Rank-based optimal tests of the adequacy of an elliptic VARMA model
Marc Hallin and Davy Paindaveine
Source: Ann. Statist. Volume 32, Number 6
(2004), 2642-2678.
Abstract
We are deriving optimal rank-based tests for the adequacy of a vector autoregressive-moving average (VARMA) model with elliptically contoured innovation density. These tests are based on the ranks of pseudo-Mahalanobis distances and on normed residuals computed from Tyler’s [Ann. Statist. 15 (1987) 234–251] scatter matrix; they generalize the univariate signed rank procedures proposed by Hallin and Puri [J. Multivariate Anal. 39 (1991) 1–29]. Two types of optimality properties are considered, both in the local and asymptotic sense, a la Le Cam: (a) (fixed-score procedures) local asymptotic minimaxity at selected radial densities, and (b) (estimated-score procedures) local asymptotic minimaxity uniform over a class ℱ of radial densities. Contrary to their classical counterparts, based on cross-covariance matrices, these tests remain valid under arbitrary elliptically symmetric innovation densities, including those with infinite variance and heavy-tails. We show that the AREs of our fixed-score procedures, with respect to traditional (Gaussian) methods, are the same as for the tests of randomness proposed in Hallin and Paindaveine [Bernoulli 8 (2002b) 787–815]. The multivariate serial extensions of the classical Chernoff–Savage and Hodges–Lehmann results obtained there thus also hold here; in particular, the van der Waerden versions of our tests are uniformly more powerful than those based on cross-covariances. As for our estimated-score procedures, they are fully adaptive, hence, uniformly optimal over the class of innovation densities satisfying the required technical assumptions.
First Page:
Show
Hide
Full-text: Open access
Links and Identifiers
Permanent link to this document: http://projecteuclid.org/euclid.aos/1107794882
Digital Object Identifier: doi:10.1214/009053604000000724
Mathematical Reviews number (MathSciNet): MR2153998
Zentralblatt MATH identifier: 1076.62044
References
Bickel, P. J. (1982). On adaptive estimation. Ann. Statist. 10 647--671.
Mathematical Reviews (MathSciNet): MR663424
JSTOR: links.jstor.org
Brockwell, P. J. and Davis, R. A. (1987). Time Series: Theory and Methods. Springer, New York.
Mathematical Reviews (MathSciNet): MR868859
Zentralblatt MATH: 0604.62083
Chernoff, H. and Savage, I. R. (1958). Asymptotic normality and efficiency of certain nonparametric test statistics. Ann. Math. Statist. 29 972--994.
Mathematical Reviews (MathSciNet): MR100322
Digital Object Identifier: doi:10.1214/aoms/1177706436
Drost, F. C., Klaassen, C. A. J. and Werker, B. J. M. (1997). Adaptive estimation in time-series models. Ann. Statist. 25 786--818.
Mathematical Reviews (MathSciNet): MR1439324
Digital Object Identifier: doi:10.1214/aos/1031833674
Project Euclid: euclid.aos/1031833674
Zentralblatt MATH: 0941.62093
Garel, B. and Hallin, M. (1995). Local asymptotic normality of multivariate ARMA processes with a linear trend. Ann. Inst. Statist. Math. 47 551--579.
Mathematical Reviews (MathSciNet): MR1364260
Hájek, J. and Šidák, Z. (1967). Theory of Rank Tests. Academic Press, New York.
Mathematical Reviews (MathSciNet): MR229351
Hallin, M. (1986). Non-stationary $q$-dependent processes and time-varying moving-average models: Invertibility properties and the forecasting problem. Adv. in Appl. Probab. 18 170--210.
Mathematical Reviews (MathSciNet): MR827335
Hallin, M. (1994). On the Pitman-nonadmissibility of correlogram-based methods. J. Time Ser. Anal. 15 607--612.
Mathematical Reviews (MathSciNet): MR1312324
Hallin, M., Ingenbleek, J.-F. and Puri, M. L. (1985). Linear serial rank tests for randomness against ARMA alternatives. Ann. Statist. 13 1156--1181.
Mathematical Reviews (MathSciNet): MR803764
JSTOR: links.jstor.org
Hallin, M., Ingenbleek, J.-F. and Puri, M. L. (1989). Asymptotically most powerful rank tests for multivariate randomness against serial dependence. J. Multivariate Anal. 30 34--71.
Mathematical Reviews (MathSciNet): MR1003708
Digital Object Identifier: doi:10.1016/0047-259X(89)90087-0
Zentralblatt MATH: 0685.62047
Hallin, M. and Mélard, G. (1988). Rank-based tests for randomness against first-order serial dependence. J. Amer. Statist. Assoc. 83 1117--1128.
