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Autore principale: Starck, Vincent
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.00612
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author Starck, Vincent
author_facet Starck, Vincent
contents This paper develops a method to conduct causal inference in the presence of unobserved confounders by leveraging networks with homophily, a frequently observed tendency to form edges with similar nodes. I introduce a concept of asymptotic homophily, according to which individuals' selectivity scales with the size of the potential connection pool. It contributes to the network formation literature with a model that can accommodate common empirical features such as homophily, degree heterogeneity, sparsity, and clustering, and provides a framework to obtain consistent estimators of treatment effects that are robust to selection on unobservables. I also consider an alternative setting that accommodates dense networks and show how selecting linked individuals whose observed characteristics made such a connection less likely delivers an estimator with similar properties. In an application, I recover an estimate of the effect of parental involvement on students' test scores that is greater than that of OLS, arguably due to the estimator's ability to account for unobserved ability.
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spellingShingle Improving control over unobservables with network data
Starck, Vincent
Econometrics
This paper develops a method to conduct causal inference in the presence of unobserved confounders by leveraging networks with homophily, a frequently observed tendency to form edges with similar nodes. I introduce a concept of asymptotic homophily, according to which individuals' selectivity scales with the size of the potential connection pool. It contributes to the network formation literature with a model that can accommodate common empirical features such as homophily, degree heterogeneity, sparsity, and clustering, and provides a framework to obtain consistent estimators of treatment effects that are robust to selection on unobservables. I also consider an alternative setting that accommodates dense networks and show how selecting linked individuals whose observed characteristics made such a connection less likely delivers an estimator with similar properties. In an application, I recover an estimate of the effect of parental involvement on students' test scores that is greater than that of OLS, arguably due to the estimator's ability to account for unobserved ability.
title Improving control over unobservables with network data
topic Econometrics
url https://arxiv.org/abs/2511.00612