A Primal-Dual Approach for a Total Variation Wasserstein Flow

Benning, Martin; Calatroni, Luca; Düring, Bertram; Schönlieb, Carola-Bibiane

Type

Book Chapter

Authors

Benning, Martin
Calatroni, Luca
Düring, Bertram
Schönlieb, Carola-Bibiane

KAUST Grant Number

KUK-I1-007-43

Date

2013

Permanent link to this record

http://hdl.handle.net/10754/597380

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Abstract

We consider a nonlinear fourth-order diffusion equation that arises in denoising of image densities. We propose an implicit time-stepping scheme that employs a primal-dual method for computing the subgradient of the total variation seminorm. The constraint on the dual variable is relaxed by adding a penalty term, depending on a parameter that determines the weight of the penalisation. The paper is furnished with some numerical examples showing the denoising properties of the model considered. © 2013 Springer-Verlag.

Citation

Benning M, Calatroni L, Düring B, Schönlieb C-B (2013) A Primal-Dual Approach for a Total Variation Wasserstein Flow. Geometric Science of Information: 413–421. Available: http://dx.doi.org/10.1007/978-3-642-40020-9_45.

Sponsors

Carola-Bibiane Sch¨onlieb acknowledges financial supportprovided by the Cambridge Centre for Analysis (CCA), the Royal Society InternationalExchanges Award IE110314 for the project High-order CompressedSensing for Medical Imaging, the EPSRC first grant Nr. EP/J009539/1 Sparse& Higher-order Image Restoration, and the EPSRC / Isaac Newton Trust SmallGrant on Non-smooth geometric reconstruction for high resolution MRI imagingof fluid transport in bed reactors. Further, this publication is based on worksupported by Award No. KUK-I1-007-43, made by King Abdullah University ofScience and Technology (KAUST).