Cutset Sampling for Bayesian Networks

JAIR 2007 pp. 1-48

doi:10.1613/JAIR.2149 /jair/2007/bidyuk2007jair-cutset/

Abstract

The paper presents a new sampling methodology for Bayesian networks that samples only a subset of variables and applies exact inference to the rest. Cutset sampling is a network structure-exploiting application of the Rao-Blackwellisation principle to sampling in Bayesian networks. It improves convergence by exploiting memory-based inference algorithms. It can also be viewed as an anytime approximation of the exact cutset-conditioning algorithm developed by Pearl. Cutset sampling can be implemented efficiently when the sampled variables constitute a loop-cutset of the Bayesian network and, more generally, when the induced width of the network's graph conditioned on the observed sampled variables is bounded by a constant w. We demonstrate empirically the benefit of this scheme on a range of benchmarks.

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Text

Bidyuk and Dechter. "Cutset Sampling for Bayesian Networks." Journal of Artificial Intelligence Research, 2007. doi:10.1613/JAIR.2149

Markdown

[Bidyuk and Dechter. "Cutset Sampling for Bayesian Networks." Journal of Artificial Intelligence Research, 2007.](https://mlanthology.org/jair/2007/bidyuk2007jair-cutset/) doi:10.1613/JAIR.2149

BibTeX

@article{bidyuk2007jair-cutset,
  title     = {{Cutset Sampling for Bayesian Networks}},
  author    = {Bidyuk, Bozhena and Dechter, Rina},
  journal   = {Journal of Artificial Intelligence Research},
  year      = {2007},
  pages     = {1-48},
  doi       = {10.1613/JAIR.2149},
  volume    = {28},
  url       = {https://mlanthology.org/jair/2007/bidyuk2007jair-cutset/}
}