Convergence rates and structure of solutions of inverse problems with imperfect forward models

The goal of this paper is to further develop an approach to inverse problems with imperfect forward operators that is based on partially ordered spaces. Studying the dual problem yields useful insights into the convergence of the regularised solutions and allow us to obtain convergence rates in term...

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Veröffentlicht in:	arXiv.org 2018-11
Hauptverfasser:	Burger, Martin, Korolev, Yury, Rasch, Julian
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer Science - Numerical Analysis Convergence Exact solutions Inverse problems Mathematics - Numerical Analysis Neural networks Operators Regularization
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creator	Burger, Martin Korolev, Yury Rasch, Julian
description	The goal of this paper is to further develop an approach to inverse problems with imperfect forward operators that is based on partially ordered spaces. Studying the dual problem yields useful insights into the convergence of the regularised solutions and allow us to obtain convergence rates in terms of Bregman distances - as usual in inverse problems, under an additional assumption on the exact solution called the source condition. These results are obtained for general absolutely one-homogeneous functionals. In the special case of TV-based regularisation we also study the structure of regularised solutions and prove convergence of their level sets to those of an exact solution. Finally, using the developed theory, we adapt the concept of debiasing to inverse problems with imperfect operators and propose an approach to pointwise error estimation in TV-based regularisation.
doi_str_mv	10.48550/arxiv.1806.10038
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subjects	Computer Science - Numerical Analysis Convergence Exact solutions Inverse problems Mathematics - Numerical Analysis Neural networks Operators Regularization
title	Convergence rates and structure of solutions of inverse problems with imperfect forward models
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