Exact Inference for Relational Graphical Models with Interpreted Functions: Lifted Probabilistic Inference Modulo Theories

September 04, 2017 · Declared Dead · 🏛 Conference on Uncertainty in Artificial Intelligence

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Authors Rodrigo de Salvo Braz, Ciaran O'Reilly arXiv ID 1709.01122 Category cs.AI: Artificial Intelligence Cross-listed cs.SC Citations 7 Venue Conference on Uncertainty in Artificial Intelligence Last Checked 4 months ago

Abstract

Probabilistic Inference Modulo Theories (PIMT) is a recent framework that expands exact inference on graphical models to use richer languages that include arithmetic, equalities, and inequalities on both integers and real numbers. In this paper, we expand PIMT to a lifted version that also processes random functions and relations. This enhancement is achieved by adapting Inversion, a method from Lifted First-Order Probabilistic Inference literature, to also be modulo theories. This results in the first algorithm for exact probabilistic inference that efficiently and simultaneously exploits random relations and functions, arithmetic, equalities and inequalities.

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