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Main Authors: Dey, Anwesa, Borzi, Alfio, Roy, Souvik
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.17569
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author Dey, Anwesa
Borzi, Alfio
Roy, Souvik
author_facet Dey, Anwesa
Borzi, Alfio
Roy, Souvik
contents A framework for reconstruction of optical diffusion and absorption coefficients in quantitative photoacoustic tomography is presented. This framework is based on a Tikhonov-type functional with a regularization term promoting sparsity of the absorption coefficient and a prior involving a Kubelka-Munk absorption-diffusion relation that allows to obtain superior reconstructions. The reconstruction problem is formulated as the minimization of this functional subject to the differential constraint given by a photon-propagation model. The solution of this problem is obtained by a fast and robust sequential quadratic hamiltonian algorithm based on the Pontryagin maximum principle. Results of several numerical experiments demonstrate that the proposed computational strategy is able to obtain reconstructions of the optical coefficients with high contrast and resolution for a wide variety of objects.
format Preprint
id arxiv_https___arxiv_org_abs_2401_17569
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A high contrast and resolution reconstruction algorithm in quantitative photoacoustic tomography
Dey, Anwesa
Borzi, Alfio
Roy, Souvik
Optimization and Control
Numerical Analysis
35R30, 49J20, 49K20, 65M08, 82C31
A framework for reconstruction of optical diffusion and absorption coefficients in quantitative photoacoustic tomography is presented. This framework is based on a Tikhonov-type functional with a regularization term promoting sparsity of the absorption coefficient and a prior involving a Kubelka-Munk absorption-diffusion relation that allows to obtain superior reconstructions. The reconstruction problem is formulated as the minimization of this functional subject to the differential constraint given by a photon-propagation model. The solution of this problem is obtained by a fast and robust sequential quadratic hamiltonian algorithm based on the Pontryagin maximum principle. Results of several numerical experiments demonstrate that the proposed computational strategy is able to obtain reconstructions of the optical coefficients with high contrast and resolution for a wide variety of objects.
title A high contrast and resolution reconstruction algorithm in quantitative photoacoustic tomography
topic Optimization and Control
Numerical Analysis
35R30, 49J20, 49K20, 65M08, 82C31
url https://arxiv.org/abs/2401.17569