Weather2vec: Representation Learning for Causal Inference with Non-local Confounding in Air Pollution and Climate Studies

Mauricio Tec; James G. Scott; Corwin M. Zigler

doi:10.1609/aaai.v37i12.26696

Authors

Mauricio Tec Department of Biostatistics, Harvard University
James G. Scott Department of Statistics and Data Sciences, The University of Texas at Austin Department of Information, Risk, and Operations Management, The University of Texas at Austin
Corwin M. Zigler Department of Statistics and Data Sciences, The University of Texas at Austin

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https://doi.org/10.1609/aaai.v37i12.26696

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Estimating the causal effects of a spatially-varying intervention on a spatially-varying outcome may be subject to non-local confounding (NLC), a phenomenon that can bias estimates when the treatments and outcomes of a given unit are dictated in part by the covariates of other nearby units. In particular, NLC is a challenge for evaluating the effects of environmental policies and climate events on health-related outcomes such as air pollution exposure. This paper first formalizes NLC using the potential outcomes framework, providing a comparison with the related phenomenon of causal interference. Then, it proposes a broadly applicable framework, termed weather2vec, that uses the theory of balancing scores to learn representations of non-local information into a scalar or vector defined for each observational unit, which is subsequently used to adjust for confounding in conjunction with causal inference methods. The framework is evaluated in a simulation study and two case studies on air pollution where the weather is an (inherently regional) known confounder.

Weather2vec: Representation Learning for Causal Inference with Non-local Confounding in Air Pollution and Climate Studies

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