English

Causal Inference Under Approximate Neighborhood Interference

Econometrics 2021-11-04 v4 Methodology

Abstract

This paper studies causal inference in randomized experiments under network interference. Commonly used models of interference posit that treatments assigned to alters beyond a certain network distance from the ego have no effect on the ego's response. However, this assumption is violated in common models of social interactions. We propose a substantially weaker model of "approximate neighborhood interference" (ANI) under which treatments assigned to alters further from the ego have a smaller, but potentially nonzero, effect on the ego's response. We formally verify that ANI holds for well-known models of social interactions. Under ANI, restrictions on the network topology, and asymptotics under which the network size increases, we prove that standard inverse-probability weighting estimators consistently estimate useful exposure effects and are approximately normal. For inference, we consider a network HAC variance estimator. Under a finite population model, we show that the estimator is biased but that the bias can be interpreted as the variance of unit-level exposure effects. This generalizes Neyman's well-known result on conservative variance estimation to settings with interference.

Keywords

Cite

@article{arxiv.1911.07085,
  title  = {Causal Inference Under Approximate Neighborhood Interference},
  author = {Michael P. Leung},
  journal= {arXiv preprint arXiv:1911.07085},
  year   = {2021}
}
R2 v1 2026-06-23T12:18:03.552Z