The interplay between network transitivity and community structure
Abstract
Recent empirical observations suggest that network transitivity is highly correlated with community structure in many real-world networks. In this paper, we theoretically investigate this relationship by deriving the limits of the global and average clustering coefficients for the geometric block model (GBM). Both limits exhibit a phase transition; specifically, the functional forms of the limit functions differ between the weak and strong community structure strength regimes. For a GBM with balanced communities, the limits of the global and average clustering coefficients are identical, whereas these limits differ for unbalanced communities. In general, the clustering coefficients do not exhibit a monotonic relationship with community structure strength. Particularly, for a balanced GBM where the within-community edge probability is a constant multiple of the between-community edge probability, the limit decreases from to and subsequently increases toward an asymptotic upper bound of as the multiple grows from one. A similar pattern is observed for the global clustering coefficient in unbalanced settings, where both limits exhibit an explicit dependence on community size.
Keywords
Cite
@article{arxiv.2604.19067,
title = {The interplay between network transitivity and community structure},
author = {Mingao Yuan and Irin Rahman and Chengay S Wangchuk},
journal= {arXiv preprint arXiv:2604.19067},
year = {2026}
}