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Most Influential UAI 2020 Paper · 2026-03 edition

Permutation-Based Causal Structure Learning With Unknown Intervention Targets

Chandler Squires; Yuhao Wang; Caroline Uhler

Venue
Conference on Uncertainty in Artificial Intelligence (UAI) 2020
Recognition
Most Influential UAI 2020 Paper (Rank No. 4)
Edition
2026-03
Impact factor
3
Certificate ID
e8f6ebb8c9a8f7db

Abstract

We consider the problem of estimating causal DAG models from a mix of observational and interventional data, when the intervention targets are partially or completely unknown. This problem is highly relevant for example in genomics, since gene knockout technologies are known to have off-target effects. We characterize the interventional Markov equivalence class of DAGs that can be identified from interventional data with unknown intervention targets. In addition, we propose a provably consistent algorithm for learning the interventional Markov equivalence class from such data. The proposed algorithm greedily searches over the space of permutations to minimize a novel score function. The algorithm is nonparametric, which is particularly important for applications to genomics, where the relationships between variables are often non-linear and the distribution non-Gaussian. We demonstrate the performance of our algorithm on synthetic and biological datasets. Links to an implementation of our algorithm and to a reproducible code base for our experiments can be found at https://uhlerlab.github.io/causaldag/utigsp.

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