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Your search keyword '"Hintermüller, Michael"' showing total 9 results
Start Over Author "Hintermüller, Michael" Topic semismooth newton method
9 results on '"Hintermüller, Michael"'

4. On the uniqueness and numerical approximation of solutions to certain parabolic quasi-variational inequalities.

Author

Hintermüller, Michael and Rautenberg, Carlos N.

Subjects
UNIQUENESS (Mathematics), QUASI-equilibrium, SEMISMOOTH Newton methods, NONLINEAR evolution equations, MATHEMATICAL mappings
Abstract

A class of abstract nonlinear evolution quasi-variational inequality (QVI) problems in function space is considered. The framework developed includes constraint sets of obstacle and gradient type. The paper addresses the existence, uniqueness and approximation of solutions when the constraint set mapping is of a special form. Uniqueness is addressed through contractive behavior of a nonlinear mapping whose fixed points are solutions to the QVI. An axiomatic semi-discrete approximation scheme is developed, which is proven to be convergent and is numerically implemented. The paper ends by a report on numerical tests for several nonlinear constraints of gradient-type. [ABSTRACT FROM AUTHOR]

Published
2017
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5. PARABOLIC QUASI-VARIATIONAL INEQUALITIES WITH GRADIENT-TYPE CONSTRAINTS.

Author

HINTERMÜLLER, MICHAEL and RAUTENBERG, CARLOS N.

Subjects
*MATHEMATICAL inequalities, *NONLINEAR evolution equations, *FUNCTION spaces, *APPROXIMATION theory, *SEMIGROUPS (Algebra), *MONOTONE operators, *NEWTON-Raphson method, *LAPLACIAN operator
Abstract

This paper considers a class of nonlinear evolution quasi-variational inequality (QVI) problems with pointwise gradient constraints in vector-valued function spaces. The existence and approximation of solutions is addressed based on a combination of C0-semigroup methods, Mosco convergence, and monotone operator techniques developed by Brézis. An algorithm based on semidiscretization in time is proposed and its numerical implementation based on a penalty approach and semismooth Newton methods is studied. This paper ends with a report on numerical tests which involve the p-Laplacian and several types of nonlinear constraints. [ABSTRACT FROM AUTHOR]

Published
2013
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6. Automated Regularization Parameter Selection in Multi-Scale Total Variation Models for Image Restoration.

Author

Yiqiu Dong, Hintermüller, Michael, and Rincon-Camacho, M. Monserrat

Abstract

Multi-scale total variation models for image restoration are introduced. The models utilize a spatially dependent regularization parameter in order to enhance image regions containing details while still sufficiently smoothing homogeneous features. The fully automated adjustment strategy of the regularization parameter is based on local variance estimators. For robustness reasons, the decision on the acceptance or rejection of a local parameter value relies on a confidence interval technique based on the expected maximal local variance estimate. In order to improve the performance of the initial algorithm a generalized hierarchical decomposition of the restored image is used. The corresponding subproblems are solved by a superlinearly convergent algorithm based on Fenchel-duality and inexact semismooth Newton techniques. The paper ends by a report on numerical tests, a qualitative study of the proposed adjustment scheme and a comparison with popular total variation based restoration methods. [ABSTRACT FROM AUTHOR]

Published
2011
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7. An Efficient Two-Phase L¹-TV Method for Restoring Blurred Images with Impulse Noise.

Author

Chan, Raymond H., Yiqiu Dong, and Hintermüller, Michael

Subjects
CURVE fitting, IMAGE analysis, IMAGE processing, IMAGE reconstruction, ALGORITHMS
Abstract

A two-phase image restoration method based upon total variation regularization combined with an L¹-data-fitting term for impulse noise removal and deblurring is proposed. In the first phase, suitable noise detectors are used for identifying image pixels contaminated by noise. Then, in the second phase, based upon the information on the location of noise-free pixels, images are deblurred and denoised simultaneously. For efficiency reasons, in the second phase a superlinearly convergent algorithm based upon Fenchel-duality and inexact semismooth Newton techniques is utilized for solving the associated variational problem. Numerical results prove the new method to be a significantly advance over several state-of-the-art techniques with respect to restoration capability and computational efficiency. [ABSTRACT FROM AUTHOR]

Published
2010
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8. MESH-INDEPENDENCE AND PRECONDITIONING FOR SOLVING PARABOLIC CONTROL PROBLEMS WITH MIXED CONTROL-STATE CONSTRAINTS.

