Detecting Hidden Units and Network Size from Perceptible Dynamics
Abstract
The number of units of a network dynamical system, its size, arguably constitutes its most fundamental property. Many units of a network, however, are typically experimentally inaccessible such that the network size is often unknown. Here we introduce a \emph{detection matrix }that suitably arranges multiple transient time series from the subset of accessible units to detect network size via matching rank constraints. The proposed method is model-free, applicable across system types and interaction topologies and applies to non-stationary dynamics near fixed points, as well as periodic and chaotic collective motion. Even if only a small minority of units is perceptible and for systems simultaneously exhibiting nonlinearities, heterogeneities and noise, \emph{exact} size detection is feasible. We illustrate applicability for a paradigmatic class of biochemical reaction networks.
Cite
@article{arxiv.2104.00607,
title = {Detecting Hidden Units and Network Size from Perceptible Dynamics},
author = {Hauke Haehne and Jose Casadiego and Joachim Peinke and Marc Timme},
journal= {arXiv preprint arXiv:2104.00607},
year = {2021}
}
Comments
Supplement available via the DOI below. https://doi.org/10.1103/PhysRevLett.122.158301