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Tailored regularization methods for multi-contrast magnetic particle imaging

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Tailored regularization methods for multi-contrast magnetic particle imaging. / Glöckner, I.; Möddel, M.; Knopp, T.; Brandt, C.

in: Int J Magn Part Imag, Jahrgang 6, Nr. 2, 2009052, 2020.

Publikationen: SCORING: Beitrag in Fachzeitschrift/ZeitungAndere (Vorworte u.ä.)Forschung

Harvard

Glöckner, I, Möddel, M, Knopp, T & Brandt, C 2020, 'Tailored regularization methods for multi-contrast magnetic particle imaging', Int J Magn Part Imag, Jg. 6, Nr. 2, 2009052. https://doi.org/10.18416/IJMPI.2020.2009052

APA

Glöckner, I., Möddel, M., Knopp, T., & Brandt, C. (2020). Tailored regularization methods for multi-contrast magnetic particle imaging. Int J Magn Part Imag, 6(2), [2009052]. https://doi.org/10.18416/IJMPI.2020.2009052

Vancouver

Glöckner I, Möddel M, Knopp T, Brandt C. Tailored regularization methods for multi-contrast magnetic particle imaging. Int J Magn Part Imag. 2020;6(2). 2009052. https://doi.org/10.18416/IJMPI.2020.2009052

Bibtex

@article{ad4d2383b26047b88f443fb9f1573176,
title = "Tailored regularization methods for multi-contrast magnetic particle imaging",
abstract = "Multi-contrast magnetic particle imaging (MPI) enables the determination of different contrasts in addition to the particle concentration. For instance it is possible to discriminate multiple tracer types that differ e.g. in the particle core size. One challenge of multi-contrast MPI is that the reconstruction problem is severely ill-posed such that in practice a perfect separation of different tracer types is not achieved. In this work, we develop a method for improving the channel separation and in turn prevent leakage from one channel into the other. Our approach exploits sparsity in both the spatial and the channel dimension. By developing a tailor regularization approach for improved multi-contrast reconstruction, we show that it is possible to significantly reduce signal leakage.",
author = "I. Gl{\"o}ckner and M. M{\"o}ddel and T. Knopp and C. Brandt",
note = "Publisher Copyright: {\textcopyright} 2020 Gl{\"o}ckner et al.; licensee Infinite Science Publishing GmbH.",
year = "2020",
doi = "10.18416/IJMPI.2020.2009052",
language = "English",
volume = "6",
journal = "Int J Magn Part Imag",
issn = "2365-9033",
publisher = "Infinite Science Publishing",
number = "2",

}

RIS

TY - JOUR

T1 - Tailored regularization methods for multi-contrast magnetic particle imaging

AU - Glöckner, I.

AU - Möddel, M.

AU - Knopp, T.

AU - Brandt, C.

N1 - Publisher Copyright: © 2020 Glöckner et al.; licensee Infinite Science Publishing GmbH.

PY - 2020

Y1 - 2020

N2 - Multi-contrast magnetic particle imaging (MPI) enables the determination of different contrasts in addition to the particle concentration. For instance it is possible to discriminate multiple tracer types that differ e.g. in the particle core size. One challenge of multi-contrast MPI is that the reconstruction problem is severely ill-posed such that in practice a perfect separation of different tracer types is not achieved. In this work, we develop a method for improving the channel separation and in turn prevent leakage from one channel into the other. Our approach exploits sparsity in both the spatial and the channel dimension. By developing a tailor regularization approach for improved multi-contrast reconstruction, we show that it is possible to significantly reduce signal leakage.

AB - Multi-contrast magnetic particle imaging (MPI) enables the determination of different contrasts in addition to the particle concentration. For instance it is possible to discriminate multiple tracer types that differ e.g. in the particle core size. One challenge of multi-contrast MPI is that the reconstruction problem is severely ill-posed such that in practice a perfect separation of different tracer types is not achieved. In this work, we develop a method for improving the channel separation and in turn prevent leakage from one channel into the other. Our approach exploits sparsity in both the spatial and the channel dimension. By developing a tailor regularization approach for improved multi-contrast reconstruction, we show that it is possible to significantly reduce signal leakage.

U2 - 10.18416/IJMPI.2020.2009052

DO - 10.18416/IJMPI.2020.2009052

M3 - Other (editorial matter etc.)

AN - SCOPUS:85090224831

VL - 6

JO - Int J Magn Part Imag

JF - Int J Magn Part Imag

SN - 2365-9033

IS - 2

M1 - 2009052

ER -