Template-Type: ReDIF-Paper 1.0
Series: Tinbergen Institute Discussion Papers
Creation-Date: 2018-09-02
Number: 18-069/III
Author-Name: Knut Are Aastveit
Author-Email: Knut-Are.Aastveit@norges-bank.no 
Author-Workplace-Name: Norges Bank
Author-Name: James Mitchell
Author-Email: James.Mitchell@wbs.ac.uk
Author-Workplace-Name: Warwick Business School
Author-Name: Francesco Ravazzolo
Author-Email: francesco.ravazzolo@unibz.it
Author-Workplace-Name: Free University of Bozen/Bolzano
Author-Name: Herman van Dijk
Author-Email: hkvandijk@ese.eur.nl
Author-Workplace-Name: Erasmus University, Noges Bank
Title: The Evolution of Forecast Density Combinations in Economics
Abstract: Increasingly, professional forecasters and academic researchers present model-based and subjective or judgment-based forecasts in economics which are accompanied by some measure of uncertainty. In its most complete form this measure is a probability density function for future values of the variables of interest. At the same time combinations of forecast densities are being used in order to integrate information coming from several sources like experts, models and large micro-data sets. Given this increased relevance of forecast density combinations, the genesis and evolution of this approach, both inside and outside economics, is explored. A fundamental density combination equation is specified which shows that various frequentist as well as Bayesian approaches give different specific contents to this density. In its most simplistic case, it is a restricted finite mixture, giving fixed equal weights to the various individual densities. The specification of the fundamental density combination is made more flexible in recent literature. It has evolved from using simple average weights to optimized weights and then to `richer' procedures that allow for time-variation, learning features and model incompleteness. The recent history and evolution of forecast density combination methods, together with their potential and benefits, are illustrated in a policy making environment of central banks.
Classification-JEL: C10; C11
Keywords: Forecasting; Model Uncertainty; Density Combinations 
File-URL: https://papers.tinbergen.nl/18069.pdf
File-Format: application/pdf
File-Size: 738386 bytes
Handle: RePEc:tin:wpaper:20180069