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DETERMINING THE COINTEGRATION RANK IN HETEROSKEDASTIC VAR MODELS OF UNKNOWN ORDER

Published online by Cambridge University Press:  20 September 2016

Giuseppe Cavaliere
Affiliation:
University of Bologna
Luca De Angelis
Affiliation:
University of Bologna
Anders Rahbek
Affiliation:
University of Copenhagen
A.M. Robert Taylor*
Affiliation:
University of Essex
*
*Address correspondence to Robert Taylor, Essex Business School, University of Essex, Wivenhoe Park, Colchester CO4 3SQ, UK; e-mail: [email protected].

Abstract

We investigate the asymptotic and finite sample properties of a number of methods for estimating the cointegration rank in integrated vector autoregressive systems of unknown autoregressive order driven by heteroskedastic shocks. We allow for both conditional and unconditional heteroskedasticity of a very general form. We establish the conditions required on the penalty functions such that standard information criterion-based methods, such as the Bayesian information criterion [BIC], when employed either sequentially or jointly, can be used to consistently estimate both the cointegration rank and the autoregressive lag order. In doing so we also correct errors which appear in the proofs provided for the consistency of information-based estimators in the homoskedastic case by Aznar and Salvador (2002, Econometric Theory 18, 926–947). We also extend the corpus of available large sample theory for the conventional sequential approach of Johansen (1995, Likelihood-Based Inference in Cointegrated Vector Autoregressive Models. Oxford University Press) and the associated wild bootstrap implementation thereof of Cavaliere, Rahbek, and Taylor (2014, Econometric Reviews 33, 606–650) to the case where the lag order is unknown. In particular, we show that these methods remain valid under heteroskedasticity and an unknown lag length provided the lag length is first chosen by a consistent method, again such as the BIC. The relative finite sample properties of the different methods discussed are investigated in a Monte Carlo simulation study. The two best performing methods in this study are a wild bootstrap implementation of the Johansen (1995, Likelihood-Based Inference in Cointegrated Vector Autoregressive Models. Oxford University Press) procedure implemented with BIC selection of the lag length and joint IC approach (cf. Phillips, 1996, Econometrica 64, 763–812) which uses the BIC to jointly select the lag order and the cointegration rank.

Type
ARTICLES
Copyright
Copyright © Cambridge University Press 2016 

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Footnotes

We are grateful to the Editor, Peter Phillips, the Co-Editor, Michael Jansson, and two anonymous referees for their helpful comments on earlier versions of this paper. This work was supported by the Danish Council for Independent Research Sapere Aude | DFF Advanced Grant [grant number 12-124980], the Economic and Social Research Council [grant number ES/M01147X/1], and the Italian Ministry of Education, University and Research (MIUR), PRIN project “Multivariate statistical models for risk assessment.”

