A Novel Static CT System: The Design of Triple Planes CT and Its Multi-Energy Simulation Results

Yao, Yao; Li, Liang; Chen, Zhiqiang

doi:10.3389/fphy.2021.632869

Cited by 2 publications

(1 citation statement)

References 51 publications

(44 reference statements)

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“…health innovation. 9,11,12,[14][15][16][17] The X-ray foci were evenly distributed throughout the array to maximize the coverage area and were scanned sequentially to obtain multi-view projections. 9,16 Intuitively, this equidistant distribution is the natural choice (unless there is prior knowledge of the objects to be inspected).…”

Section: Introductionmentioning

confidence: 99%

Optimization of a multi-source rectangular x-ray CT geometry for inline inspection

Bossuyt

Beenhouwer

Sijbers

2022

Developments in X-Ray Tomography XIV

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A fast-moving economy requires X-ray technology that inspects container traffic promptly and with high accuracy to identify nonconforming cargo. Unfortunately, conventional X-ray CT with a rotating gantry cannot be used because of the limited throughput. Instead, X-ray radiographs are acquired, but these do not provide depth information of the objects to be inspected. A novel solution is to use rotation-free CT geometries, which aim to preserve the image quality by using multiple static X-ray sources, albeit their optimal position and orientation have not been extensively studied to date. In this work, we investigate a rectangular, fixed-gantry CT geometry, for which we implemented a comprehensive simulation framework using the ASTRA Toolbox. 1 In addition, the orientation of the X-ray sources was optimized to perform ROI imaging with enhanced image quality, in terms of the mean squared reconstruction error. Lastly, we challenged the equidistant distribution of X-ray sources as the preferred configuration and compared the reconstructions with those of a projected circular distribution. Although spatially bound improvements were observed, future research is required.

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Section: Introductionmentioning

confidence: 99%

Optimization of a multi-source rectangular x-ray CT geometry for inline inspection

Bossuyt

Beenhouwer

Sijbers

2022

Developments in X-Ray Tomography XIV

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Validation of a Virtual Ray Tracing Instrument for Dimensional X-Ray CT Measurements

Sloth,

Quagliotti,

Chiffre

et al. 2024

J Nondestruct Eval

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A new Forward Ray Tracing Instrument (FRTI) for simulating X-ray CT scanners is presented. The FRTI enables the modelling of various detector geometries to optimise instrument designs. The FRTI is demonstrated by comparing experimentally measured sphere centre-to-centre distances from two material measures with digital clones. The measured length deviations were smaller than the reconstructed grid spacing for both the experimental and simulated acquisitions. As expected the experimentally measured length deviations were larger than the simulated measurements. The results demonstrate the FRII’s capability of simulating an X-ray CT scanner and performing length measurements.

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A Novel Static CT System: The Design of Triple Planes CT and Its Multi-Energy Simulation Results

Cited by 2 publications

References 51 publications

Optimization of a multi-source rectangular x-ray CT geometry for inline inspection

Optimization of a multi-source rectangular x-ray CT geometry for inline inspection

Validation of a Virtual Ray Tracing Instrument for Dimensional X-Ray CT Measurements

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