Bayesian Density Regression

Abstract

Summary: The paper considers Bayesian methods for density regression, allowing a random probability distribution to change flexibly with multiple predictors. The conditional response distribution is expressed as a non-parametric mixture of regression models, with the mixture distribution changing with predictors. A class of weighted mixture of Dirichlet process priors is proposed for the uncountable collection of mixture distributions. It is shown that this specification results in a generalized Pólya urn scheme, which incorporates weights that are dependent on the distance between subjects’ predictor values. To allow local dependence in the mixture distributions, we propose a kernel-based weighting scheme. A Gibbs sampling algorithm is developed for posterior computation. The methods are illustrated by using simulated data examples and an epidemiologic application.

Keywords

This publication has 23 references indexed in Scilit:

Bayesian dynamic modeling of latent trait distributions
Biostatistics, 2006
Bayesian Inferences on Predictors of Conception Probabilities
Biometrics, 2005
A Method for Combining Inference Across Related Nonparametric Bayesian Models
Journal of the Royal Statistical Society Series B: Statistical Methodology, 2004
An ANOVA Model for Dependent Random Measures
Journal of the American Statistical Association, 2004
Mixtures of products of Dirichlet processes for variable selection in survival analysis
Published by Elsevier ,2002
Gibbs Sampling Methods for Stick-Breaking Priors
Journal of the American Statistical Association, 2001
Estimating Mixture of Dirichlet Process Models
Journal of Computational and Graphical Statistics, 1998
Computing Nonparametric Hierarchical Models
Published by Springer Nature ,1998
Mixtures of Dirichlet Processes with Applications to Bayesian Nonparametric Problems
The Annals of Statistics, 1974
Ferguson Distributions Via Polya Urn Schemes
The Annals of Statistics, 1973