Computing posterior and marginal probabilities constitutes the backbone of almost all inferences in Bayesian networks. These computations are known to be intractable in general, both to compute exactly and to approximate (e.g., by sampling algorithms). While it is well known under what constraints exact computation can be rendered tractable (viz., bounding tree-width of the moralized network and bounding the cardinality of the variables) it is less known under what constraints approximate Bayesian inference can be tractable. Here, we extend the existing formal framework of fixed-error randomized tractability (a randomized analogue of fixed-parameter tractability), and use it to address this problem, both by re-interpreting known results fro...
The clique tree algorithm is the standard method for doing inference in Bayesian networks. It works ...
In this paper, we consider the problem of performing inference on Bayesian networks which exhibit a ...
AbstractOne of the key computational problems in Bayesian networks is computing the maximal posterio...
Contains fulltext : 182072.pdf (publisher's version ) (Closed access)Computing pos...
Contains fulltext : 160422.pdf (publisher's version ) (Open Access)Computing poste...
Approximating the inference probability Pr[X = xjE = e] in any sense, even for a single evidence nod...
We present a unifying framework for exact and approximate inference in Bayesian networks. This frame...
AbstractApproximating the inference probability Pr[X = x | E = e] in any sense, even for a single ev...
We present completeness results for inference in Bayesian networks with respect to two different par...
Bayesian inference plays an important role in phylogenetics, evolutionary biology, and in many other...
We present completeness results for inference in Bayesian networks with respect to two different par...
A Bayesian network can be used to model consisely the probabilistic knowledge with respect to a give...
Bayesian networks provide a useful mechanism for encoding and reasoning about uncertainty. Recent pr...
Bayesian statistics provides a principled framework for performing statistical inference for an unkn...
Loopy and generalized belief propagation are popular algorithms for approximate inference in Marko...
The clique tree algorithm is the standard method for doing inference in Bayesian networks. It works ...
In this paper, we consider the problem of performing inference on Bayesian networks which exhibit a ...
AbstractOne of the key computational problems in Bayesian networks is computing the maximal posterio...
Contains fulltext : 182072.pdf (publisher's version ) (Closed access)Computing pos...
Contains fulltext : 160422.pdf (publisher's version ) (Open Access)Computing poste...
Approximating the inference probability Pr[X = xjE = e] in any sense, even for a single evidence nod...
We present a unifying framework for exact and approximate inference in Bayesian networks. This frame...
AbstractApproximating the inference probability Pr[X = x | E = e] in any sense, even for a single ev...
We present completeness results for inference in Bayesian networks with respect to two different par...
Bayesian inference plays an important role in phylogenetics, evolutionary biology, and in many other...
We present completeness results for inference in Bayesian networks with respect to two different par...
A Bayesian network can be used to model consisely the probabilistic knowledge with respect to a give...
Bayesian networks provide a useful mechanism for encoding and reasoning about uncertainty. Recent pr...
Bayesian statistics provides a principled framework for performing statistical inference for an unkn...
Loopy and generalized belief propagation are popular algorithms for approximate inference in Marko...
The clique tree algorithm is the standard method for doing inference in Bayesian networks. It works ...
In this paper, we consider the problem of performing inference on Bayesian networks which exhibit a ...
AbstractOne of the key computational problems in Bayesian networks is computing the maximal posterio...