English

Model-based causal feature selection for general response types

Methodology 2024-09-06 v4 Statistics Theory Machine Learning Statistics Theory

Abstract

Discovering causal relationships from observational data is a fundamental yet challenging task. Invariant causal prediction (ICP, Peters et al., 2016) is a method for causal feature selection which requires data from heterogeneous settings and exploits that causal models are invariant. ICP has been extended to general additive noise models and to nonparametric settings using conditional independence tests. However, the latter often suffer from low power (or poor type I error control) and additive noise models are not suitable for applications in which the response is not measured on a continuous scale, but reflects categories or counts. Here, we develop transformation-model (TRAM) based ICP, allowing for continuous, categorical, count-type, and uninformatively censored responses (these model classes, generally, do not allow for identifiability when there is no exogenous heterogeneity). As an invariance test, we propose TRAM-GCM based on the expected conditional covariance between environments and score residuals with uniform asymptotic level guarantees. For the special case of linear shift TRAMs, we also consider TRAM-Wald, which tests invariance based on the Wald statistic. We provide an open-source R package 'tramicp' and evaluate our approach on simulated data and in a case study investigating causal features of survival in critically ill patients.

Keywords

Cite

@article{arxiv.2309.12833,
  title  = {Model-based causal feature selection for general response types},
  author = {Lucas Kook and Sorawit Saengkyongam and Anton Rask Lundborg and Torsten Hothorn and Jonas Peters},
  journal= {arXiv preprint arXiv:2309.12833},
  year   = {2024}
}

Comments

Code available at https://github.com/LucasKook/tramicp.git

R2 v1 2026-06-28T12:29:24.589Z