8 - Heteroskedastic Regression Models

Summary

Introduction

The regression models considered in Chapters 5 to 7 allow for the mean of the distribution of the dependent variable to vary over time by specifying the mean as a function of a set of exogenous variables. An important feature of these models is that the mean is specified to be time-varying but the variance is assumed to be constant, or homoskedastic. A natural extension of homoskedastic regression models, therefore, is to specify the variance as a function of a set of exogenous variables thereby allowing the variance to be time-varying as well. This class of model is referred to as the heteroskedastic regression model.

In this chapter, the maximum likelihood framework is applied to estimating and testing the heteroskedastic regression model. More general models, in which both heteroskedasticity and autocorrelation structures are present in systems of equations by combining the variance specifications of this chapter with the autocorrelation specifications of Chapter 7, are also considered. In specifying this class of model, the parametric form of the distribution of the disturbances is usually assumed to be normal but this assumption can also be relaxed.

As with the autocorrelated regression model, estimators and testing procedures commonly applied to the heteroskedastic regression model are shown to be special cases of the maximum likelihood framework developed in Part ONE. The estimators that are discussed include weighted least squares and zig-zag algorithms, while the tests that are covered include the Breusch-Pagan and White tests of heteroskedasticity.