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The Effect of Signaling Latencies and Node Refractory States on the Dynamics of Networks
[article]
2019
arXiv
pre-print
We describe the construction and theoretical analysis of a framework derived from canonical neurophysiological principles that model the competing dynamics of incident signals into nodes along directed edges in a network. The framework describes the dynamics between the offset in the latencies of propagating signals, which reflect the geometry of the edges and conduction velocities, and the internal refractory dynamics and processing times of the downstream node receiving the signals. This
arXiv:1804.07609v3
fatcat:2n6hqolrtvfrndlnxbinhc4eny