Causal feature learning for utility-maximizing agents

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In David Kinney & David Watson (eds.), International Conference on Probabilistic Graphical Models. pp. 257–268 (2020)
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Abstract

Discovering high-level causal relations from low-level data is an important and challenging problem that comes up frequently in the natural and social sciences. In a series of papers, Chalupka etal. (2015, 2016a, 2016b, 2017) develop a procedure forcausal feature learning (CFL) in an effortto automate this task. We argue that CFL does not recommend coarsening in cases where pragmatic considerations rule in favor of it, and recommends coarsening in cases where pragmatic considerations rule against it. We propose a new technique, pragmatic causal feature learning (PCFL), which extends the original CFL algorithm in useful and intuitive ways. We show that PCFL has the same attractive measure-theoretic properties as the original CFL algorithm. We compare the performance of both methods through theoretical analysis and experiments.

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Author Profiles

David Kinney
Yale University
David Watson
University College London

Citations of this work

On the Philosophy of Unsupervised Learning.David S. Watson - 2023 - Philosophy and Technology 36 (2):1-26.

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Adaptively Rational Learning.Sarah Wellen & David Danks - 2016 - Minds and Machines 26 (1-2):87-102.

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