Context-Specific Independence in Bayesian Networks

C. Boutilier, N. Friedman, M. Goldszmidt, and D. Koller

In Proc. Twelfth Conf. on Uncertainty in Artificial Intelligence (UAI 96).

Abstract

Bayesian networks provide a language for qualitatively representing the conditional independence properties of a distribution. This allows a natural and compact representation of the distribution, eases knowledge acquisition, and supports effective inference algorithms. It is well-known, however, that there are certain independencies that we cannot capture qualitatively within the Bayesian network structure: independencies that hold only in certain contexts, i.e., given a specific assignment of values to certain variables. In this paper, we propose a formal notion of context-specific independence, based on regularities in the conditional probability tables (CPTs) at a node. We present a technique, analogous to (and based on) d-separation, for determining when such an independence holds in a given network. We then focus on one particular qualitative representation scheme --- tree-structured CPTs --- for capturing context-based irrelevance. We suggest ways in which this representation can be used to support effective inference algorithms, both exact and approximate. In particular, we present a structural decomposition of the resulting network which can improve the performance of clustering algorithms, and an alternative algorithm based on cutset conditioning. We also show how the ideas of context-specific independence can be used to support approximate probabilistic inference.

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