This paper provides limit theorems for multivariate, possibly non-Gaussian stationary processes whose spectral density matrices may have singularities not restricted at the origin, applying those limiting results to
the asymptotic theory of parameter estimation and testing for statistical models of long-range dependent processes. The central limit theorems are proved based on the assumption that the innovations of the stationary processes
satisfy certain mixing conditions for their conditional moments, and the usual assumptions of exact martingale difference or the (transformed) Gaussianity for the innovation process are dispensed with. For the proofs of convergence of the covariances of quadratic forms, the concept of the multiple Fejér kernel is introduced. For the derivation of the asymptotic properties of the quasi-likelihood estimate and the quasi-likelihood ratio, the bracketing
function approach is used instead of conventional regularity conditions on the model spectral density.
Publié le : 1997-02-14
Classification:
Asymptotic theory,
central limit theorems,
mixing conditions,
martingale difference,
serial covariances,
quadratic forms,
bracketing function,
long-range dependence,
maximum likelihood estimation,
likelihood ratio test,
62M10,
62M15,
62E30,
60G10,
60F05
@article{1034276623,
author = {Hosoya, Yuzo},
title = {A limit theory for long-range dependence and statistical inference on related models},
journal = {Ann. Statist.},
volume = {25},
number = {6},
year = {1997},
pages = { 105-137},
language = {en},
url = {http://dml.mathdoc.fr/item/1034276623}
}
Hosoya, Yuzo. A limit theory for long-range dependence and statistical inference on related models. Ann. Statist., Tome 25 (1997) no. 6, pp. 105-137. http://gdmltest.u-ga.fr/item/1034276623/