Litcius/Paper detail

Meta Learning for Causal Direction

Jean-François Ton, Dino Sejdinović, Kenji Fukumizu

2021Proceedings of the AAAI Conference on Artificial Intelligence13 citationsDOIOpen Access PDF

Abstract

The inaccessibility of controlled randomized trials due to inherent constraints in many fields of science has been a fundamental issue in causal inference. In this paper, we focus on distinguishing the cause from effect in the bivariate setting under limited observational data. Based on recent developments in meta learning as well as in causal inference, we introduce a novel generative model that allows distinguishing cause and effect in the small data setting. Using a learnt task variable that contains distributional information of each dataset, we propose an end-to-end algorithm that makes use of similar training datasets at test time. We demonstrate our method on various synthetic as well as real-world data and show that it is able to maintain high accuracy in detecting directions across varying dataset sizes.

Topics & Concepts

Causal inferenceInferenceComputer scienceBivariate analysisMachine learningMeta learning (computer science)Artificial intelligenceTask (project management)Generative grammarFocus (optics)Observational studyRandomized experimentGenerative modelData miningEconometricsMathematicsStatisticsEconomicsOpticsPhysicsManagementBayesian Modeling and Causal InferenceMachine Learning and Data ClassificationDomain Adaptation and Few-Shot Learning