Emergent scale-free networks
Abstract
Many complex systems--from social and communication networks to biological networks and the Internet--are thought to exhibit scale-free structure. However, prevailing explanations rely on the constant addition of new nodes, an assumption that fails dramatically in some real-world settings. Here, we propose a model in which nodes are allowed to die, and their connections rearrange under a mixture of preferential and random attachment. With these simple dynamics, we show that networks self-organize towards scale-free structure, with a power-law exponent that depends only on the proportion of preferential (rather than random) attachment. Applying our model to several real networks, we infer directly from data, and predict the relationship between network size and degree heterogeneity. Together, these results establish that realistic scale-free structure can emerge naturally in networks of constant size and density, with broad implications for the structure and function of complex systems.
Cite
@article{arxiv.2210.06453,
title = {Emergent scale-free networks},
author = {Christopher W. Lynn and Caroline M. Holmes and Stephanie E. Palmer},
journal= {arXiv preprint arXiv:2210.06453},
year = {2022}
}
Comments
24 pages, 5 figures