Partial Optimality of Dual Decomposition for MAP Inference in Pairwise MRFs
August 09, 2017 Β· Declared Dead Β· π International Conference on Artificial Intelligence and Statistics
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Authors
Alexander Bauer, Shinichi Nakajima, Nico GΓΆrnitz, Klaus-Robert MΓΌller
arXiv ID
1708.03314
Category
cs.DS: Data Structures & Algorithms
Citations
6
Venue
International Conference on Artificial Intelligence and Statistics
Last Checked
4 months ago
Abstract
Markov random fields (MRFs) are a powerful tool for modelling statistical dependencies for a set of random variables using a graphical representation. An important computational problem related to MRFs, called maximum a posteriori (MAP) inference, is finding a joint variable assignment with the maximal probability. It is well known that the two popular optimisation techniques for this task, linear programming (LP) relaxation and dual decomposition (DD), have a strong connection both providing an optimal solution to the MAP problem when a corresponding LP relaxation is tight. However, less is known about their relationship in the opposite and more realistic case. In this paper, we explain how the fully integral assignments obtained via DD partially agree with the optimal fractional assignments via LP relaxation when the latter is not tight. In particular, for binary pairwise MRFs the corresponding result suggests that both methods share the partial optimality property of their solutions.
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