Data consistency based translational motion artifact reduction in fan-beam CT

Data consistency based translational motion artifact reduction in fan-beam CT

A basic assumption in the classic computed tomography (CT) theory is that an object remains stationary in an entire scan. In biomedical CT/micro-CT, this assumption is often violated. To produce high-resolution images, such as for our recently proposed clinical micro-CT (CMCT) prototype, it is desir...

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Veröffentlicht in:IEEE transactions on medical imaging 2006-06, Vol.25 (6), p.792-803
Hauptverfasser: Yu, Hengyong, Wei, Yuchuan, Hsieh, Jiang, Wang, Ge
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Artificial Intelligence
Backprojection filtration
Brain - diagnostic imaging
Computed tomography
Computer simulation
Consistency
Databases, Factual
fan-beam
filtered backprojection
Filtering
Geometry
Helgason-Ludwig consistency condition
Image reconstruction
Imaging, Three-Dimensional - methods
Information Storage and Retrieval - methods
Mathematical models
motion artifacts
Motion estimation
Movement
Numerical simulation
Parameter estimation
Phantoms, Imaging
Prototypes
Radiographic Image Enhancement - methods
Radiographic Image Interpretation, Computer-Assisted - methods
Reconstruction
Reconstruction algorithms
Reduction
Reproducibility of Results
Robustness
Sensitivity and Specificity
Tomography, Spiral Computed - instrumentation
Tomography, Spiral Computed - methods
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Beschreibung
Zusammenfassung:A basic assumption in the classic computed tomography (CT) theory is that an object remains stationary in an entire scan. In biomedical CT/micro-CT, this assumption is often violated. To produce high-resolution images, such as for our recently proposed clinical micro-CT (CMCT) prototype, it is desirable to develop a precise motion estimation and image reconstruction scheme. In this paper, we first extend the Helgason-Ludwig consistency condition (HLCC) from parallel-beam to fan-beam geometry when an object is subject to a translation. Then, we propose a novel method to estimate the motion parameters only from sinograms based on the HLCC. To reconstruct the moving object, we formulate two generalized fan-beam reconstruction methods, which are in filtered backprojection and backprojection filtering formats, respectively. Furthermore, we present numerical simulation results to show that our approach is accurate and robust
ISSN:0278-0062
1558-254X
DOI:10.1109/TMI.2006.875424