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UNBALANCED COINTEGRATION

Published online by Cambridge University Press:  30 August 2006

Javier Hualde
Javier Hualde
Affiliation:
Universidad de Navarra
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Abstract

Recently, increasing interest in the issue of fractional cointegration has emerged from theoretical and empirical viewpoints. Here, as opposed to the traditional prescription of unit root observables with weak dependent cointegrating errors, the orders of integration of these series are allowed to take real values, but, as in the traditional framework, equality of the orders of at least two observable series is necessary for cointegration. This assumption, in view of the real-valued nature of these orders, could pose some difficulties, and in the present paper we explore some ideas related to this issue in a simple bivariate framework. First, in a situation of “near-cointegration,” where the only difference with respect to the “usual” fractional cointegration is that the orders of the two observable series differ in an asymptotically negligible way, we analyze properties of standard estimates of the cointegrating parameter. Second, we discuss the estimation of the cointegrating parameter in a situation where the orders of integration of the two observables are truly different but their corresponding balanced versions (with same order of integration) are cointegrated in the usual sense. A Monte Carlo study of finite-sample performance and simulated series is included.I thank Adrian Pagan, James Davidson, and seminar participants at the 2004 Econometric Society European Meeting and the 2004 Simposio de Análisis Económico for helpful comments. I also thank two referees and a co-editor whose comments led to improvements of the paper. This research was supported by the Spanish Ministerio de Educación y Ciencia through a contract Juan de la Cierva and ref. SEJ2005-07657/ECON, and also by the Universidad de Navarra, ref. 16037001.

Type
Research Article
Information
Econometric Theory , Volume 22 , Issue 5 , October 2006 , pp. 765 - 814
Copyright
© 2006 Cambridge University Press

