TY - DATA T1 - an-efficient-bayesian-approach-to-multiple-structural-change-in-multivariate-time-series AU - Maheu, John M. AU - Song, Yong DO - doi:10.15456/jae.2022326.0708300259 AB - This paper provides a feasible approach to estimation and forecasting of multiple structural breaks for vector autoregressions and other multivariate models. Owing to conjugate prior assumptions we obtain a very efficient sampler for the regime allocation variable. A new hierarchical prior is introduced to allow for learning over different structural breaks. The model is extended to independent breaks in regression coefficients and the volatility parameters. Two empirical applications show the improvements the model has over benchmarks. In a macro application with seven variables we empirically demonstrate the benefits from moving from a multivariate structural break model to a set of univariate structural break models to account for heterogeneous break patterns across data series. ET - 1 PY - 2018 PB - ZBW - Leibniz Informationszentrum Wirtschaft UR - https://journaldata.zbw.eu/dataset/an-efficient-bayesian-approach-to-multiple-structural-change-in-multivariate-time-series ER -