Higher order convergence rates for Bregman iterated variational regularization of inverse problems

We study the convergence of variationally regularized solutions to linear ill-posed operator equations in Banach spaces as the noise in the right hand side tends to 0. The rate of this convergence is determined by abstract smoothness conditions on the solution called source conditions. For non-quadr...

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Bibliographic Details
Published inNumerische Mathematik Vol. 141; no. 1; pp. 215 - 252
Main Authors Sprung, Benjamin, Hohage, Thorsten
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.01.2019
Springer Nature B.V
Subjects
Banach spaces
Convergence
Economic models
Formulations
Function space
Hilbert space
Ill posed problems
Inverse problems
Mathematical and Computational Engineering
Mathematical and Computational Physics
Mathematical Methods in Physics
Mathematics
Mathematics and Statistics
Numerical Analysis
Numerical and Computational Physics
Optimization
Regularization
Simulation
Smoothness
Theoretical
65J22
65J20
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Summary:We study the convergence of variationally regularized solutions to linear ill-posed operator equations in Banach spaces as the noise in the right hand side tends to 0. The rate of this convergence is determined by abstract smoothness conditions on the solution called source conditions. For non-quadratic data fidelity or penalty terms such source conditions are often formulated in the form of variational inequalities. Such variational source conditions (VSCs) as well as other formulations of such conditions in Banach spaces have the disadvantage of yielding only low-order convergence rates. A first step towards higher order VSCs has been taken by Grasmair (J Inverse Ill-Posed Probl 21(3):379–394, 2013 . https://doi.org/10.1515/jip-2013-0002 ) who obtained convergence rates up to the saturation of Tikhonov regularization. For even higher order convergence rates, iterated versions of variational regularization have to be considered. In this paper we introduce VSCs of arbitrarily high order which lead to optimal convergence rates in Hilbert spaces. For Bregman iterated variational regularization in Banach spaces with general data fidelity and penalty terms, we derive convergence rates under third order VSC. These results are further discussed for entropy regularization with elliptic pseudodifferential operators where the VSCs are interpreted in terms of Besov spaces and the optimality of the rates can be demonstrated. Our theoretical results are confirmed in numerical experiments.
ISSN:0029-599X
0945-3245
DOI:10.1007/s00211-018-0987-x