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Main Authors: Costantini, Lorenzo, Sciarra, Carla, Ridolfi, Luca, Laio, Francesco
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.15627
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author Costantini, Lorenzo
Sciarra, Carla
Ridolfi, Luca
Laio, Francesco
author_facet Costantini, Lorenzo
Sciarra, Carla
Ridolfi, Luca
Laio, Francesco
contents Centrality metrics aim to identify the most relevant nodes in a network. In literature, a broad set of metrics exists, either measuring local or global centrality characteristics. Nevertheless, when networks exhibit a high spectral gap, the usual global centrality measures typically do not add significant information with respect to the degree, i.e., the simplest local metric. To extract new information from this class of networks, we propose the use of the GENeralized Economic comPlexitY index (GENEPY). Despite its original definition within the economic field, the GENEPY can be easily applied and interpreted on a wide range of networks, characterized by high spectral gap, including monopartite and bipartite networks systems. Tests on synthetic and real-world networks show that the GENEPY can shed new light about the nodes centrality, carrying information generally poorly correlated with the nodes number of direct connections (nodes degree).
format Preprint
id arxiv_https___arxiv_org_abs_2510_15627
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Measuring nodes centrality when local and global measures overlap
Costantini, Lorenzo
Sciarra, Carla
Ridolfi, Luca
Laio, Francesco
Physics and Society
Centrality metrics aim to identify the most relevant nodes in a network. In literature, a broad set of metrics exists, either measuring local or global centrality characteristics. Nevertheless, when networks exhibit a high spectral gap, the usual global centrality measures typically do not add significant information with respect to the degree, i.e., the simplest local metric. To extract new information from this class of networks, we propose the use of the GENeralized Economic comPlexitY index (GENEPY). Despite its original definition within the economic field, the GENEPY can be easily applied and interpreted on a wide range of networks, characterized by high spectral gap, including monopartite and bipartite networks systems. Tests on synthetic and real-world networks show that the GENEPY can shed new light about the nodes centrality, carrying information generally poorly correlated with the nodes number of direct connections (nodes degree).
title Measuring nodes centrality when local and global measures overlap
topic Physics and Society
url https://arxiv.org/abs/2510.15627