Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization for solving hybrid Bayesian networks. Any probability density function (PDF) can be approximated with an MTE potential, which can always be marginalized in closed form. This allows propagation to be done exactly using the Shenoy-Shafer architecture for computing marginals, with no restrictions on the construction of a join tree. This paper presents MTE potentials that approximate an arbitrary normal PDF with any mean and a positive variance. The properties of these MTE potentials are presented, along with examples that demonstrate their use in solving hybrid Bayesian networks. Assuming that the joint density exists, MTE potentials can be used for infe...
AbstractIn this paper we propose a framework, called mixtures of truncated basis functions (MoTBFs),...
In this paper we propose a framework, called mixtures of truncated basis functions (MoTBFs), for rep...
AbstractMixtures of truncated exponentials (MTEs) are a powerful alternative to discretisation when ...
Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization for solving...
Has been accepted for publication in the International Journal of Approximate Reasoning, Elsevier Sc...
AbstractMixtures of truncated exponentials (MTE) potentials are an alternative to discretization for...
Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization and Monte C...
Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization for approxi...
Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization and Monte C...
In this paper we introduce an algorithm for learning hybrid Bayesian networks from data. The result ...
The main goal of this paper is to describe a method for exact inference in general hybrid Bayesian n...
AbstractThe main goal of this paper is to describe inference in hybrid Bayesian networks (BNs) using...
AbstractIn this paper we introduce an algorithm for learning hybrid Bayesian networks from data. The...
The MTE (Mixture of Truncated Exponentials) model allows to deal with Bayesian networks containing d...
When a hybrid Bayesian network has conditionally deterministic variables with continuous parents, t...
AbstractIn this paper we propose a framework, called mixtures of truncated basis functions (MoTBFs),...
In this paper we propose a framework, called mixtures of truncated basis functions (MoTBFs), for rep...
AbstractMixtures of truncated exponentials (MTEs) are a powerful alternative to discretisation when ...
Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization for solving...
Has been accepted for publication in the International Journal of Approximate Reasoning, Elsevier Sc...
AbstractMixtures of truncated exponentials (MTE) potentials are an alternative to discretization for...
Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization and Monte C...
Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization for approxi...
Mixtures of truncated exponentials (MTE) potentials are an alternative to discretization and Monte C...
In this paper we introduce an algorithm for learning hybrid Bayesian networks from data. The result ...
The main goal of this paper is to describe a method for exact inference in general hybrid Bayesian n...
AbstractThe main goal of this paper is to describe inference in hybrid Bayesian networks (BNs) using...
AbstractIn this paper we introduce an algorithm for learning hybrid Bayesian networks from data. The...
The MTE (Mixture of Truncated Exponentials) model allows to deal with Bayesian networks containing d...
When a hybrid Bayesian network has conditionally deterministic variables with continuous parents, t...
AbstractIn this paper we propose a framework, called mixtures of truncated basis functions (MoTBFs),...
In this paper we propose a framework, called mixtures of truncated basis functions (MoTBFs), for rep...
AbstractMixtures of truncated exponentials (MTEs) are a powerful alternative to discretisation when ...