First-order Decomposition Trees

Nima Taghipour; Jesse Davis; Hendrik Blockeel

2013 NIPS NeurIPS 2013

First-order Decomposition Trees

Abstract

Lifting attempts to speedup probabilistic inference by exploiting symmetries in the model. Exact lifted inference methods, like their propositional counterparts, work by recursively decomposing the model and the problem. In the propositional case, there exist formal structures, such as decomposition trees (dtrees), that represent such a decomposition and allow us to determine the complexity of inference a priori. However, there is currently no equivalent structure nor analogous complexity results for lifted inference. In this paper, we introduce FO-dtrees, which upgrade propositional dtrees to the first-order level. We show how these trees can characterize a lifted inference solution for a probabilistic logical model (in terms of a sequence of lifted operations), and make a theoretical analysis of the complexity of lifted inference in terms of the novel notion of lifted width for the tree.

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Authors

Nima Taghipour , Jesse Davis , Hendrik Blockeel

Topics

Artificial Intelligence > Bayesian & Probabilistic > Probabilistic Modeling Machine Learning > Optimization & Theory > Theory Knowledge & Reasoning > Reasoning > Automated Reasoning Knowledge & Reasoning > Reasoning > Formal Methods Machine Learning > Bayesian & Probabilistic > Probabilistic Modeling Artificial Intelligence > Core AI > Reasoning Machine Learning > Bayesian & Probabilistic > Bayesian Inference

Keywords

probabilistic inference probabilistic logic lifted inference first-order logic first-order inference model decomposition decomposition trees graphical model inference complexity probabilistic logical model

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