Mathematical Reviews (MathSciNet): MR997590
Hallin, M. and Paindaveine, D. (2002a). Optimal tests for multivariate location based on interdirections and pseudo-Mahalanobis ranks. Ann. Statist. 30 1103--1133.
Mathematical Reviews (MathSciNet): MR1926170
Digital Object Identifier: doi:10.1214/aos/1031689019
Project Euclid: euclid.aos/1031689019
Zentralblatt MATH: 1101.62348
Hallin, M. and Paindaveine, D. (2002b). Optimal procedures based on interdirections and pseudo-Mahalanobis ranks for testing multivariate elliptic white noise against ARMA dependence. Bernoulli 8 787--815.
Mathematical Reviews (MathSciNet): MR1963662
Project Euclid: euclid.bj/1076364806
Hallin, M. and Paindaveine, D. (2002c). Multivariate signed ranks: Randles' interdirections or Tyler's angles? In Statistical Data Analysis Based on the $L_1$ Norm and Related Methods (Y. Dodge, ed.) 271--282. Birkhäuser, Basel.
Mathematical Reviews (MathSciNet): MR2001322
Hallin, M. and Paindaveine, D. (2003). Affine invariant linear hypotheses for the multivariate general linear model with ARMA error terms. In Mathematical Statistics and Applications: Festschrift for Constance van Eeden (M. Moore, S. Froda and C. Léger, eds.) 417--434. IMS, Beachwood, OH.
Mathematical Reviews (MathSciNet): MR2138306
Hallin, M. and Paindaveine, D. (2004a). Asymptotic linearity of serial and nonserial multivariate signed rank statistics. J. Statist. Plann. Inference. To appear.
Mathematical Reviews (MathSciNet): MR2205969
Zentralblatt MATH: 1082.62049
Digital Object Identifier: doi:10.1016/j.jspi.2004.05.013
Hallin, M. and Paindaveine, D. (2004b). Multivariate signed rank tests in vector autoregressive order identification. Statist. Sci. To appear.
Mathematical Reviews (MathSciNet): MR2185591
Digital Object Identifier: doi:10.1214/088342304000000602
Project Euclid: euclid.ss/1113832734
Zentralblatt MATH: 1100.62577
Hallin, M. and Paindaveine, D. (2005). Affine-invariant aligned rank tests for the multivariate general linear model with VARMA errors. J. Multivariate Anal. 93 122--163.
Mathematical Reviews (MathSciNet): MR2119768
Digital Object Identifier: doi:10.1016/j.jmva.2004.01.005
Zentralblatt MATH: 1087.62098
Hallin, M. and Puri, M. L. (1988). Optimal rank-based procedures for time-series analysis: Testing an ARMA model against other ARMA models. Ann. Statist. 16 402--432.
Mathematical Reviews (MathSciNet): MR924878
JSTOR: links.jstor.org
Hallin, M. and Puri, M. L. (1991). Time-series analysis via rank-order theory: Signed-rank tests for ARMA models. J. Multivariate Anal. 39 1--29.
Mathematical Reviews (MathSciNet): MR1128669
Digital Object Identifier: doi:10.1016/0047-259X(91)90002-J
Zentralblatt MATH: 0751.62041
Hallin, M. and Puri, M. L. (1994). Aligned rank tests for linear models with autocorrelated error terms. J. Multivariate Anal. 50 175--237.
Mathematical Reviews (MathSciNet): MR1293044
Digital Object Identifier: doi:10.1006/jmva.1994.1040
Zentralblatt MATH: 0805.62050
Hallin, M. and Puri, M. L. (1995). A multivariate Wald--Wolfowitz rank test against serial dependence. Canad. J. Statist. 23 55--65.
Mathematical Reviews (MathSciNet): MR1340961
Hallin, M. and Tribel, O. (2000). The efficiency of some nonparametric rank-based competitors to correlogram methods. In Game Theory, Optimal Stopping, Probability and Statistics. Papers in Honor of Thomas S. Ferguson on the Occasion of His 70th Birthday (F. T. Bruss and L. Le Cam, eds.) 249--262. IMS, Beachwood, OH.
Mathematical Reviews (MathSciNet): MR1833863
Zentralblatt MATH: 0980.62036
Hallin, M. and Werker, B. J. M. (1999). Optimal testing for semi-parametric AR models: From Gaussian Lagrange multipliers to autoregression rank scores and adaptive tests. In Asymptotics, Nonparametrics and Time Series (S. Ghosh, ed.) 295--350. Dekker, New York.
