MAP Inference for Probabilistic Logic Programming
August 04, 2020 Β· Declared Dead Β· π Theory and Practice of Logic Programming
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Authors
Elena Bellodi, Marco Alberti, Fabrizio Riguzzi, Riccardo Zese
arXiv ID
2008.01394
Category
cs.AI: Artificial Intelligence
Cross-listed
cs.LO
Citations
10
Venue
Theory and Practice of Logic Programming
Last Checked
4 months ago
Abstract
In Probabilistic Logic Programming (PLP) the most commonly studied inference task is to compute the marginal probability of a query given a program. In this paper, we consider two other important tasks in the PLP setting: the Maximum-A-Posteriori (MAP) inference task, which determines the most likely values for a subset of the random variables given evidence on other variables, and the Most Probable Explanation (MPE) task, the instance of MAP where the query variables are the complement of the evidence variables. We present a novel algorithm, included in the PITA reasoner, which tackles these tasks by representing each problem as a Binary Decision Diagram and applying a dynamic programming procedure on it. We compare our algorithm with the version of ProbLog that admits annotated disjunctions and can perform MAP and MPE inference. Experiments on several synthetic datasets show that PITA outperforms ProbLog in many cases.
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