Accession Number : ADA184256

Title :   A Heteroscedastic Hierarchical Model.

Descriptive Note : Technical rept.,

Corporate Author : CALIFORNIA UNIV BERKELEY OPERATIONS RESEARCH CENTER

Personal Author(s) : Jewell,William S

PDF Url : ADA184256

Report Date : Apr 1987

Pagination or Media Count : 29

Abstract : Hierarchical models are important in Bayesian prediction because they enable the use of collateral data from related risks with exchangeable parameters. The classical normal-normal-normal model with random means show clearly how the linear predictive mean for a single risk is improved by the availability of cohort data. However, this model has the disadvantage that the predictive density is homoscedastic, that is, the posterior, variance depends only on the design (number of risks and number of samples). In most applications, one would assume that the variance also depended upon the data values. One can, of course, change the variances at each level into random parameters, but this modifies the predictive mean formulae and leads to messy results in general. In the course of examining approximations to r predictive variances, the author has found an extended normal model with variances that are quadratic in the data, and with the additional advantage that the linear mean formulae are unchanged.

Descriptors :   *MATHEMATICAL MODELS, *MATHEMATICAL PREDICTION, BAYES, THEOREM, ANALYSIS OF VARIANCE, PARAMETERS, RISK, MEAN, COVARIANCE

Subject Categories : Operations Research

Distribution Statement : APPROVED FOR PUBLIC RELEASE