Abstract
In this study, a highly flexible form of nonlinear time series models called artificial neural networks (ANNs) are employed to predict fluctuations in economic activity in selected members (Armenia, Azerbaijan, Georgia, Kazakhstan, and Kyrgyzstan) of the Commonwealth of Independent States (CIS) using macroeconomic time series [treasury bill rate (T-bill), long term bond rate (BondLT), money supply (MS), industrial production (IP), spread (10-year treasury bond rate less 3-month treasury bill rate), BRTB (bank rate less 3-month treasury bill rate), and GDP growth rate]. Forecasting recessions being very important though challenging, recessions in the selected countries are modeled recursively 1–10 quarters ahead out-of-sample using ANNs in conjunction with macroeconomic time series for all the countries. The out-of-sample forecast results show that in general no single macroeconomic variable employed appears to be useful for predicting recessions in any of the series. However, for Armenia, the treasury bill rate, industrial production, money supply, and the spread (the yield curve) are candidate variables for predicting recessions 1–10 quarters ahead. For Georgia, Kazakhstan, and Kyrgyzstan, the treasury bill rate and money supply series are candidate variables for predicting recessions 1–10 quarters ahead.
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References
Anderson H., Ramsey J. (2002) U.S. and Canadian industrial production indices as coupled oscillators. Journal of Economic Dynamics and Control 26(1): 33–67
Anderson H., Vahid F. (1998) Testing multiple equation systems for common nonlinear components. Journal of Econometrics 84(1): 1–36
Andreano M., Savio G. (2002) Further evidence of business cycle asymmetries in G7 countries. Applied Economics 34(7): 895–904
Arize A. (1994) A re-examination of the demand for money in small developing economies. Applied Economics 26(3): 217–228
Atta-Mensah, J. (1997). The term structure, the stock market, money and economic activity in Canada. Bank of Canada Working Paper 98-5. http://dsp-psd.pwgsc.gc.ca/Collection/FB3-2-98-5E.pdf.
Auerbach A. J. (1982) The index of leading indicators: Measurement without theory, thirty-five year later. Review of Economics and Statistics 64(4): 589–595
Axelrod R. (1987) The evolution of the strategies in the iterated prisoner’s dilemma. In: Davis L. D. (eds) Algorithm and simulated annealing. Morgan Kaufmann, Los Altos, CA, pp 32–41
Balakrishnan, R., Dannnger, S., Elekdag, S., & Tytell, I. (2009). The transmission of financial stress from advanced to emerging economies. IMF Working paper No. WP/09/133. http://imf.org/external/pubs/ft/wp/2009/wp09133.pdf.
Beaudry P., Koop G. (1993) Do recessions permanently change output?. Journal of Monetary Economics 31(2): 149–163
Bernanke, B. S. (1990). On the predictive power of interest rates and interest rate spreads. New England Economic Review (Federal Reserve Bank of Boston) (November/December), 51–68.
Bidarkota P. (1999) Sectoral investigation of asymmetries in the conditional mean dynamics of the real US GDP. Studies in Nonlinear Dynamics and Econometrics 3(4): 191–200
Bidarkota P. (2000) Asymmetries in the conditional mean dynamics of real GNP: Robust evidence. The Review of Economics and Statistics 82(1): 153–157
Bonser-Neal, C., & Morley, T. R. (1997). Does the yield spread predict real economic activity? A multicountry analysis. Federal Reserve Bank of Kansas City, Economic Review, Third Quarter. http://www.kc.frb.org/publicat/econrev/pdf/3q97bons.pdf.
Brunner A. (1992) Conditional asymmetries in real GNP: A semi-nonparametric approach. Journal of Business & Economics Statistics 10(1): 65–72
Brunner A. (1997) On the dynamic properties of asymmetric models of real GNP. The Review of Economics and Statistics 79(2): 321–326
Buch C. M. (1998) Russian monetary policy: Assessing the track record. Economic Systems 22(2): 105–145
Chin, D. M., Geweke, J. F., & Miller, P. J. (2000). Predicting turning points, Federal Reserve Bank of Minneapolis Staff Report No. 267, June 2000.
Christiano L., Eichenbum M., Evans C. (1999) Monetary policy shocks: What we have learned and to what end?. In: Woodford Michael, Taylor John B. (eds) The handbook of macroeconomics. North Holland, Amsterdam, pp 65–148
Cozier, B., & Tkacz, G. (1994). The term structure and real activity in Canada. Bank of Canada Working Paper 94-3. http://129.3.20.41/eps/mac/papers/9406/9406001.pdf.
Day, J., & Lange, R. (1997). The term structure of interest rates in Canada: Information content about medium-term inflation. Bank of Canada Working Paper 97-10. http://www.bankofcanada.ca/en/res/wp/1997/wp97-10.pdf.
