用于正则化逆问题的非线性对角框滤波的收敛性

IF 2 2区数学 Q1 MATHEMATICS, APPLIED

Inverse Problems Pub Date : 2024-03-26 DOI:10.1088/1361-6420/ad3333

Andrea Ebner, Markus Haltmeier

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引用次数: 0

摘要

逆问题是信号处理和医学成像等多个科学领域的关键问题。由于逆问题通常在数据扰动方面存在不稳定性，因此人们提出了各种正则化技术。其中，使用滤波对角框分解（DFD）已被证明是有效且计算效率高的方法。然而，现有的收敛性分析仅适用于线性滤波器和少数非线性滤波器，如软阈值。在本文中，我们分析了一般非线性滤波器的滤波 DFD。特别是，我们的结果将基于奇异值分解的频谱滤波从线性滤波器推广到了非线性滤波器。作为第一种方法，我们在非线性对角框滤波和变分正则化之间建立了联系，从而可以利用变分正则化的结果来推导非线性谱滤波的收敛性。在第二种方法中，作为我们的主要理论结果，我们放宽了变分情况下所涉及的假设，同时仍然推导出收敛性。此外，我们还讨论了非线性过滤与即插即用正则化之间的联系，并探讨了这种关系的潜在益处。

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Convergence of non-linear diagonal frame filtering for regularizing inverse problems

Inverse problems are key issues in several scientific areas, including signal processing and medical imaging. Since inverse problems typically suffer from instability with respect to data perturbations, a variety of regularization techniques have been proposed. In particular, the use of filtered diagonal frame decompositions (DFDs) has proven to be effective and computationally efficient. However, existing convergence analysis applies only to linear filters and a few non-linear filters such as soft thresholding. In this paper, we analyze filtered DFDs with general non-linear filters. In particular, our results generalize singular value decomposition-based spectral filtering from linear to non-linear filters as a special case. As a first approach, we establish a connection between non-linear diagonal frame filtering and variational regularization, allowing us to use results from variational regularization to derive the convergence of non-linear spectral filtering. In the second approach, as our main theoretical results, we relax the assumptions involved in the variational case while still deriving convergence. Furthermore, we discuss connections between non-linear filtering and plug-and-play regularization and explore potential benefits of this relationship.

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来源期刊

Inverse Problems 数学-物理：数学物理

CiteScore

4.40

自引率

14.30%

发文量

115

审稿时长

2.3 months

期刊介绍： An interdisciplinary journal combining mathematical and experimental papers on inverse problems with theoretical, numerical and practical approaches to their solution. As well as applied mathematicians, physical scientists and engineers, the readership includes those working in geophysics, radar, optics, biology, acoustics, communication theory, signal processing and imaging, among others. The emphasis is on publishing original contributions to methods of solving mathematical, physical and applied problems. To be publishable in this journal, papers must meet the highest standards of scientific quality, contain significant and original new science and should present substantial advancement in the field. Due to the broad scope of the journal, we require that authors provide sufficient introductory material to appeal to the wide readership and that articles which are not explicitly applied include a discussion of possible applications.