References

REFERENCES

Akaike, H. (1974) A new look at the statistical model identification. IEEE Transactions on Automatic Control 19, 716723.CrossRefGoogle Scholar
Aznar, A. & Salvador, M. (2002) Selecting the rank of the cointegration space and the form of the intercept using an information criterion. Econometric Theory 18, 926947.CrossRefGoogle Scholar
Boswijk, H.P., Cavaliere, G., Rahbek, A., & Taylor, A.M.R. (2016) Inference on co-integration parameters in heteroskedastic vector autoregressions. Journal of Econometrics 192, 6485.CrossRefGoogle Scholar
Boswijk, H.P. & Franses, P.H. (1992) Dynamic specification and cointegration. Oxford Bulletin of Economics and Statistics 54, 369381.CrossRefGoogle Scholar
Camba-Mendez, G., Kapetanios, G., Smith, R.J., & Weale, M.R. (2003) Tests of rank in reduced rank regression models. Journal of Business & Economic Statistics 21, 145155.CrossRefGoogle Scholar
Cavaliere, G., De Angelis, L., Rahbek, A., & Taylor, A.M.R. (2014) Determining the co-integration rank in heteroskedastic VAR models of unknown order. Available at http://www2.stat.unibo.it/ deangelis/IC2-WP.pdf.Google Scholar
Cavaliere, G., De Angelis, L., Rahbek, A., & Taylor, A.M.R. (2015) A comparison of sequential and information-based methods for determining the co-integration rank in heteroskedastic VAR models. Oxford Bulletin of Economics and Statistics 77, 106128.CrossRefGoogle Scholar
Cavaliere, G., Rahbek, A., & Taylor, A.M.R. (2010a) Co-integration rank testing under conditional heteroskedasticity. Econometric Theory 26, 17191760.CrossRefGoogle Scholar
Cavaliere, G., Rahbek, A., & Taylor, A.M.R. (2010b) Testing for co-integration in vector autoregressions with non-stationary volatility. Journal of Econometrics 158, 724.CrossRefGoogle Scholar
Cavaliere, G., Rahbek, A., & Taylor, A.M.R. (2012) Bootstrap determination of the co-integration rank in VAR models. Econometrica 80, 17211740.Google Scholar
Cavaliere, G., Rahbek, A., & Taylor, A.M.R. (2014) Bootstrap determination of the co-integration rank in heteroskedastic VAR models. Econometric Reviews 33, 606650.CrossRefGoogle Scholar
Cavaliere, G., Taylor, A.M.R., & Trenkler, C. (2015) Bootstrap co-integration rank testing: The effect of bias-correcting parameter estimates. Oxford Bullettin of Economics and Statistics 77, 740759.CrossRefGoogle Scholar
Cheng, X. & Phillips, P.C.B. (2009) Semiparametric cointegrating rank selection. Econometrics Journal 12, 83104.CrossRefGoogle Scholar
Cheng, X. & Phillips, P.C.B. (2012) Cointegrating rank selection in models with time-varying variance. Journal of Econometrics 169, 155165.CrossRefGoogle Scholar
Cheung, Y.W. & Lai, K.S. (1993) Finite-sample sizes of Johansen’s likelihood ratio tests for cointegration. Oxford Bulletin of Economics and Statistics 55, 313328.CrossRefGoogle Scholar
Chao, J.C. & Phillips, P.C.B. (1999) Model selection in partially nonstationary vector autoregressive processes with reduced rank structure. Journal of Econometrics 91, 227272.CrossRefGoogle Scholar
Gonçalves, S. & Kilian, L. (2004) Bootstrapping autoregressions with conditional heteroskedasticity of unknown form. Journal of Econometrics 123, 89120.CrossRefGoogle Scholar
Hannan, E.J. & Quinn, B.G. (1979) The determination of the order of an autoregression. Journal of the Royal Statistical Society, Series B 41, 190195.Google Scholar
Haug, A.A. (1996) Test for cointegration: A Monte Carlo comparison. Journal of Econometrics 71, 89115.CrossRefGoogle Scholar
Johansen, S. (1995) Likelihood-Based Inference in Cointegrated Vector Autoregressive Models. Oxford University Press.CrossRefGoogle Scholar
Johansen, S. (2002) A small sample correction of the test for cointegrating rank in the vector autoregressive model. Econometrica 70, 19291961.CrossRefGoogle Scholar
Kapetanios, G. (2000) Information Criteria, Model Selection Uncertainty and the Determination of Cointegration Rank. NIESR Discussion papers 166, National Institute of Economic and Social Research.Google Scholar
Kapetanios, G. (2004) The asymptotic distribution of the cointegration rank estimator under the Akaike information criterion. Econometric Theory 20, 735742.CrossRefGoogle Scholar
Kascha, C. & Trenkler, C. (2011) Bootstrapping the likelihood ratio cointegration test in error correction models with unknown lag order. Computational Statistics and Data Analysis 55, 10081017.CrossRefGoogle Scholar
Lee, T.-H. & Tse, Y. (1996) Cointegration tests with conditional heteroskedasticity. Journal of Econometrics 73, 401410.CrossRefGoogle Scholar
Lütkepohl, H. & Poskitt, D.S. (1998) Consistent estimation of the number of cointegration relations in a vector autoregressive model. In Galata, R. & Küchenhoff, H. (eds.), Econometrics in Theory and Practice, pp. 87100. Physica-Verlag.CrossRefGoogle Scholar
Lütkepohl, H. & Saikkonen, P. (1999) Order selection in testing for the cointegrating rank of a VAR process. In Engle, R.F. & White, H. (eds.), Cointegration, Causality, and Forecasting. A Festschrift in Honour of Clive W.J. Granger, pp. 168199. Oxford University Press.Google Scholar
Nielsen, B. (2006) Order determination in general vector autoregressions. IMS Lecture Notes - Monograph Series 52, 93112.CrossRefGoogle Scholar
Paulsen, J. (1984) Order determination of multivariate autoregressive time series with unit roots. Journal of Time Series Analysis 5, 115127.CrossRefGoogle Scholar
Pesaran, M.H., Shin, Y., & Smith, R.J. (2000) Structural analysis of vector error correction models with exogenous I(1) variables. Journal of Econometrics 97, 293343.Google Scholar
Pesaran, M.H., Shin, Y., & Smith, R.J. (2001) Bounds testing approaches to the analysis of long-run relationships. Journal of Applied Econometrics 16, 289326.CrossRefGoogle Scholar
Phillips, P.C.B. (1996) Econometric model determination. Econometrica 64, 763812.CrossRefGoogle Scholar
Phillips, P.C.B. & McFarland, J.W. (1997) Forward exchange market unbiasedness: The case of the Australian dollar since 1984. Journal of International Money and Finance 16, 885907.CrossRefGoogle Scholar
Phillips, P.C.B. & Ploberger, W. (1996) An asymptotic theory of Bayesian inference for time series. Econometrica 64, 381412.CrossRefGoogle Scholar
Rissanen, J. (1978) Modeling by shortest data description. Automatica 14, 465471.CrossRefGoogle Scholar
Robin, J.-M. & Smith, R.J. (2000) Tests of rank. Econometric Theory 16, 151175.CrossRefGoogle Scholar
Saikkonen, P. & Luukkonen, R. (1997) Testing cointegration in infinite order vector autoregressive processes. Journal of Econometrics 81, 93126.CrossRefGoogle Scholar
Schwarz, G. (1978) Estimating the dimension of a model. Annals of Statistics 6, 461464.CrossRefGoogle Scholar
Swensen, A.R. (2006) Bootstrap algorithms for testing and determining the cointegration rank in VAR models. Econometrica 74, 16991714.CrossRefGoogle Scholar
Takeuchi, K. (1976) Distribution of informational statistics and a criterion of model fitting. Suri-Kagaku 153, 1218 (In Japanese).Google Scholar
van Giersbergen, N.P.A. (1996) Bootstrapping the trace statistic in VAR models: Monte Carlo results and applications. Oxford Bulletin of Economics and Statistics 58, 391408.CrossRefGoogle Scholar
Yap, S.F. & Reinsel, G.C. (1995) Estimation and testing for unit roots in a partially nonstationary vector autoregressive moving average model. Journal of the American Statistical Association 90, 253267.CrossRefGoogle Scholar
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