English

Causal Inference for Network Autoregression Model: A Targeted Minimum Loss Estimation Approach

Methodology 2026-03-02 v3

Abstract

We study estimation of the average treatment effect (ATE) from a single network in observational settings with interference. The weak cross-unit dependence is modeled via an endogenous peer-effect (network autoregressive) term that induces distance-decaying network dependence, relaxing the common finite-order interference to infinite interference. We propose a targeted minimum loss estimation (TMLE) procedure that removes plug-in bias from an initial estimator. The targeting step yields an adjustment direction that incorporates the network autoregressive structure and assigns heterogeneous, network-dependent weights to units. We find that the asymptotic leading term related to the covariates Xi\mathbf{X}_i can be formulated into a VV-statistic whose order diverges with the network degrees. A novel limit theory is developed to establish the asymptotic normality under such complex network dependent scenarios. We show that our method can achieve smaller asymptotic variance than existing methods when Xi\mathbf{X}_i is i.i.d. generated and estimated with empirical distribution, and provide theoretical guarantees for estimating the variance. Extensive numerical studies and a live-streaming data analysis are presented to illustrate the advantages of the proposed method.

Keywords

Cite

@article{arxiv.2511.06652,
  title  = {Causal Inference for Network Autoregression Model: A Targeted Minimum Loss Estimation Approach},
  author = {Yong Wu and Shuyuan Wu and Xinwei Sun and Xuening Zhu},
  journal= {arXiv preprint arXiv:2511.06652},
  year   = {2026}
}

Comments

This paper is withdrawn due to errors in the current version and a mismatch between the title and the actual scope of the manuscript. A substantially revised version may be prepared in the future

R2 v1 2026-07-01T07:28:50.407Z