De Janog, K. (1975). An analysis of the behavior of a class of genitive adaptive system. Unpublished PhD dissertation, University of Michigan.
Del Negro, M. (2001). Turn, turn, turn: Predicting turning points in economic activity. Federal Reserve Bank of Atlanta Economic Review, 86(2), 1–12. http://www.frbatlanta.org/filelegacydocs/delnegro.pdf.
Diebold F. X., Rudebusch G. D. (1989) Scoring the leading indicators. Journal of Business 62(3): 369–391
Diebold F. X., Rudebusch G. D. (1991a) Forecasting output with the composite leading index: A real-time analysis. Journal of the American Statistical Association 86(415): 603–610
Diebold F. X., Rudebusch G. D. (1991b) Turning point prediction with the composite leading index: An ex ante analysis. In: Lahiri K., Moore G. H. (eds) Leading economic indicators: New approaches and forecasting records. Cambridge University Press, Cambridge, pp 231–256
Dorsey R., Walter J. (1995) Algorithm for estimation problems with multiple optima, nondifferentiability, and other irregular features. Journal of Business Economics and Statistics 13(1): 53–66
Echengreen, B., Hausmann, R., & Panniza, U. (1999). Exchange rate and financial fragility. Working paper 7418. NBER, Cambridge, MA. http://www.kc.frb.org/PUBLICAT/SYMPOS/1999/S99eich.pdf.
Esanov, A., Merkl, C., & de Souza, L. V. (2004). A preliminary evaluation of policy rule for Russia. Working Paper No. 1201, Keil Institute of World Economies. http://se2.isn.ch/serviceengine/FileContent?serviceID=RESSpecNet&fileid=BE5C13C6-276C-F6BE-70D0-3121E37ACA71&lng=en.
Estrella A. (1998) A new measure of for equations with dichotomous dependent variables. Journal of Business and Economic Statistics 16(2): 198–205
Estrella A., Hardouvelis G. (1991) The term structure as a predictor of real economic activity. Journal of Finance 46(2): 555–576
Estrella A., Mishkin F. S. (1998a) Predicting U.S. business cycle regimes. Journal of Business and Economic Statistics 17(3): 313–323
Estrella A., Mishkin F. S. (1998b) Predicting U.S. recession: Financial variables as leading indicators. The Review of Economics and Statistics 80(1): 45–61
Fama E. F. (1990) Term-structure forecasts of interest rates, inflation and real returns. Journal of Monetary Economics 25(1): 59–76
Filardo A. J. (1999) How reliable are recession prediction models?. Federal Reserve Bank of Kansas City Economic Review 84(2): 35–55
Frenkel J. A., Lown C. S. (1994) An indicator of future inflation extracted from the steepness of the interest rate yield curve along its entire length. Quarterly Journal of Economics 109(2): 517–530
Ganev, G., Molnar, K., Rybinski, W., & Wonzniak, P. (2002). The transmission mechanism of monetary policy in Central and Eastern Europe. Report No. 52, Center for Economic and Social Research (CASE), Warsaw. http://www.cerge.cuni.cz/pdf/gdn/RRCI_09_paper_01.pdf.
Garcia R., Gencay R. (2000) Pricing and hedging derivative securities with neural networks and a homogeneity hint. Journal of Econometrics 94(1–2): 93–115
Gen M., Cheng R. (1997) Genetic algorithms and engineering design. Wiley, New York
Gencay R. (1998) The predictability of security returns with simple technical trading rules. Journal of Empirical Finance 5(4): 347–359
Gencay R. (1999) Linear, nonlinear and essential foreign exchange prediction with simple technical trading rules. Journal of International Economics 47(1): 91–107
Goldberg D. (1989) Genetic algorithm in search, optimization and machine learning’s. Addison Wisely, Reading, MA
Goldstein M., Khan M. S. (1976) Large versus small price changes in the demand for imports. IMF Staff Papers 23: 200–225
Goldstein M., Khan M. S. (1978) The supply and demand for exports: A simultaneous approach. Review of Economics and Statistics 60(2): 275–286
Gordon, R. J. (1986). The American business cycle continuity and change. NBER studies in business cycles (Vol. 25). Chicago: University of Chicago Press.
