Macroeconomic forecasting with large Bayesian VARs: Global-local priors and the illusion of sparsity

Jamie L. Cross; Chenghan Hou; Aubrey Poon

doi:10.1016/j.ijforecast.2019.10.002

Macroeconomic forecasting with large Bayesian VARs: Global-local priors and the illusion of sparsity

Jamie L. Cross, Chenghan Hou^*, Aubrey Poon

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

46 Citations (Scopus)

Abstract

A class of global-local hierarchical shrinkage priors for estimating large Bayesian vector autoregressions (BVARs) has recently been proposed. We question whether three such priors: Dirichlet-Laplace, Horseshoe, and Normal-Gamma, can systematically improve the forecast accuracy of two commonly used benchmarks (the hierarchical Minnesota prior and the stochastic search variable selection (SSVS) prior), when predicting key macroeconomic variables. Using small and large data sets, both point and density forecasts suggest that the answer is no. Instead, our results indicate that a hierarchical Minnesota prior remains a solid practical choice when forecasting macroeconomic variables. In light of existing optimality results, a possible explanation for our finding is that macroeconomic data is not sparse, but instead dense.

Original language	English
Pages (from-to)	899-915
Number of pages	17
Journal	International Journal of Forecasting
Volume	36
Issue number	3
DOIs	https://doi.org/10.1016/j.ijforecast.2019.10.002
Publication status	Published - 1 Jul 2020

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10.1016/j.ijforecast.2019.10.002

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title = "Macroeconomic forecasting with large Bayesian VARs: Global-local priors and the illusion of sparsity",

abstract = "A class of global-local hierarchical shrinkage priors for estimating large Bayesian vector autoregressions (BVARs) has recently been proposed. We question whether three such priors: Dirichlet-Laplace, Horseshoe, and Normal-Gamma, can systematically improve the forecast accuracy of two commonly used benchmarks (the hierarchical Minnesota prior and the stochastic search variable selection (SSVS) prior), when predicting key macroeconomic variables. Using small and large data sets, both point and density forecasts suggest that the answer is no. Instead, our results indicate that a hierarchical Minnesota prior remains a solid practical choice when forecasting macroeconomic variables. In light of existing optimality results, a possible explanation for our finding is that macroeconomic data is not sparse, but instead dense.",

keywords = "Bayesian VAR, Big Data, Hierarchical priors, Macroeconomic Forecasting, Shrinkage prior, Sparsity, Stochastic volatility",

author = "Cross, {Jamie L.} and Chenghan Hou and Aubrey Poon",

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doi = "10.1016/j.ijforecast.2019.10.002",

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T1 - Macroeconomic forecasting with large Bayesian VARs

T2 - Global-local priors and the illusion of sparsity

AU - Cross, Jamie L.

AU - Hou, Chenghan

AU - Poon, Aubrey

PY - 2020/7/1

Y1 - 2020/7/1

N2 - A class of global-local hierarchical shrinkage priors for estimating large Bayesian vector autoregressions (BVARs) has recently been proposed. We question whether three such priors: Dirichlet-Laplace, Horseshoe, and Normal-Gamma, can systematically improve the forecast accuracy of two commonly used benchmarks (the hierarchical Minnesota prior and the stochastic search variable selection (SSVS) prior), when predicting key macroeconomic variables. Using small and large data sets, both point and density forecasts suggest that the answer is no. Instead, our results indicate that a hierarchical Minnesota prior remains a solid practical choice when forecasting macroeconomic variables. In light of existing optimality results, a possible explanation for our finding is that macroeconomic data is not sparse, but instead dense.

AB - A class of global-local hierarchical shrinkage priors for estimating large Bayesian vector autoregressions (BVARs) has recently been proposed. We question whether three such priors: Dirichlet-Laplace, Horseshoe, and Normal-Gamma, can systematically improve the forecast accuracy of two commonly used benchmarks (the hierarchical Minnesota prior and the stochastic search variable selection (SSVS) prior), when predicting key macroeconomic variables. Using small and large data sets, both point and density forecasts suggest that the answer is no. Instead, our results indicate that a hierarchical Minnesota prior remains a solid practical choice when forecasting macroeconomic variables. In light of existing optimality results, a possible explanation for our finding is that macroeconomic data is not sparse, but instead dense.

KW - Bayesian VAR

KW - Big Data

KW - Hierarchical priors

KW - Macroeconomic Forecasting

KW - Shrinkage prior

KW - Sparsity

KW - Stochastic volatility

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JO - International Journal of Forecasting

JF - International Journal of Forecasting

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Macroeconomic forecasting with large Bayesian VARs: Global-local priors and the illusion of sparsity

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