Contaminant detection using a CZT photon counting detector with TDI image reconstruction

Nguyen, J.; Richtsmeier, Devon; Iniewski, Krzysztof; Bazalova‐Carter, Magdalena

doi:10.1088/1748-0221/17/05/p05010

Cited by 4 publications

(6 citation statements)

References 17 publications

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“…The set-up of the X-ray imaging system used in this work is the same as our previous work as shown in figure 1a and no external filtration was used [6]. Based on our previous work, results showed that for imaging times greater than 25 ms, a moving phantom yielded larger CNR values compared to a stationary phantom.…”

Section: Experimental Set-upmentioning

confidence: 93%

“…Previously, our research group successfully showed that a phantom in constant motion provided superior image quality in comparison to a stationary phantom [6]. Therefore, in this work, all images were acquired while the phantom was moving parallel to the CZT PCD and X-ray tube at a constant speed of 10 mm/s.…”

Section: Data Acquisitionmentioning

confidence: 99%

“…This flat field correction is useful to reduce fixed pattern noise which can significantly degrade the spatial resolution and image quality. Both the flat field and dark field images were acquired for 60 s and scaled down to 1 ms equivalent images as was previously done in our work [6]. These scaled down 60 s images showed less pixel variation compared to acquiring flat field and dark field images at a frame rate of 1000 fps.…”

Section: Image Processingmentioning

confidence: 99%

“…Previously, our research group developed a time delay and integration (TDI) algorithm to reconstruct planar X-ray images while a phantom moving at a constant speed is imaged [6]. This algorithm is useful when the width of the detector is much smaller than the size of the object being imaged and allows a 2-dimensional image of the object to be reconstructed.…”

mentioning

confidence: 99%

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Optimization of a CZT photon counting detector for contaminant detection

Nguyen¹,

Rodesch²,

Richtsmeier³

et al. 2021

J. Inst.

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In the food industry, X-ray inspection systems are utilized to ensure packaged food is free from physical contaminants to maintain a high level of food safety for consumers. However, one of the challenges in the food industry is detecting small, low-density contaminants from packaged food. Cadmium zinc telluride (CZT) photon counting detectors (PCDs) can potentially alleviate this problem given its multi-energy bin capabilities, high spatial resolution and ability to eliminate electronic noise, which is superior to the conventional energy integrating detector (EID). However, the image quality from a CZT PCD can be further improved by applying an optimized energy bin weighting scheme that maximizes energy bin images that provide the largest image contrast and lowest image noise. Therefore, in this work, five contaminant materials embedded in an acrylic phantom were imaged using a CZT PCD while the phantom was in constant motion to mimic food products moving on a conveyor belt. Energy bin optimization was performed by applying an image-based weighting scheme and these results showed contrast-to-noise ratio (CNR) improvements ranging between 1.02–1.91 relative to an equivalent EID acquisition.

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Section: Experimental Set-upmentioning

confidence: 93%

Section: Data Acquisitionmentioning

confidence: 99%

Section: Image Processingmentioning

confidence: 99%

mentioning

confidence: 99%

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Optimization of a CZT photon counting detector for contaminant detection

Nguyen¹,

Rodesch²,

Richtsmeier³

et al. 2021

J. Inst.

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“…Numerous researchers have conducted extensive studies on various geometric dimension image measurement techniques for different workpieces, achieving significant breakthroughs [4][5][6][7]. Gong-Y and Seibel [8] utilized three-dimensional optical technology to gauge complex micro-surfaces, such as internal threaded holes, within machined parts.…”

Section: Related Workmentioning

confidence: 99%

Vision-based measurement method for geometric dimensions of PVC pipe end faces

Yu,

Zhao,

Hou

et al. 2024

J. Inst.

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This study introduces a vision-based expedited methodology for assessing various geometric circular dimensions on the termini of PVC conduits. The process commences with delineating pipe profiles using the EDPF algorithm for edge detection. Successive steps employ a radius-constrained weighted circular approximation algorithm to form provisional circular profiles from closed-edge segments. These profiles are refined using a rapid circle arc fitting algorithm for multiple open-edge sections. Noise circles are sifted out with the Number of False Alarms algorithm, and upon calibration with actual dimensions, these profiles are quantified into physical sizes of the conduit's terminal geometries. Empirical evidence from the methodology demonstrates an ability to measure the circular dimensions with a mean accuracy rate surpassing 99.2%.

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