Hamilton J. D. (1989) A new approach to the economic analysis of nonstationary time series and business cycle. Econometrica 57(2): 357–384
Harvey C. R. (1991) The term structure and world economic growth. Journal of Fixed Income 1(1): 7–19
Harvey C. R. (1997) The relation between the term structure of interest rates and Canadian economic growth. Canadian Journal of Economics 30(1): 169–193
Hornik K., Stinchcombe M., White H. (1989) Multilayer feed forward networks are universal approximators. Neural Networks 2(5): 359–366
Hornik K., Stinchcombe M., White H. (1990) Universal approximation of an unknown mapping and its derivatives using multilayer feed forward neural networks. Neural Networks 3(5): 551–560
Hu Z. (1993) The yield curve and real activity. IMF Staff Papers 40: 781–806
Hutchinson J., Lo A., Poggio T. (1994) A nonparametric approach to pricing and hedging derivative securities via learning networks. Journal of Finance 49(3): 851–889
Jorion P., Mishkin F. (1991) A multicountry comparison of term-structure forecasts at long horizons. Journal of Financial Economics 29(1): 59–80
Kaminsky, G. L., Reinhart, C. M., & Vegh, C. A. (2004). When it rains, it pours: Procyclical capital flows and macroeconomic policies. NBER Working Papers, 10780, National Bureau of Economic Research, Inc.
Kang, S. (1991). An Introduction of the Use of Feed Forward Neural Networks for Forecasting. Ph.D. Thesis, Kent State University.
Kastens T., Featherstone A., Biere W. (1995) A neural network premier for agricultural economists. Agricultural Finance Review 55: 54–73
Kastra I., Boyd M. (1996) Designing a neural network for forecasting economic and financial time series. Neurocomputing 10: 215–236
Kaun C., White H. (1994) Artificial neural networks: An economic perspective. Econometric Review 13: 1–91
Keller, P. M., & Richardson, T. (2003). Nominal anchor in the CIS. Working paper No. WP/03/169, IMF, Washington, DC.
Kiani K. M. (2005) Detecting business cycle asymmetries using artificial neural networks and time series models. Computational Economics 26(1): 65–85
Kiani K. M. (2007) Asymmetric business cycle fluctuations and contagion effects in G7 countries. International Journal of Business and Economics 6(3): 237–253
Kiani K. M. (2009) Asymmetries in macroeconomic time series in eleven Asian economies. International Journal of Business and Economics 8(1): 37–54
Kiani K. M., Bidarkota P. V. (2004) On business cycle asymmetries in G7 countries. Oxford Bulletin of Economics and Statistics 66(3): 333–351
Kiani K.M., Kastens T.L. (2006) Using macro-financial variables to forecast recessions: An analysis of Canada, 1957–2002. Applied Econometrics and International Development 2005 6(3): 97–106
Kiani K. M., Bidarkota P. V., Kastens T. L. (2005) Forecast performance of neural networks and business cycle asymmetries. Applied Financial Economics Letters 1(4): 205–210
Kling J. L. (1987) Predicting the turning points of business and economic time series. Journal of Business 60: 201–238
Koch P. D., Rasch R. H. (1988) An examination of the commerce department leading indicator approach. Journal of Business and Economic Statistics 6(2): 167–187
Kohzadi N., Boyd S. M., Karmanshahi B., Kastra I. (1996) A comparison of artificial neural network and time series model for forecasting commodity prices. Neurocomputing 10: 171–181
Layton A. P., Smith D. R. (2007) Business cycle dynamics with duration dependence and leading indicators. Journal of Macroeconomics 29: 855–875
Lippmann, R. (1987). An introduction to computing with neural nets. IEEE ASSP Magazine, April 4–22.
Lowe, P. (1992). The term structure of interest rates, real activity and inflation. Reserve Bank of Australia Research Discussion Paper 9204.
Marimon R., McGratten E., Sergeant T. (1990) Money as medium of exchange in an economy with artificially intelligent agents. Journal of Economics Dynamics and Control 14: 329–373
Masters T. (1993) Practical neural network recipes in C++. Academic Press, New York
Mishkin F. S. (1988) The information in the term structure: Some further results. Journal of Applied Econometrics 3(4): 307–314
Mishkin F. (1990a) The information in the longer maturity term structure about future inflation. Quarterly Journal of Economics 105(3): 815–828
Mishkin F. S. (1990b) What does the term structure tell us about future inflation?. Journal of Monetary Economics 25(1): 77–95
Mishkin F. S. (1991) A multi-country study of the information in the term structure about future inflation. Journal of International Money and Finance 10(1): 2–22
Neftci S. (1984) Are economic time series asymmetric over the business cycle?. Journal of Political Economy 92(2): 307–328
Nyberg, H. (2008a). Dynamic probit models and financial variables in recession forecasting. University of Helsinki and HECER, Discussion Paper No. 225, June 2008, ISSN 1795-0562. http://ethesis.helsinki.fi/julkaisut/eri/hecer/disc/225/dynamicp.pdf.
