Using Forests in Multivariate Regression Discontinuity Designs

We discuss estimating conditional treatment effects in regression discontinuity designs with multiple scores. While local linear regressions have been popular in settings where the treatment status is completely described by one running variable, they do not easily generalize to empirical applications involving multiple treatment assignment rules. In practice, the multivariate problem is usually reduced to a univariate one where using local linear regressions is suitable. Instead, we propose a forest-based estimator that can flexibly model multivariate scores, where we build two honest forests in the sense of Wager and Athey (2018) on both sides of the treatment boundary. This estimator is asymptotically normal and sidesteps the pitfalls of running local linear regressions in higher dimensions. In simulations, we find our proposed estimator outperforms local linear regressions in multivariate designs and is competitive against the minimax-optimal estimator of Imbens and Wager (2019). The implementation of this estimator is simple, can readily accommodate any (fixed) number of running variables, and does not require estimating any nuisance parameters of the data generating process.