Contrastive Balancing Representation Learning for Heterogeneous Dose-Response Curves Estimation
Abstract
Estimating the individuals' potential response to varying treatment doses is crucial for decision-making in areas such as precision medicine and management science. Most recent studies predict counterfactual outcomes by learning a covariate representation that is independent of the treatment variable. However, such independence constraints neglect much of the covariate information that is useful for counterfactual prediction, especially when the treatment variables are continuous. To tackle the above issue, in this paper, we first theoretically demonstrate the importance of the balancing and prognostic representations for unbiased estimation of the heterogeneous dose-response curves, that is, the learned representations are constrained to satisfy the conditional independence between the covariates and both of the treatment variables and the potential responses. Based on this, we propose a novel Contrastive balancing Representation learning Network using a partial distance measure, called CRNet, for estimating the heterogeneous dose-response curves without losing the continuity of treatments. Extensive experiments are conducted on synthetic and real-world datasets demonstrating that our proposal significantly outperforms previous methods.
Cite
@article{arxiv.2403.14232,
title = {Contrastive Balancing Representation Learning for Heterogeneous Dose-Response Curves Estimation},
author = {Minqin Zhu and Anpeng Wu and Haoxuan Li and Ruoxuan Xiong and Bo Li and Xiaoqing Yang and Xuan Qin and Peng Zhen and Jiecheng Guo and Fei Wu and Kun Kuang},
journal= {arXiv preprint arXiv:2403.14232},
year = {2024}
}