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Main Authors: Brogueira, Tiago, Figueiredo, Mário
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.10152
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author Brogueira, Tiago
Figueiredo, Mário
author_facet Brogueira, Tiago
Figueiredo, Mário
contents Causal discovery methods have traditionally been developed under two different modeling assumptions: independent and identically distributed (i.i.d.) data and time series data. In this paper, we focus on the i.i.d. setting, arguing that it should be reframed in terms of exchangeability, a strictly more general symmetry principle. For that goal, we propose an exchangeable hierarchical model that builds upon the recent Causal de Finetti theorem. Using this model, we show that both the uncertainty regarding the causal mechanism and the uncertainty in the distribution of latent variables are better captured under the broader assumption of exchangeability. In fact, we argue that this is most often the case with real data, as supported by an in-depth analysis of the Tübingen dataset. Exploiting this insight, we introduce a novel synthetic dataset that mimics the generation process induced by the proposed exchangeable hierarchical model. We show that our exchangeable synthetic dataset mirrors the statistical and causal structure of the Tübingen dataset more closely than other i.i.d. synthetic datasets. Furthermore, we introduce SynthNN, a neural-network-based causal-discovery method trained exclusively on the proposed synthetic dataset. The fact that SynthNN performs competitively with other state-of-the-art methods on the real-world Tübingen dataset provides strong evidence for the realism of the underlying exchangeable generative model.
format Preprint
id arxiv_https___arxiv_org_abs_2512_10152
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Rethinking Bivariate Causal Discovery Through the Lens of Exchangeability
Brogueira, Tiago
Figueiredo, Mário
Machine Learning
62D20
Causal discovery methods have traditionally been developed under two different modeling assumptions: independent and identically distributed (i.i.d.) data and time series data. In this paper, we focus on the i.i.d. setting, arguing that it should be reframed in terms of exchangeability, a strictly more general symmetry principle. For that goal, we propose an exchangeable hierarchical model that builds upon the recent Causal de Finetti theorem. Using this model, we show that both the uncertainty regarding the causal mechanism and the uncertainty in the distribution of latent variables are better captured under the broader assumption of exchangeability. In fact, we argue that this is most often the case with real data, as supported by an in-depth analysis of the Tübingen dataset. Exploiting this insight, we introduce a novel synthetic dataset that mimics the generation process induced by the proposed exchangeable hierarchical model. We show that our exchangeable synthetic dataset mirrors the statistical and causal structure of the Tübingen dataset more closely than other i.i.d. synthetic datasets. Furthermore, we introduce SynthNN, a neural-network-based causal-discovery method trained exclusively on the proposed synthetic dataset. The fact that SynthNN performs competitively with other state-of-the-art methods on the real-world Tübingen dataset provides strong evidence for the realism of the underlying exchangeable generative model.
title Rethinking Bivariate Causal Discovery Through the Lens of Exchangeability
topic Machine Learning
62D20
url https://arxiv.org/abs/2512.10152