Shiras Abdurahman scite author profile

Shiras Abdurahman

4Publications

51Citation Statements Received

0Citation Statements Given

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Affiliations

Otto-von-Guericke University Magdeburg, University Hospital Magdeburg, Siemens Healthcare (Germany)

Publications

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Beam Hardening Correction Using Cone Beam Consistency Conditions

Abdurahman

Frysch

Bismark

et al. 2018

IEEE Trans. Med. Imaging

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The polychromatic X-ray spectrum and the energy-dependent attenuation coefficient of materials cause beam hardening artifacts in CT reconstructed volumes. These artifacts appear as cupping and streak artifacts depending on the material composition and the geometry of the imaged object. CT scanners employ projection linearization to transform polychromatic attenuation to monochromatic attenuation using a polynomial model. Polynomial coefficients are computed during calibration or using prior information such as X-ray spectrum and attenuation properties of the materials. In this paper, we are presenting a novel method to correct beam hardening artifacts by enforcing cone beam consistency conditions on the projection data. We used consistency conditions derived from Grangeat's fundamental relation between cone beam projection data and 3-D Radon transform. The optimal polynomial coefficients for artifact reduction are iteratively estimated by minimizing the inconsistency of a set of projection pairs. The results from simulated and real datasets show the visible reduction of artifacts. Our studies also demonstrate the robustness of the algorithm when the projections are perturbed with other physical measurement and geometrical errors. The proposed method requires neither calibration nor prior information like X-ray spectrum, attenuation properties of the materials and detector response. The algorithm can be used for beam hardening correction in clinical, pre-clinical, and industrial CT systems.

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Optimizing High Resolution Reconstruction in Digital Breast Tomosynthesis Using Filtered Back Projection

Abdurahman

Dennerlein

Jerebko

et al. 2014

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Out-of-Plane Artifact Reduction in Tomosynthesis Based on Regression Modeling and Outlier Detection

Abdurahman

Jerebko

Mertelmeier

et al. 2012

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Reduction of beam hardening artifacts on real C-arm CT data using polychromatic statistical image reconstruction

Bismark

Frysch

Abdurahman

et al. 2020

Zeitschrift für Medizinische Physik

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