GARCH density and functional forecasts

This paper derives the analytic form of the $h$-step ahead prediction density of a GARCH(1,1) process under Gaussian innovations, with a possibly asymmetric news impact curve. The contributions of the paper consists both in the derivation of the analytic form of the density, and in its application to a number of econometric problems. A first application of the explicit formulae is to characterize the degree of non-Gaussianity of the prediction distribution; for some values encountered in applications, deviations of the prediction distribution from the Gaussian are found to be small, and sometimes not. the Gaussian density as an approximation of the true prediction density. A second application of the formulae is to compute exact tail probabilities and functionals, such as the Value at Risk and the Expected Shortfall, that measure risk when the underlying asset return is generated by a Gaussian GARCH(1,1). This improves on existing methods based on Monte Carlo simulations and (non-parametric) estimation techniques, because the present exact formulae are free of Monte Carlo estimation uncertainty. A third application is the definition of uncertainty regions for functionals of the prediction distribution that reflect in-sample estimation uncertainty. These applications are illustrated on selected empirical examples.