Regenerative block-bootstrap confidence intervals for tail and extremal indexes

Patrice Bertail; Stéphan Clémençon; Jessica Tressou

doi:10.1214/13-EJS807

Regenerative block-bootstrap confidence intervals for tail and extremal indexes

Patrice Bertail
, Stéphan Clémençon
, Jessica Tressou

Université Paris-Nanterre
CNRS LTCI
AgroParisTech INRA

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

A theoretically sound bootstrap procedure is proposed for building accurate confidence intervals of parameters describing the extremal behavior of instantaneous functionals {f(X_n)}_n∈N of a Harris Markov chain X, namely the extremal and tail indexes. Regenerative properties of the chain X (or of a Nummelin extension of the latter) are here exploited in order to construct consistent estimators of these parameters, following the approach developed in [10]. Their asymptotic normality is first established and the standardization problem is also tackled. It is then proved that, based on these estimators, the regenerative block-bootstrap and its approximate version, both introduced in [7], yield asymptotically valid confidence intervals. In order to illustrate the performance of the methodology studied in this paper, simulation results are additionally displayed.

langue originale	Anglais
Pages (de - à)	1224-1248
Nombre de pages	25
journal	Electronic Journal of Statistics
Volume	7
Numéro de publication	1
Les DOIs	https://doi.org/10.1214/13-EJS807
état	Publié - 8 oct. 2013
Modification externe	Oui

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title = "Regenerative block-bootstrap confidence intervals for tail and extremal indexes",

abstract = "A theoretically sound bootstrap procedure is proposed for building accurate confidence intervals of parameters describing the extremal behavior of instantaneous functionals \{f(Xn)\}n∈N of a Harris Markov chain X, namely the extremal and tail indexes. Regenerative properties of the chain X (or of a Nummelin extension of the latter) are here exploited in order to construct consistent estimators of these parameters, following the approach developed in [10]. Their asymptotic normality is first established and the standardization problem is also tackled. It is then proved that, based on these estimators, the regenerative block-bootstrap and its approximate version, both introduced in [7], yield asymptotically valid confidence intervals. In order to illustrate the performance of the methodology studied in this paper, simulation results are additionally displayed.",

keywords = "Cycle submaximum, Extremal index, Extreme value statistics, Hill estimator, Nummelin splitting technique, Regenerative Markov chain, Regenerative-block bootstrap",

author = "Patrice Bertail and St{\'e}phan Cl{\'e}men{\c c}on and Jessica Tressou",

year = "2013",

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T1 - Regenerative block-bootstrap confidence intervals for tail and extremal indexes

AU - Bertail, Patrice

AU - Clémençon, Stéphan

AU - Tressou, Jessica

PY - 2013/10/8

Y1 - 2013/10/8

N2 - A theoretically sound bootstrap procedure is proposed for building accurate confidence intervals of parameters describing the extremal behavior of instantaneous functionals {f(Xn)}n∈N of a Harris Markov chain X, namely the extremal and tail indexes. Regenerative properties of the chain X (or of a Nummelin extension of the latter) are here exploited in order to construct consistent estimators of these parameters, following the approach developed in [10]. Their asymptotic normality is first established and the standardization problem is also tackled. It is then proved that, based on these estimators, the regenerative block-bootstrap and its approximate version, both introduced in [7], yield asymptotically valid confidence intervals. In order to illustrate the performance of the methodology studied in this paper, simulation results are additionally displayed.

AB - A theoretically sound bootstrap procedure is proposed for building accurate confidence intervals of parameters describing the extremal behavior of instantaneous functionals {f(Xn)}n∈N of a Harris Markov chain X, namely the extremal and tail indexes. Regenerative properties of the chain X (or of a Nummelin extension of the latter) are here exploited in order to construct consistent estimators of these parameters, following the approach developed in [10]. Their asymptotic normality is first established and the standardization problem is also tackled. It is then proved that, based on these estimators, the regenerative block-bootstrap and its approximate version, both introduced in [7], yield asymptotically valid confidence intervals. In order to illustrate the performance of the methodology studied in this paper, simulation results are additionally displayed.

KW - Cycle submaximum

KW - Extremal index

KW - Extreme value statistics

KW - Hill estimator

KW - Nummelin splitting technique

KW - Regenerative Markov chain

KW - Regenerative-block bootstrap

U2 - 10.1214/13-EJS807

DO - 10.1214/13-EJS807

M3 - Article

AN - SCOPUS:84884939497

SN - 1935-7524

VL - 7

SP - 1224

EP - 1248

JO - Electronic Journal of Statistics

JF - Electronic Journal of Statistics

IS - 1

ER -

Regenerative block-bootstrap confidence intervals for tail and extremal indexes

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