Matrix-weighted networks for modeling multidimensional dynamics
Abstract
Networks are powerful tools for modeling interactions in complex systems. While traditional networks use scalar edge weights, many real-world systems involve multidimensional interactions. For example, in social networks, individuals often have multiple interconnected opinions that can affect different opinions of other individuals, which can be better characterized by matrices. We propose a novel, general framework for modeling such multidimensional interacting dynamics: matrix-weighted networks (MWNs). We present the mathematical foundations of MWNs and examine consensus dynamics and random walks within this context. Our results reveal that the coherence of MWNs gives rise to non-trivial steady states that generalize the notions of communities and structural balance in traditional networks.
Cite
@article{arxiv.2410.05188,
title = {Matrix-weighted networks for modeling multidimensional dynamics},
author = {Yu Tian and Sadamori Kojaku and Hiroki Sayama and Renaud Lambiotte},
journal= {arXiv preprint arXiv:2410.05188},
year = {2024}
}
Comments
14 pages, 8 figures