English

Testing degree heterogeneity in directed networks

Statistics Theory 2025-12-25 v2 Statistics Theory

Abstract

In this study, we focus on the likelihood ratio tests in the p0p_0 model for testing degree heterogeneity in directed networks, which is an exponential family distribution on directed graphs with the bi-degree sequence as the naturally sufficient statistic. For testing the homogeneous null hypotheses H0:α1==αrH_0: \alpha_1 = \cdots = \alpha_r, we establish Wilks-type results in both increasing-dimensional and fixed-dimensional settings. For increasing dimensions, the normalized log-likelihood ratio statistic [2{(θ^)(θ^0)}r]/(2r)1/2[2\{\ell(\widehat{\mathbf{\theta}})-\ell(\widehat{\mathbf{\theta}}^0)\}-r]/(2r)^{1/2} converges in distribution to a standard normal distribution. For fixed dimensions, 2{(θ^)(θ^0)}2\{\ell(\widehat{\mathbf{\theta}})-\ell(\widehat{\mathbf{\theta}}^0)\} converges in distribution to a chi-square distribution with r1r-1 degrees of freedom as nn\rightarrow \infty, independent of the nuisance parameters. Additionally, we present a Wilks-type theorem for the specified null H0:αi=αi0H_0: \alpha_i=\alpha_i^0, i=1,,ri=1,\ldots, r in high-dimensional settings, where the normalized log-likelihood ratio statistic also converges in distribution to a standard normal distribution. These results extend the work of \cite{yan2025likelihood} to directed graphs in a highly non-trivial way, where we need to analyze much more expansion terms in the fourth-order asymptotic expansions of the likelihood function and develop new approximate inverse matrices under the null restricted parameter spaces for approximating the inverse of the Fisher information matrices in the p0p_0 model. Simulation studies and real data analyses are presented to verify our theoretical results.

Keywords

Cite

@article{arxiv.2502.09865,
  title  = {Testing degree heterogeneity in directed networks},
  author = {Lu Pan and Qiuping Wang and Ting Yan},
  journal= {arXiv preprint arXiv:2502.09865},
  year   = {2025}
}

Comments

77pages, 10 figures. arXiv admin note: substantial text overlap with arXiv:2211.10055; text overlap with arXiv:2311.05806

R2 v1 2026-06-28T21:43:58.790Z