Please use this identifier to cite or link to this item: https://doi.org/10.15480/882.1573
This item is licensed with a CreativeCommons licence by/3.0
Publisher DOI: 10.1155/2015/460496
Title: Reconstruction of the magnetic particle imaging system matrix using symmetries and compressed sensing
Language: English
Authors: Weber, Alexander 
Knopp, Tobias 
Keywords: magnetic particle imaging
Issue Date: 8-Oct-2015
Publisher: Hindawi Publishing Corporation
Source: Advances in Mathematical Physics, vol. 2015, Article ID 460496
Journal or Series Name: Advances in Mathematical Physics 
Abstract (english): Magnetic particle imaging (MPI) is a tomographic imaging technique that allows the determination of the 3D spatial distribution of superparamagnetic iron oxide nanoparticles. Due to the complex dynamic nature of these nanoparticles, a time-consuming calibration measurement has to be performed prior to image reconstruction. During the calibration a small delta sample filled with the particle suspension is measured at all positions in the field of view where the particle distribution will be reconstructed. Recently, it has been shown that the calibration procedure can be significantly shortened by sampling the field of view only at few randomly chosen positions and applying compressed sensing to reconstruct the full MPI system matrix. The purpose of this work is to reduce the number of necessary calibration scans even further. To this end, we take into account symmetries of the MPI system matrix and combine this knowledge with the compressed sensing method. Experiments on 2D MPI data show that the combination of symmetry and compressed sensing allows reducing the number of calibration scans compared to the pure compressed sensing approach by a factor of about three.
URI: http://tubdok.tub.tuhh.de/handle/11420/1576
DOI: 10.15480/882.1573
ISSN: 1687-9139
Institute: Biomedizinische Bildgebung E-5 
Type: (wissenschaftlicher) Artikel
Appears in Collections:Publications (tub.dok)

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