论文信息 - Lifted Belief Propagation : Pairwise Marginals and Beyond

Lifted Belief Propagation : Pairwise Marginals and Beyond

Lifted belief propagation (LBP) can be extremely fast at computing approximate marginal probability distributions over single variables and neighboring ones in the underlying graphical model. It does, however, not prescribe a way to compute joint distributions over pairs, triples or k-tuples of distant random variables. In this paper, we present an algorithm, called conditioned LBP, for approximating these distributions. Essentially, we select variables one at a time for conditioning, running lifted belief propagation after each selection. This naive solution, however, recomputes the lifted network in each step from scratch, therefore often canceling the benefits of lifted inference. We show how to avoid this by efficiently computing the lifted network for each conditioning directly from the one already known for the single node marginals. Our experimental results validate that significant efficiency gains are possible and illustrate the potential for second-order parameter estimation of Markov logic networks.

K. Kersting | Fraunhofer Iais | B. Ahmadi | Fabian Hadiji

[1] Pedro M. Domingos,et al. Efficient Lifting for Online Probabilistic Inference , 2010, AAAI.

[2] Lise Getoor,et al. Bisimulation-based Approximate Lifted Inference , 2009, UAI.

[3] Kristian Kersting,et al. Counting Belief Propagation , 2009, UAI.

[4] Zoubin Ghahramani,et al. Choosing a Variable to Clamp: Approximate Inference Using Conditioned Belief Propagation , 2009 .

[5] Leslie Pack Kaelbling,et al. Lifted Probabilistic Inference with Counting Formulas , 2008, AAAI.

[6] Pedro M. Domingos,et al. Lifted First-Order Belief Propagation , 2008, AAAI.

[7] Umut A. Acar,et al. Adaptive inference on general graphical models , 2008, UAI.

[8] Rina Dechter,et al. Cutset Sampling for Bayesian Networks , 2011, J. Artif. Intell. Res..

[9] Hilbert J. Kappen,et al. Loop Corrected Belief Propagation , 2007, AISTATS.

[10] Matthew Richardson,et al. Markov logic networks , 2006, Machine Learning.

[11] John W. Fisher,et al. Loopy Belief Propagation: Convergence and Effects of Message Errors , 2005, J. Mach. Learn. Res..

[12] Yee Whye Teh,et al. Linear Response for Approximate Inference , 2003, NIPS.

[13] Simon Kasif,et al. Logarithmic-Time Updates and Queries in Probabilistic Networks , 1995, UAI.

[14] Judea Pearl,et al. Probabilistic reasoning in intelligent systems - networks of plausible inference , 1991, Morgan Kaufmann series in representation and reasoning.