Efficient Bayesian estimation and combination of GARCH-type models

David Ardia & Lennart Hoogerheide

Résumé This chapter proposes an up-to-date review of estimation strategies available for the Bayesian inference of GARCH-type models. The emphasis is put on a novel efficient procedure named AdMitIS. The methodology automatically constructs a mixture of Student-t distributions as an approximation to the posterior density of the model parameters. This density is then used in importance sampling for model estimation, model selection and model combination. The procedure is fully automatic which avoids difficult and time consuming tuning of MCMC strategies. The AdMitIS methodology is illustrated with an empirical application to S&P index log-returns where non-nested GARCH-type models are estimated and combined to predict the distribution of next-day ahead log-returns.
Mots-clés GARCH, Bayesian inference, MCMC, marginal likelihood, Bayesian model averaging, adaptive mixture of Student-t distributions, importance sampling
Citation Ardia, D., & Hoogerheide, L. (2010). Efficient Bayesian estimation and combination of GARCH-type models. In Rethinking Risk Measurement and Reporting. (Vol. II, pp. 1-19). London: Klaus Bocker.
Type Chapitre de livre (Anglais)
Année 2010
Titre du livre Rethinking Risk Measurement and Reporting
Editeur commercial Klaus Bocker (London)
Volume II
Pages 1-19
Titre de la collection Risk Books
URL http://riskbooks.com/rethinking-risk-measurement-and-repo...