Mathematical Reviews (MathSciNet): MR1724702
Hallin, M. and Werker, B. J. M. (2003). Semiparametric efficiency, distribution-freeness and invariance. Bernoulli 9 167--182.
Mathematical Reviews (MathSciNet): MR1963675
Project Euclid: euclid.bj/1068129013
Hannan, E. J. (1970). Multiple Time Series. Wiley, New York.
Mathematical Reviews (MathSciNet): MR279952
Zentralblatt MATH: 0211.49804
Hettmansperger, T. P., Nyblom, J. and Oja, H. (1994). Affine invariant multivariate one-sample sign tests. J. Roy. Statist. Soc. Ser. B 56 221--234.
Mathematical Reviews (MathSciNet): MR1257809
Hettmansperger, T. P., Möttönen, J. and Oja, H. (1997). Affine invariant multivariate one-sample signed-rank tests. J. Amer. Statist. Assoc. 92 1591--1600.
Mathematical Reviews (MathSciNet): MR1615268
Hodges, J. L., Jr. and Lehmann, E. L. (1956). The efficiency of some nonparametric competitors of the $t$-test. Ann. Math. Statist. 27 324--335.
Mathematical Reviews (MathSciNet): MR79383
Digital Object Identifier: doi:10.1214/aoms/1177728261
Jan, S.-L. and Randles, R. H. (1994). A multivariate signed sum test for the one-sample location problem. J. Nonparametr. Statist. 4 49--63.
Mathematical Reviews (MathSciNet): MR1366363
Le Cam, L. (1986). Asymptotic Methods in Statistical Decision Theory. Springer, New York.
Mathematical Reviews (MathSciNet): MR856411
Zentralblatt MATH: 0605.62002
Liebscher, E. (2005). A semiparametric density estimator based on elliptical distributions. J. Multivariate Anal. 92 205--225.
Mathematical Reviews (MathSciNet): MR2102252
Digital Object Identifier: doi:10.1016/j.jmva.2003.09.007
Zentralblatt MATH: 1064.62039
Möttönen, J. and Oja, H. (1995). Multivariate spatial sign and rank methods. J. Nonparametr. Statist. 5 201--213.
Mathematical Reviews (MathSciNet): MR1346895
Möttönen, J., Oja, H. and Tienari, J. (1997). On the efficiency of multivariate spatial sign and rank tests. Ann. Statist. 25 542--552.
Mathematical Reviews (MathSciNet): MR1439313
Digital Object Identifier: doi:10.1214/aos/1031833663
Project Euclid: euclid.aos/1031833663
Zentralblatt MATH: 0873.62048
Möttönen, J., Hettmansperger, T. P., Oja, H. and Tienari, J. (1998). On the efficiency of affine invariant multivariate rank tests. J. Multivariate Anal. 66 118--132.
Mathematical Reviews (MathSciNet): MR1648529
Digital Object Identifier: doi:10.1006/jmva.1998.1740
Zentralblatt MATH: 1127.62361
Oja, H. (1999). Affine invariant multivariate sign and rank tests and corresponding estimates: A review. Scand. J. Statist. 26 319--343.
Mathematical Reviews (MathSciNet): MR1712063
Digital Object Identifier: doi:10.1111/1467-9469.00152
Peters, D. and Randles, R. H. (1990). A multivariate signed-rank test for the one-sample location problem. J. Amer. Statist. Assoc. 85 552--557.
Mathematical Reviews (MathSciNet): MR1141757
Puri, M. L. and Sen, P. K. (1971). Nonparametric Methods in Multivariate Analysis. Wiley, New York.
Mathematical Reviews (MathSciNet): MR298844
Zentralblatt MATH: 0237.62033
Randles, R. H. (1989). A distribution-free multivariate sign test based on interdirections. J. Amer. Statist. Assoc. 84 1045--1050.
Mathematical Reviews (MathSciNet): MR1134492
Randles, R. H. (2000). A simpler, affine-invariant, multivariate, distribution-free sign test. J. Amer. Statist. Assoc. 95 1263--1268.
Mathematical Reviews (MathSciNet): MR1792189
Rao, C. R. and Mitra, S. K. (1971). Generalized Inverses of Matrices and Its Applications. Wiley, New York.
Mathematical Reviews (MathSciNet): MR338013
Tyler, D. E. (1987). A distribution-free $M$-estimator of multivariate scatter. Ann. Statist. 15 234--251.
Mathematical Reviews (MathSciNet): MR885734
JSTOR: links.jstor.org
Um, Y. and Randles, R. H. (1998). Nonparametric tests for the multivariate multi-sample location problem. Statist. Sinica 8 801--812.
Mathematical Reviews (MathSciNet): MR1651509
