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16 - Forecasting turning points in international output growth rates using Bayesian exponentially weighted autoregression, time-varying parameter, and pooling techniques (1991)

Published online by Cambridge University Press:  24 October 2009

By
Arnold Zellner ,
Chansik Hong  and
Chung-ki Min
Edited by
Arnold Zellner  and
Franz C. Palm
Arnold Zellner
Affiliation:
Professor Emeritus of Economics and Statistics, Graduate School of Business, University of Chicago, Chicago, IL
Chansik Hong
Affiliation:
Department of Economics, Sookmyung Women's University, Seoul
Chung-ki Min
Affiliation:
Department of Economics, Hankuk University of Foreign Studies, Seoul
Arnold Zellner
Affiliation:
University of Chicago
Franz C. Palm
Affiliation:
Universiteit Maastricht, Netherlands
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Summary

Introduction

In previous work (Zellner, Hong, and Gulati 1990 and Zellner and Hong 1989), the problem of forecasting turning points in economic time series was formulated and solved in a Bayesian decision theoretic framework. The methodology was applied using a fixed parameter autoregressive, leading indicator (ARLI) model and unpooled data for eighteen countries to forecast turning points over the period 1974–85. In the present chapter, we investigate the extent to which use of exponential weighting, time-varying parameter ARLI models, and pooling techniques leads to improved results in forecasting turning points for the same eighteen countries over a slightly extended period, 1974–86.

The methodology employed in this work has benefited from earlier work of Wecker (1979), Moore and Zarnowitz (1982), Moore (1983), Zarnowitz (1985), and Kling (1987). Just as Wecker and Kling have done, we employ a model for the observations and an explicit definition of a turning point, for example a downturn (DT) or an upturn (UT). Along with Kling, we allow for parameter uncertainty by adopting a Bayesian approach and computing probabilities of a DT or UT given past data from a model's predictive probability density function (pdf) for future observations. Having computed such probabilities from the data, we use them in a decision theoretic framework with given loss structures to obtain optimal turning point forecasts which can readily be computed.

The plan of our chapter is as follows. In section 2, we explain our models and methods. Section 3 is devoted to a description of our data.

Type
Chapter
Information
The Structural Econometric Time Series Analysis Approach , pp. 528 - 558
Publisher: Cambridge University Press
Print publication year: 2004

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References

Bowman, H. W. and A. M. Laporte (1975), “Stochastic optimization in recursive equation systems with random parameters with an application to control of the money supply,” in S. E. Fienberg and A. Zellner (eds.), Studies in Bayesian Econometrics and Statistics (Amsterdam, North-Holland), 441–62
Garcia-Ferrer, A., Highfield, R. A., Palm, F. C., and Zellner, A. (1987), “Macroeconomic forecasting using pooled international data,” Journal of Business and Economic Statistics 5, 53–67; chapter 13 in this volumeGoogle Scholar
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Zellner, A. and C. Hong (1988), “Bayesian methods for forecasting turning points in economic time series: sensitivity of forecasts to asymmetry of loss structures,” in K. Lahiri and G. Moore (eds.), Leading Economic Indicators: New Approaches and Forecasting Records (Cambridge, Cambridge University Press)
Zellner, A. and Hong, C. (1989), “Forecasting international growth rates using Bayesian shrinkage and other procedures,” Journal of Econometrics, Annals 40, 183–202; chapter 14 in this volumeCrossRefGoogle Scholar
Zellner, A., C. Hong, and G. M. Gulati (1990), “Turning points in economic time series, loss structures, and Bayesian forecasting,” in S. Geisser, J. S. Hodges, S. J. Press, and A. Zellner (eds.), Bayesian and Likelihood Methods in Statistics and Econometrics: Essays in Honor of George A. Barnard (Amsterdam, North-Holland), 371–89; chapter 15 in this volume

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