Nyberg, H. (2008b). Forecasting the direction of the U.S. Stock market with dynamic binary probit models. University of Helsinki and HECER, Discussion Paper No. 225, June 2008, ISSN 1795-0562. http://ethesis.helsinki.fi/julkaisut/eri/hecer/disc/227/forecast.pdf.
Plosser C. I., Rouwenhorst K. G. (1994) International term structures and real economic growth. Journal of Monetary Economics 33(1): 133–155
Potter S. M. (1995) A non-linear approach to U.S. GNP. Journal of Applied Econometrics 10(2): 109–125
Qi M. (2001) Predicting US recessions via leading indicators via neural network models. International Journal of Forecasting 17(3): 383–401
Qi M., Madala G. S. (1999) Economic factors and the stock market: A new perspective. Journal of Forecasting 18(3): 151–166
Ramsey J. B., Rothman P. (1996) Time irreversibility and business cycle asymmetry. Journal of Money Credit and Banking 28(1): 1–21
Rautava J. (2004) The role of the oil prices and the real exchange rates in the Russia’s economy—A cointegration approach. Journal of Comparative Economics 32(2): 315–327
Reilly D., Cooper L. (1990) An overview of neural networks: Early models to real world systems. In: Zornetzer S. F., Davis J. L., Lau C. (eds) An introduction to neural and electronic networks. Academic Press, New York, pp 227–248
Reiser B., Faraggi D. (1997) Confidence intervals for the generalized ROC criterion. Biometrics 53(2): 644–652
Rumelhart D. E., Hinton G. E., Williams R. J. (1986) Learning internal representation by error propagation. In: Rumelhart D. E., McClelland J. L. (eds) Parallel distributed processing. MIT Press, Cambridge, MA, pp 318–363
Schnabl G. (2005) International capital market and exchange rate stabilization. Journal of Comparative Economies 33(3): 425–440
Schumpeter J. (1939) Business cycles: A theoretical, historical, and statistical analysis of the capitalist process. McGraw-Hill, New York
Sharda R. (1994) Neural networks for the MS/OR analyst: An application bibliography. Interfaces 24(2): 116–130
Starr M. A. (2005) Does monetary policy matters in CIS? Effects of monetary policy on output in CIS countries. Journal of Comparative Economies 33(3): 441–461
Stinchcombe, M., & White, H. (1989). Universal approximation using feed forward network with non-sigmoid hidden layer activation functions. In Proceedings of the international joint conference on neural networks (Vol. I, pp. 613–618), Washington, DC. New York: IEEE Press.
Swanson N. R., White H. (1995) A model selection approach to assessing the information in the term structure using linear model and artificial neural networks. Journal of Business Economics and Statistics 13(3): 265–275
Swanson N. R., White H. (1997a) A model selection approach for real time macroeconomic forecasting using linear models and artificial neural networks. Review of Economics and Statistics 79(4): 540–550
Swanson N. R., White H. (1997b) Forecasting economic time series using flexible vs. fixed and linear vs. nonlinear economic models. International journal of Forecasting 13(4): 439–461
Tang Z., Fishwick A. (1993) Feed forward neural networks as models for time series forecasting. ORSA Journal of Computing 5: 374–385
Vishwakarma K. (1994) Recognizing business cycle turning points by means of a neural networks. Computational Economics 7: 175–185
Weliwita A., Ekanayake E. M. (1998) Demand for money in Sri Lanka during the post-1998 period: A cointegration and error correction analysis. Applied Economics 30: 1219–1229
Werbos, P. J. (1974). Beyond regression: New tools for prediction and analysis in behavioral science. Ph.D. Thesis, Harvard University.
White H. (1989) Learning in artificial neural networks: A statistical perspective. Neural Computations 1(4): 425–464
Widrow B., Rumelhart D., Lehr M. (1994) Neural networks: Application in the industry, business and science. Communication of the ACM 37(3): 93–105
Wong F. (1991) Time series forecasting using back propagation using neural networks. Neurocomputing 2: 147–149
Zarnowitz, V., & Phillip, B. (1993) Twenty-two years of the NBER-ASA quarterly economic outlook surveys: Aspects and comparisons of forecasting performance in business cycles, indicators, and forecasting. In H. Stock James & W. Watson Mark (Eds.). Chicago: University of Chicago Press.
Zhang G., Patuwo B., Hu M. (1998) Forecasting with artificial neural networks: The state of arts. International Journal of Forecasting 14(1): 35–62
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Kiani, K.M. Fluctuations in Economic and Activity and Stabilization Policies in the CIS. Comput Econ 37, 193–220 (2011). https://doi.org/10.1007/s10614-010-9233-z
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DOI: https://doi.org/10.1007/s10614-010-9233-z