中文

Coupling and Maximal Inequalities for Graph-Dependent Empirical Processes

概率论 2026-06-30 v1 计量经济学 统计理论

摘要

We develop maximal inequalities for empirical processes indexed by graph-dependent observations. Our bounds separate the complexity of the indexing class from two features specific to graph dependence: the geometry of the underlying graph and the cost of coupling graph-separated blocks to independent copies. The coupling construction combines a novel graph-adapted dependence coefficient with a coloring of a block partition. We specialize the results to graphs with polynomial and exponential growth and to directed dyadic graphs. We then derive Glivenko--Cantelli results and characterize the associated effective sample size. A central implication is that graph-dependent empirical processes need not exhibit a generic root-nn rate: convergence is jointly determined by function-class complexity, graph geometry, and the decay of dependence with graph distance. Finally, we apply the results to obtain uniform laws of large numbers for network autoregressive models, nonlinear local-propagation models, and treatment-interference settings.

引用

@article{arxiv.2606.31936,
  title  = {Coupling and Maximal Inequalities for Graph-Dependent Empirical Processes},
  author = {Mengsi Gao and Demian Pouzo},
  journal= {arXiv preprint arXiv:2606.31936},
  year   = {2026}
}