On fractional asymptotical regularization of linear ill-posed problems in hilbert spaces

Ye Zhang; Bernd Hofmann

doi:10.1515/fca-2019-0039

On fractional asymptotical regularization of linear ill-posed problems in hilbert spaces

Ye Zhang, Bernd Hofmann

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

23 Citations (Scopus)

Abstract

In this paper, we study a fractional-order variant of the asymptotical regularization method, called Fractional Asymptotical Regularization (FAR), for solving linear ill-posed operator equations in a Hilbert space setting. We assign the method to the general linear regularization schema and prove that under certain smoothness assumptions, FAR with fractional order in the range (1, 2) yields an acceleration with respect to comparable order optimal regularization methods. Based on the one-step Adams-Moulton method, a novel iterative regularization scheme is developed for the numerical realization of FAR. Two numerical examples are given to show the accuracy and the acceleration effect of FAR.

Original language	English
Pages (from-to)	699-721
Number of pages	23
Journal	Fractional Calculus and Applied Analysis
Volume	22
Issue number	3
DOIs	https://doi.org/10.1515/fca-2019-0039
Publication status	Published - 26 Jun 2019
Externally published	Yes

Keywords

Linear ill-posed operator equation
acceleration
asymptotical regularization
convergence rates
fractional derivatives
source conditions
stopping rules

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10.1515/fca-2019-0039

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title = "On fractional asymptotical regularization of linear ill-posed problems in hilbert spaces",

abstract = "In this paper, we study a fractional-order variant of the asymptotical regularization method, called Fractional Asymptotical Regularization (FAR), for solving linear ill-posed operator equations in a Hilbert space setting. We assign the method to the general linear regularization schema and prove that under certain smoothness assumptions, FAR with fractional order in the range (1, 2) yields an acceleration with respect to comparable order optimal regularization methods. Based on the one-step Adams-Moulton method, a novel iterative regularization scheme is developed for the numerical realization of FAR. Two numerical examples are given to show the accuracy and the acceleration effect of FAR.",

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AU - Hofmann, Bernd

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N2 - In this paper, we study a fractional-order variant of the asymptotical regularization method, called Fractional Asymptotical Regularization (FAR), for solving linear ill-posed operator equations in a Hilbert space setting. We assign the method to the general linear regularization schema and prove that under certain smoothness assumptions, FAR with fractional order in the range (1, 2) yields an acceleration with respect to comparable order optimal regularization methods. Based on the one-step Adams-Moulton method, a novel iterative regularization scheme is developed for the numerical realization of FAR. Two numerical examples are given to show the accuracy and the acceleration effect of FAR.

AB - In this paper, we study a fractional-order variant of the asymptotical regularization method, called Fractional Asymptotical Regularization (FAR), for solving linear ill-posed operator equations in a Hilbert space setting. We assign the method to the general linear regularization schema and prove that under certain smoothness assumptions, FAR with fractional order in the range (1, 2) yields an acceleration with respect to comparable order optimal regularization methods. Based on the one-step Adams-Moulton method, a novel iterative regularization scheme is developed for the numerical realization of FAR. Two numerical examples are given to show the accuracy and the acceleration effect of FAR.

KW - Linear ill-posed operator equation

KW - acceleration

KW - asymptotical regularization

KW - convergence rates

KW - fractional derivatives

KW - source conditions

KW - stopping rules

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JO - Fractional Calculus and Applied Analysis

JF - Fractional Calculus and Applied Analysis

IS - 3

ER -

On fractional asymptotical regularization of linear ill-posed problems in hilbert spaces

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Keywords

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