Multi-View Causal Discovery without Non-Gaussianity: Identifiability and Algorithms

Ambroise Heurtebise; Omar Chehab; Pierre Ablin; Alexandre Gramfort; Aapo Hyvarinen

Multi-View Causal Discovery without Non-Gaussianity: Identifiability and Algorithms

Ambroise Heurtebise, Omar Chehab, Pierre Ablin, Alexandre Gramfort, Aapo Hyvarinen

15 Sept 2025 (modified: 11 Feb 2026)Submitted to ICLR 2026EveryoneRevisionsBibTeXCC BY 4.0

Keywords: Causal discovery, Independent component analysis, Non-Gaussianity, Multiview data, Second-order statistics

Abstract: Causal discovery is a difficult problem that typically relies on strong assumptions on the data-generating model, such as non-Gaussianity. In practice, many modern applications provide multiple related views of the same system, which has rarely been considered for causal discovery. Here, we leverage this multi-view structure to achieve causal discovery with weak assumptions. We propose a multi-view linear Structural Equation Model (SEM) that extends the well-known framework of non-Gaussian disturbances by alternatively leveraging correlation over views. We prove the identifiability of the model for acyclic SEMs. Subsequently, we propose several multi-view causal discovery algorithms, inspired by single-view algorithms (DirectLiNGAM, PairwiseLiNGAM, and ICA-LiNGAM). The new methods are validated through simulations and applications on neuroimaging data, where they enable the estimation of causal graphs between brain regions.

Primary Area: causal reasoning

Submission Number: 5825

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