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arxiv: 2403.07402 · v1 · pith:LJQY4X5Unew · submitted 2024-03-12 · ❄️ cond-mat.stat-mech · physics.soc-ph

Renormalization of Complex Networks with Partition Functions

classification ❄️ cond-mat.stat-mech physics.soc-ph
keywords renormalizationnetworkscomplexphysicalmodelnetworkstrengthtransformation
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While renormalization groups are fundamental in physics, renormalization of complex networks remains vague in its conceptual definition and methodology. Here, we propose a novel strategy to renormalize complex networks. Rather than resorting to handling the bare structure of a network, we overlay it with a readily renormalizable physical model, which reflects real-world scenarios with a broad generality. From the renormalization of the overlying system, we extract a rigorous and simple renormalization group transformation of arbitrary networks. In this way, we obtain a transparent, model-dependent physical meaning of the network renormalization, which in our case is a scale transformation preserving the transition dynamics of low-density particles. We define the strength of a node in accordance with the physical model and trace the change of its distribution under our renormalization process. This analysis demonstrates that the strength distributions of scale-free networks remain scale-invariant, whereas those of homogeneous random networks do not.

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