Bayesian semiparameric multivariate stochastic volatility with an application to international volatility co-movements

Danielova Zaharieva Martina, Trede Mark, Wilfling Bernd


Abstract
In this paper, we establish a Cholesky-type multivariate stochastic volatility estimation framework, in which we let the innovation vector follow a Dirichlet process mixture, thus enabling us to model highly flexible return distributions. The Cholesky decomposition allows parallel univariate process modeling and creates potential for estimating highly dimensional specifications. We use Markov Chain Monte Carlo methods for posterior simulation and predictive density computation. We apply our framework to a five-dimensional stock-return data set and analyze international volatility co-movements among the largest stock markets.

Keywords
Bayesian nonparametrics; Markov Chain Monte Carlo; Dirichlet process mixture; multivariate stochastic volatility; volatility co-movements



Publication type
Working paper

Peer reviewed
No

Publication status
Published

Year
2017

Volume
62/2017

Title of series
CQE-Working-Papers

Publisher
Center for Quantitative Economics (CQE), University of Muenster

Place
University of Muenster

Language
English