Catching homologies by geometric entropy
Copyright policy )Catching homologies by geometric entropy
A geometric entropy is defined as the Riemannian volume of the parameter space of a statistical manifold associated with a given network. As such it can be a good candidate for measuring networks complexity. Here we investigate its ability to single out topological features of networks proceeding in a bottom-up manner: first we consider small size networks by analytical methods and then large size networks by numerical techniques. Two different classes of networks, the random graphs and the scale--free networks, are investigated computing their Betti numbers and then showing the capability of geometric entropy of detecting homologies.
12 pages, 2 Figures
- Aix Marseille Université (La Timone) France
- UNIVERSITE D'AIX MARSEILLE France
- Aix-Marseille Université France
- University of Siena Italy
- University of Camerino Italy
Complex systems, Complex system, Complex systems; Differential geometry and topology; Entropy, Entropy, Random graphs (graph-theoretic aspects), FOS: Physical sciences, Mathematical Physics (math-ph), [PHYS.MPHY] Physics [physics]/Mathematical Physics [math-ph], Statistical aspects of information-theoretic topics, Differential geometry and topology, Global Riemannian geometry, including pinching, differential geometry and topology, Differential geometric aspects of statistical manifolds and information geometry, Small world graphs, complex networks (graph-theoretic aspects), complex systems, entropy, Statistics on manifolds, Mathematical Physics
Complex systems, Complex system, Complex systems; Differential geometry and topology; Entropy, Entropy, Random graphs (graph-theoretic aspects), FOS: Physical sciences, Mathematical Physics (math-ph), [PHYS.MPHY] Physics [physics]/Mathematical Physics [math-ph], Statistical aspects of information-theoretic topics, Differential geometry and topology, Global Riemannian geometry, including pinching, differential geometry and topology, Differential geometric aspects of statistical manifolds and information geometry, Small world graphs, complex networks (graph-theoretic aspects), complex systems, entropy, Statistics on manifolds, Mathematical Physics
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