Abstract
Important inference problems in statistical physics, computer vision, error-correcting coding theory, and artificial intelligence can all be reformulated as the computation of marginal probabilities on factor graphs. The belief propagation (BP) algorithm is an efficient way to solve these problems that is exact when the factor graph is a tree, but only approximate when the factor graph has cycles. We show that BP fixed points correspond to the stationary points of the Bethe approximation of the free energy for a factor graph. We explain how to obtain region-based free energy approximations that improve the Bethe approximation, and corresponding generalized belief propagation (GBP) algorithms. We emphasize the conditions a free energy approximation must satisfy in order to be a "valid" or "maxent-normal" approximation. We describe the relationship between four different methods that can be used to generate valid approximations: the "Bethe method", the "junction graph method", the "cluster variation method", and the "region graph method". Finally, we explain how to tell whether a region-based approximation, and its corresponding GBP algorithm, is likely to be accurate, and describe empirical results showing that GBP can significantly outperform BP.
Keywords
Belief propagationFactor graphComputationInferenceApproximation algorithmMathematicsAlgorithmApproximate inferenceGraph theoryGraphApplied mathematicsDiscrete mathematicsComputer scienceCombinatoricsArtificial intelligenceDecoding methods
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Publication Info
- Year
- 2005
- Type
- article
- Volume
- 51
- Issue
- 7
- Pages
- 2282-2312
- Citations
- 1621
- Access
- Closed
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Cite This
Jonathan S. Yedidia,
William T. Freeman,
Yaakov Weiss
(2005).
Constructing Free-Energy Approximations and Generalized Belief Propagation Algorithms.
IEEE Transactions on Information Theory
, 51
(7)
, 2282-2312.
https://doi.org/10.1109/tit.2005.850085
Identifiers
- DOI
- 10.1109/tit.2005.850085