On the adaptation of causal forests to manifold data

arXiv - MATH - Statistics Theory Pub Date : 2023-11-28 DOI:arxiv-2311.16486
Yiyi Huo, Yingying Fan, Fang Han
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Abstract

Researchers often hold the belief that random forests are "the cure to the world's ills" (Bickel, 2010). But how exactly do they achieve this? Focused on the recently introduced causal forests (Athey and Imbens, 2016; Wager and Athey, 2018), this manuscript aims to contribute to an ongoing research trend towards answering this question, proving that causal forests can adapt to the unknown covariate manifold structure. In particular, our analysis shows that a causal forest estimator can achieve the optimal rate of convergence for estimating the conditional average treatment effect, with the covariate dimension automatically replaced by the manifold dimension. These findings align with analogous observations in the realm of deep learning and resonate with the insights presented in Peter Bickel's 2004 Rietz lecture.
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因果森林对流形数据的适应性研究
研究人员经常认为随机森林是“治疗世界弊病的良药”(Bickel, 2010)。但他们究竟是如何做到的呢?关注最近引入的因果森林(Athey和Imbens, 2016;Wager和athey, 2018),本文旨在促进正在进行的研究趋势,以回答这个问题,证明因果森林可以适应未知的协变量流形结构。特别是,我们的分析表明,因果森林估计器可以达到预测条件平均处理效果的最佳收敛速度,协变量维数自动被流形维数取代。这些发现与深度学习领域的类似观察结果相一致,并与Peter Bickel在2004年Rietz讲座中提出的见解产生了共鸣。
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arXiv - MATH - Statistics Theory
arXiv - MATH - Statistics Theory
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