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Minimax Risk Bounds in Extreme Value Theory
Holger Drees
Source: Ann. Statist. Volume 29, Number 1 (2001), 266-294.
Abstract
Asymptotic minimax risk bounds for estimators of a positive extreme value index under zero-one loss are investigated in the classical i.i.d. setup. To this end, we prove the weak convergence of suitable local experiments with Pareto distributions as center of localization to a white noise model, which was previously studied in the context of nonparametric local density estimation and regression. From this result we derive upper and lower bounds on the asymptotic minimax risk in the local and in certain global models as well. Finally, the implications for fixed-length confidence intervals are discussed. In particular, asymptotic confidence intervals with almost minimal length are constructed, while the popular Hill estimator is shown to yield a little longer confidence intervals.
Primary Subjects: 62C20, 62G32
Secondary Subjects: 62G05, 62G15
Keywords: confidence intervals; convergence of experiments; extreme value index; Gaussian shift; Hill estimator; local experiment; minimax affine estimator; white noise; zero-one loss
Full-text: Open access
Links and Identifiers
Permanent link to this document: http://projecteuclid.org/euclid.aos/996986509
Digital Object Identifier: doi:10.1214/aos/996986509
Mathematical Reviews number (MathSciNet):
MR1833966
Zentralblatt MATH identifier:
1029.62046
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