Oracle inequalities for inverse problems

L. Cavalier; G. K. Golubev; D. Picard; A. B. Tsybakov

doi:10.1214/aos/1028674843

Oracle inequalities for inverse problems

L. Cavalier
, G. K. Golubev
, D. Picard
, A. B. Tsybakov

Research output: Contribution to journal › Article › peer-review

Abstract

We consider a sequence space model of statistical linear inverse problems where we need to estimate a function f from indirect noisy observations. Let a finite set Λ of linear estimators be given. Our aim is to mimic the estimator in Λ that has the smallest risk on the true f. Under general conditions, we show that this can be achieved by simple minimization of an unbiased risk estimator, provided the singular values of the operator of the inverse problem decrease as a power law. The main result is a nonasymptotic oracle inequality that is shown to be asymptotically exact. This inequality can also be used to obtain sharp minimax adaptive results. In particular, we apply it to show that minimax adaptation on ellipsoids in the multivariate anisotropic case is realized by minimization of unbiased risk estimator without any loss of efficiency with respect to optimal nonadaptive procedures.

Original language	English
Pages (from-to)	843-874
Number of pages	32
Journal	Annals of Statistics
Volume	30
Issue number	3
DOIs	https://doi.org/10.1214/aos/1028674843
Publication status	Published - 1 Jun 2002
Externally published	Yes

Keywords

Adaptive curve estimation
Exact minimax constants
Model selection
Oracle inequalities
Statistical inverse problems

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10.1214/aos/1028674843

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title = "Oracle inequalities for inverse problems",

abstract = "We consider a sequence space model of statistical linear inverse problems where we need to estimate a function f from indirect noisy observations. Let a finite set Λ of linear estimators be given. Our aim is to mimic the estimator in Λ that has the smallest risk on the true f. Under general conditions, we show that this can be achieved by simple minimization of an unbiased risk estimator, provided the singular values of the operator of the inverse problem decrease as a power law. The main result is a nonasymptotic oracle inequality that is shown to be asymptotically exact. This inequality can also be used to obtain sharp minimax adaptive results. In particular, we apply it to show that minimax adaptation on ellipsoids in the multivariate anisotropic case is realized by minimization of unbiased risk estimator without any loss of efficiency with respect to optimal nonadaptive procedures.",

keywords = "Adaptive curve estimation, Exact minimax constants, Model selection, Oracle inequalities, Statistical inverse problems",

author = "L. Cavalier and Golubev, \{G. K.\} and D. Picard and Tsybakov, \{A. B.\}",

year = "2002",

month = jun,

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doi = "10.1214/aos/1028674843",

language = "English",

volume = "30",

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journal = "Annals of Statistics",

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TY - JOUR

T1 - Oracle inequalities for inverse problems

AU - Cavalier, L.

AU - Golubev, G. K.

AU - Picard, D.

AU - Tsybakov, A. B.

PY - 2002/6/1

Y1 - 2002/6/1

N2 - We consider a sequence space model of statistical linear inverse problems where we need to estimate a function f from indirect noisy observations. Let a finite set Λ of linear estimators be given. Our aim is to mimic the estimator in Λ that has the smallest risk on the true f. Under general conditions, we show that this can be achieved by simple minimization of an unbiased risk estimator, provided the singular values of the operator of the inverse problem decrease as a power law. The main result is a nonasymptotic oracle inequality that is shown to be asymptotically exact. This inequality can also be used to obtain sharp minimax adaptive results. In particular, we apply it to show that minimax adaptation on ellipsoids in the multivariate anisotropic case is realized by minimization of unbiased risk estimator without any loss of efficiency with respect to optimal nonadaptive procedures.

AB - We consider a sequence space model of statistical linear inverse problems where we need to estimate a function f from indirect noisy observations. Let a finite set Λ of linear estimators be given. Our aim is to mimic the estimator in Λ that has the smallest risk on the true f. Under general conditions, we show that this can be achieved by simple minimization of an unbiased risk estimator, provided the singular values of the operator of the inverse problem decrease as a power law. The main result is a nonasymptotic oracle inequality that is shown to be asymptotically exact. This inequality can also be used to obtain sharp minimax adaptive results. In particular, we apply it to show that minimax adaptation on ellipsoids in the multivariate anisotropic case is realized by minimization of unbiased risk estimator without any loss of efficiency with respect to optimal nonadaptive procedures.

KW - Adaptive curve estimation

KW - Exact minimax constants

KW - Model selection

KW - Oracle inequalities

KW - Statistical inverse problems

U2 - 10.1214/aos/1028674843

DO - 10.1214/aos/1028674843

M3 - Article

AN - SCOPUS:0036045292

SN - 0090-5364

VL - 30

SP - 843

EP - 874

JO - Annals of Statistics

JF - Annals of Statistics

IS - 3

ER -

Oracle inequalities for inverse problems

Abstract

Keywords

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