Cardinality Bounds and Parameterization for Latent Variable Graphical Models

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United States Simons Institute for the Theory of Computing
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Published on ● Video Link: https://www.youtube.com/watch?v=fu3vyXLFDuE


Duration: 42:01
257 views
6

Noam Finkelstein (Weill Cornell Medicine)
https://simons.berkeley.edu/talks/tbd-367
Quantum Physics and Statistical Causal Models

Latent variables in directed graphical models can be assumed to have finite cardinality without restricting the marginal model, if all observed variables are discrete. In this talk, we improve on existing non-restrictive cardinality bounds for latent variables by characterizing the dimension of the marginal model to which each latent variable is relevant. We observe that non-restrictive latent variable cardinality bounds depend on whether, and which, counterfactual random variables are being modeled. The improved cardinality bounds facilitate use of the polynomial system characterization to answer causal compatibility and inference questions by reducing the number of unidentified model parameters. Towards the same end, we suggest a 'hybrid' parameterization for latent variable models that yields fewer parameters than existing parameterizations.



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Tags:
Simons Institute
theoretical computer science
UC Berkeley
Computer Science
Theory of Computation
Theory of Computing
Quantum Physics and Statistical Causal Models
Noam Finkelstein