixed connections synchronize almost instantly.

The model explains the neural latency as the time for synchrony to build up.

Abstract

Here we show that for coupled-map systems, the length of the transient prior to synchronization is both dependant on the coupling strength and dynamics of connections: systems with fixed connections and with no self-coupling display quasi-instantaneous synchronization. Too strong tendency for synchronization would in terms of brain dynamics be expected to be a pathological case. We relate how the time to synchrony depends on coupling strength and connection dynamics to the latency between neuronal stimulation and conscious awareness. We suggest that this latency can be identified with the delay before a threshold level of synchrony is achieved between distinct regions within the brain, as suggested by recent empirical evidence, in which case the latency can easily be understood as the inevitable delay before such synchrony builds-up. This is demonstrated here through the study of simplistic coupled-map models.