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References

REFERENCES

Abramowitz, M. & I. Stegun (1970) Handbook of Mathematical Functions. Dover.
Ahtola, J. & G.C. Tiao (1984) Parameter inference for a nearly nonstationary first-order autoregressive model. Biometrika 71, 263272.Google Scholar
Akonom, J. & C. Gourieroux (1987) A Functional Central Limit Theorem for Fractional Processes. Preprint, CEPREMAP, Paris.
Backus, D., S. Foressi, & C. Telmer (1996) Affine models of currency pricing. NBER Working paper 5623.
Baillie, R.T. & T. Bollerslev (2000) The forward premium anomaly is not as bad as you think. Journal of International Money and Finance 19, 471488.Google Scholar
Bekaert, G. (1996) The time variation of risk and return in foreign exchange markets: A general equilibrium approach. Review of Financial Studies 9, 427470.Google Scholar
Bekaert, G., R.J. Hodrick, & D.A. Marshall (1997) The implications of first order risk aversion for asset market risk premiums. Journal of Monetary Economics 40, 339.Google Scholar
Bingham, N.H., C.M. Goldie, & J.L. Teugels (1989) Regular Variation. Cambridge University Press.
Brockwell, P.J. & R.A. Davis (1991) Time Series: Theory and Methods. Springer-Verlag.
Chan, N.H. & C.Z. Wei (1987) Asymptotic inference for nearly nonstationary AR(1) processes. Annals of Statistics 15, 10501063.Google Scholar
Cox, D.D. & I. Llatas (1991) Maximum likelihood type estimation for nearly nonstationary autoregressive time series. Annals of Statistics 19, 11091128.Google Scholar
Elliott, G. (1998) On the robustness of cointegration methods when regressors almost have unit roots. Econometrica 66, 149158.Google Scholar
Engle, R.F. & C.W.J. Granger (1987) Cointegration and error correction: Representation, estimation and testing. Econometrica 55, 251276.Google Scholar
Evans, G.B.A. & N.E. Savin (1981) Testing for unit roots, part 1. Econometrica 49, 753779.Google Scholar
Geweke, J. & S. Porter-Hudak (1983) The estimation and application of long memory time series models. Journal of Time Series Analysis 4, 221238.Google Scholar
Granger, C.W.J. & R. Joyeux (1980) An introduction to long-memory time series models and fractional differencing. Journal of Time Series Analysis 1, 1529.Google Scholar
Hosking, J.R.M. (1981) Fractional differencing. Biometrika 68, 165176.Google Scholar
Hualde, J. (2002) Testing for the Equality of Orders of Integration. Preprint, Universidad de Navarra.
Hualde, J. & P.M. Robinson (2006) Root-n-consistent estimation of weak fractional cointegration. Journal of Econometrics, forthcoming.Google Scholar
Hualde, J. & P.M. Robinson (2004a) Semiparametric Estimation of Fractional Cointegration. Preprint, Universidad de Navarra.
Hualde, J. & P.M. Robinson (2004b) Gaussian Pseudo-Maximum Likelihood Estimation of Fractional Time Series Models. Preprint, Universidad de Navarra.
Jansson, M. & N. Haldrup (2002) Regression theory for nearly cointegrated time series. Econometric Theory 18, 13091335.Google Scholar
Jeganathan, P. (1999) On asymptotic inference in cointegrated time series with fractionally integrated errors. Econometric Theory 15, 583621.Google Scholar
Kim, C.S. & P.C.B. Phillips (2000) Fully Modified Estimation of Fractional Cointegration Models. Preprint, Yale University.
Lobato, I.N. & P.M. Robinson (1996) Averaged periodogram estimation of long memory. Journal of Econometrics 73, 303324.Google Scholar
Marinucci, D. & P.M. Robinson (1999) Alternative forms of fractional Brownian motion. Journal of Statistical Planning and Inference 80, 111122.Google Scholar
Marinucci, D. & P.M. Robinson (2000) Weak convergence of multivariate fractional processes. Stochastic Processes and Their Applications 86, 103120.Google Scholar
Marinucci, D. & P.M. Robinson (2001) Semiparametric fractional cointegration analysis. Journal of Econometrics 105, 225247.Google Scholar
Marmol, F. (1998) Spurious regression theory with nonstationary fractionally integrated processes. Journal of Econometrics 84, 232250.Google Scholar
Marmol, F. & C. Velasco (2004) Consistent testing of cointegrating relationships. Econometrica 72, 18091844.Google Scholar
Maynard, A. & P.C.B. Phillips (2001) Rethinking an old empirical puzzle: Econometric evidence on the forward discount anomaly. Journal of Applied Econometrics 16, 671708.Google Scholar
Park, J.Y., S. Ouliaris, & B. Choi (1988) Spurious Regressions and Tests for Cointegration. CAE Working paper 8807, Cornell University.
Phillips, P.C.B. (1986) Understanding spurious regressions in econometrics. Journal of Econometrics 33, 311340.Google Scholar
Phillips, P.C.B. (1987) Towards a unified asymptotic theory for autoregression. Biometrika 74, 535547.Google Scholar
Phillips, P.C.B. (1988) Regression theory for near-integrated time series. Econometrica 56, 10211043.Google Scholar
Phillips, P.C.B. (1991) Optimal inference in cointegrated systems. Econometrica 59, 283306.Google Scholar
Phillips, P.C.B. & S.N. Durlauf (1986) Multiple time series regression with integrated processes. Review of Economic Studies 53, 473495.Google Scholar
Robinson, P.M. (1994) Semiparametric analysis of long-memory time series. Annals of Statistics 22, 515539.Google Scholar
Robinson, P.M. (1995a) Log-periodogram regression of time series with long range dependence. Annals of Statistics 23, 10481072.Google Scholar
Robinson, P.M. (1995b) Gaussian semiparametric estimation of long-range dependence. Annals of Statistics 23, 16301661.Google Scholar
Robinson, P.M. (2005) The distance between rival nonstationary fractional processes. Journal of Econometrics 128, 283300.Google Scholar
Robinson, P.M. & J. Hualde (2003) Cointegration in fractional systems with unknown integration orders. Econometrica 71, 17271766.Google Scholar
Robinson, P.M. & D. Marinucci (2001) Narrow-band analysis of nonstationary processes. Annals of Statistics 29, 947986.Google Scholar
Robinson, P.M. & D. Marinucci (2003) Semiparametric frequency-domain analysis of fractional cointegration. In P.M. Robinson (ed.), Time Series with Long Memory, pp. 334373. Oxford University Press.
Robinson, P.M. & Y. Yajima (2002) Determination of cointegrating rank in fractional systems. Journal of Econometrics 106, 217241.Google Scholar
Silveira, G. (1991) Contributions to strong approximations in time series with applications in nonparametric statistics and functional central limit theorems. Ph.D. thesis, University of London.
Velasco, C. (1999a) Non-stationary log-periodogram regression. Journal of Econometrics 91, 325371.Google Scholar
Velasco, C. (1999b) Gaussian semiparametric estimation of non-stationary time series. Journal of Time Series Analysis 20, 87127.Google Scholar
Velasco, C. & P.M. Robinson (2000) Whittle pseudo-maximum likelihood estimation for nonstationary time series. Journal of the American Statistical Association 95, 12291243.Google Scholar
Zygmund, A. (1977) Trigonometric Series. Cambridge University Press.