Predictive Density Combination Using a Tree-Based Synthesis Function-Reference-Cited by-同舟云学术

Predictive Density Combination Using a Tree-Based Synthesis Function

Published:2023-11-21 Issue: Volume: Page:
ISSN:2573-7953
Container-title:Working paper (Federal Reserve Bank of Cleveland)
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Author:

Chernis Tony¹,Hauzenberger Niko²,Huber Florian³,Koop Gary⁴,Mitchell James⁵^ORCID

Affiliation:

1. Bank of Canada

2. University of Strathclyde, University of Salzburg

3. University of Salzburg

4. University of Strathclyde

5. Federal Reserve Bank of Cleveland

Abstract

Bayesian predictive synthesis (BPS) provides a method for combining multiple predictive distributions based on agent/expert opinion analysis theory and encompasses a range of existing density forecast pooling methods. The key ingredient in BPS is a “synthesis” function. This is typically specified parametrically as a dynamic linear regression. In this paper, we develop a nonparametric treatment of the synthesis function using regression trees. We show the advantages of our tree-based approach in two macroeconomic forecasting applications. The first uses density forecasts for GDP growth from the euro area’s Survey of Professional Forecasters. The second combines density forecasts of US inflation produced by many regression models involving different predictors. Both applications demonstrate the benefits – in terms of improved forecast accuracy and interpretability – of modeling the synthesis function nonparametrically.

Publisher

Federal Reserve Bank of Cleveland

Reference59 articles.

1. 1. Aastveit, Knut Are, Jamie L. Cross, and Herman K. van Dijk (2023). "Quantifying time-varying forecast uncertainty and risk for the real price of oil." Journal of Business & Economic Statistics, 41(2), pp. 523-537. doi:10.1080/07350015.2022.2039159.

2. 2. Aastveit, Knut Are, Karsten R Gerdrup, Anne Sofie Jore, and Leif Anders Thorsrud (2014). "Nowcasting GDP in real time: A density combination approach." Journal of Business & Economic Statistics, 32(1), pp. 48-68. doi:10.1080/07350015.2013.844155.

3. 3. Aastveit, Knut Are, James Mitchell, Francesco Ravazzolo, and Herman K. van Dijk (2019). "The evolution of forecast density combinations in economics." In Oxford Research Encyclopedia of Economics and Finance. Oxford University Press. doi:10.1093/acrefore/9780190625979.013.381.

4. 4. Aastveit, Knut Are, Francesco Ravazzolo, and Herman K. van Dijk (2018). "Combined density nowcasting in an uncertain economic environment." Journal of Business & Economic Statistics, 36(1), pp. 131-145. doi:10.1080/07350015.2015.1137760.

5. 5. Adrian, Tobias, Nina Boyarchenko, and Domenico Giannone (2019). "Vulnerable growth." American Economic Review, 109(4), pp. 1263-1289. doi:10.1257/aer.20161923.