About a deficit in low-order convergence rates on the example of autoconvolution

Burger, Steven K.; Hofmann, Bernd

doi:10.1080/00036811.2014.886107

Cited by 25 publications

(36 citation statements)

References 36 publications

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“…We note that the minimizer of the Tikhonov functional may be nonunique, because T δ α can be, for nonlinear forward operators F , a non-convex functional as a consequence of a non-convex misfit term F u − f δ 2 . If, for example, F u := u ⋆ u represents the autoconvolution operator in X = L 2 (0, 1) (cf., e.g., [5] and references therein) and u = 0, then we have T δ α (u) = T δ α (−u), which illustrates the non-uniqueness phenomenon. On the other hand, it should be mentioned that the properties of Tikhonov regularization in Hilbert spaces are well investigated when the penalty functional in the Tikhonov functional is replaced by u → u − u 2 , cf., e.g., [7,Chapter 10] or [23, Section 3.1] and the references therein, respectively.…”

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confidence: 75%

Convergence results and low-order rates for nonlinear Tikhonov regularization with oversmoothing penalty term

Hofmann¹,

Plato²

2020

etna

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For the Tikhonov regularization of ill-posed nonlinear operator equations, convergence is studied in a Hilbert scale setting. We include the case of oversmoothing penalty terms, which means that the exact solution does not belong to the domain of definition of the considered penalty functional. In this case, we try to close a gap in the present theory, where Hölder-type convergence rates results have been proven under corresponding source conditions, but assertions on norm convergence of regularized solutions without source conditions are completely missing. A result of the present work is to provide sufficient conditions for convergence under a priori and a posteriori regularization parameter choice strategies, without any additional smoothness assumption on the solution. The obtained error estimates moreover allow us to prove low order convergence rates under associated (for example logarithmic) source conditions. Some numerical illustrations are also given.

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confidence: 75%

Convergence results and low-order rates for nonlinear Tikhonov regularization with oversmoothing penalty term

Hofmann¹,

Plato²

2020

etna

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“…A way to ensure the property that the approximate solutions belong to X p ∩ Q ∩ D(F ) is to use regularized solutions which minimize the Tikhonov functional F (x) − y δ 2 Y + α B s x 2 X , subject to x ∈ Q ∩ D(F ), where s ≥ p is required. Hence, Tikhonov-type regularization is here an auxiliary tool which complements the conditional stability estimate (5) in order to obtain stable approximate solutions measured in the norm of X.…”

Section: Introductionmentioning

confidence: 99%

Case Studies and a Pitfall for Nonlinear Variational Regularization Under Conditional Stability

Gerth

Hofmann

2020

Springer Proceedings in Mathematics &Amp; Statistics

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Conditional stability estimates are a popular tool for the regularization of ill-posed problems. A drawback in particular under nonlinear operators is that additional regularization is needed for obtaining stable approximate solutions if the validity area of such estimates is not completely known. In this paper we consider Tikhonov regularization under conditional stability estimates for nonlinear ill-posed operator equations in Hilbert scales. We summarize assertions on convergence and convergence rate in three cases describing the relative smoothness of the penalty in the Tikhonov functional and of the exact solution. For oversmoothing penalties, for which the rue solution no longer attains a finite value, we present a result with modified assumptions for a priori choices of the regularization parameter yielding convergence rates of optimal order for noisy data. We strongly highlight the local character of the conditional stability estimate and demonstrate that pitfalls may occur through incorrect stability estimates. Then convergence can completely fail and the stabilizing effect of conditional stability may be lost. Comprehensive numerical case studies for some nonlinear examples illustrate such effects.

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“…One consequence of this specific interplay between F and its derivative for the deautoconvolution problem from (58), which is locally ill-posed everywhere, is the fact that the classical convergence rate theory developed for the Tikhonov regularization of nonlinear ill-posed problems reaches its limits if standard source condition fails. Please refer to [24] for details. On the other hand, convergence rate results based on Hölder source conditions with small Hölder exponent and logarithmic source conditions or on the method of approximate source conditions (cf.…”

Section: Example V (Identification Of Potential In An Elliptic Equatimentioning

confidence: 99%

“…Take into account L For the SPIDER technology, in particular, the phase function is to be determined from noisy observations of the complex function y, whereas information about the amplitude function can be verified by alternative measurements. In [47] some mathematical studies and a regularization approach for this specific problem have been presented, and further analytic investigations for the specific case of a constant kernel k can be found in [24].…”

Section: Example V (Identification Of Potential In An Elliptic Equatimentioning

confidence: 99%

Regularization Methods for Ill-Posed Problems

Cheng

Hofmann

2014

Handbook of Mathematical Methods in Imaging

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In this chapter are outlined some aspects of the mathematical theory for direct regularization methods aimed at the stable approximate solution of nonlinear ill-posed inverse problems. The focus is on Tikhonov type variational regularization applied to nonlinear ill-posed operator equations formulated in Hilbert and Banach spaces. The chapter begins with the consideration of the classical approach in the Hilbert space setting with quadratic misfit and penalty terms, followed by extensions of the theory to Banach spaces and present assertions on convergence and rates concerning the variational regularization with general convex penalty terms. Recent results refer to the interplay between solution smoothness and nonlinearity conditions expressed by variational inequalities. Six examples of parameter identification problems in integral and differential equations are given in order to show how to apply the theory of this chapter to specific inverse and ill-posed problems.

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About a deficit in low-order convergence rates on the example of autoconvolution

Cited by 25 publications

References 36 publications

Convergence results and low-order rates for nonlinear Tikhonov regularization with oversmoothing penalty term

Convergence results and low-order rates for nonlinear Tikhonov regularization with oversmoothing penalty term

Case Studies and a Pitfall for Nonlinear Variational Regularization Under Conditional Stability

Regularization Methods for Ill-Posed Problems

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