Author

Hintermüller, Michael, Kopacka, Ian, and Volkwein, Stefan

Subjects
*NUMERICAL solutions to heat equation, *PARABOLIC differential equations, *SCHUR functions, *REACTION-diffusion equations, *HOLOMORPHIC functions
Abstract

Optimal control problems for the heat equation with pointwise bilateral control-state constraints are considered. A locally superlinearly convergent numerical solution algorithm is proposed and its mesh independence is established. Further, for the efficient numerical solution reduced space and Schur complement based preconditioners are proposed which take into account the active and inactive set structure of the problem. The paper ends by numerical tests illustrating our theoretical findings and comparing the efficiency of the proposed preconditioners. [ABSTRACT FROM AUTHOR]

Published
2009
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9. Approximation of nonsmooth optimization problems and elliptic variational inequalities with applications to elasto-plasticity

Author

Rösel, Simon, Hintermüller, Michael, Glowinski, Roland, and Reddy, Batmanathan Dayanand

Subjects
Nichtglatte Newton - Methoden, Optimierung in Banach-Räumen, 27 Mathematik, Elastoplastizität, 510 Mathematik, Nichtglatte Analysis, optimization in Banach spaces, Partielle Differentialgleichungen, SK 920, variational analysis, semismooth Newton method, partial differential equations, ddc:510, elasto-plasticity
Abstract

Optimierungsprobleme und Variationsungleichungen über Banach-Räumen stellen Themen von substantiellem Interesse dar, da beide Problemklassen einen abstrakten Rahmen für zahlreiche Anwendungen aus verschiedenen Fachgebieten stellen. Nach einer Einführung in Teil I werden im zweiten Teil allgemeine Approximationsmethoden, einschließlich verschiedener Diskretisierungs- und Regularisierungsansätze, zur Lösung von nichtglatten Variationsungleichungen und Optimierungsproblemen unter konvexen Restriktionen vorgestellt. In diesem allgemeinen Rahmen stellen sich gewisse Dichtheitseigenschaften der konvexen zulässigen Menge als wichtige Voraussetzungen für die Konsistenz einer abstrakten Klasse von Störungen heraus. Im Folgenden behandeln wir vor allem Restriktionsmengen in Sobolev-Räumen, die durch eine punktweise Beschränkung an den Funktionswert definiert werden. Für diesen Restriktionstyp werden verschiedene Dichtheitsresultate bewiesen. In Teil III widmen wir uns einem quasi-statischen Kontaktproblem der Elastoplastizität mit Härtung. Das entsprechende zeit-diskretisierte Problem kann als nichtglattes, restringiertes Minimierungsproblem betrachtet werden. Zur Lösung wird eine Pfadverfolgungsmethode auf Basis des verallgemeinerten Newton-Verfahrens entwickelt, dessen Teilprobleme lokal superlinear und gitterunabhängig lösbar sind. Teil III schließt mit verschiedenen numerischen Beispielen. Der letzte Teil der Arbeit ist der quasi-statischen, perfekten Plastizität gewidmet. Auf Basis des primalen Problems der perfekten Plastizität leiten wir eine reduzierte Formulierung her, die es erlaubt, das primale Problem als Fenchel-dualisierte Form des klassischen zeit-diskretisierten Spannungsproblems zu verstehen. Auf diese Weise werden auch neue Optimalitätsbedingungen hergeleitet. Zur Lösung des Problems stellen wir eine modifizierte Form der viskoplastischen Regularisierung vor und beweisen die Konvergenz dieses neuen Regularisierungsverfahrens. Optimization problems and variational inequalities over Banach spaces are subjects of paramount interest since these mathematical problem classes serve as abstract frameworks for numerous applications. Solutions to these problems usually cannot be determined directly. Following an introduction, part II presents several approximation methods for convex-constrained nonsmooth variational inequality and optimization problems, including discretization and regularization approaches. We prove the consistency of a general class of perturbations under certain density requirements with respect to the convex constraint set. We proceed with the study of pointwise constraint sets in Sobolev spaces, and several density results are proven. The quasi-static contact problem of associative elasto-plasticity with hardening at small strains is considered in part III. The corresponding time-incremental problem can be equivalently formulated as a nonsmooth, constrained minimization problem, or, as a mixed variational inequality problem over the convex constraint. We propose an infinite-dimensional path-following semismooth Newton method for the solution of the time-discrete plastic contact problem, where each path-problem can be solved locally at a superlinear rate of convergence with contraction rates independent of the discretization. Several numerical examples support the theoretical results. The last part is devoted to the quasi-static problem of perfect (Prandtl-Reuss) plasticity. Building upon recent developments in the study of the (incremental) primal problem, we establish a reduced formulation which is shown to be a Fenchel predual problem of the corresponding stress problem. This allows to derive new primal-dual optimality conditions. In order to solve the time-discrete problem, a modified visco-plastic regularization is proposed, and we prove the convergence of this new approximation scheme.

Published
2017

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