Frank A. DiBianca scite author profile

A computed tomography imaging technique called variable resolution x-ray (VRX) detection provides detector resolution ranging from that of clinical body scanning to that of microscopy (1 cy/mm to 100 cy/mm). The VRX detection technique is based on a new principle denoted as "projective compression" that allows the detector resolution element to scale proportionally to the image field size. Two classes of VRX detector geometry are considered. Theoretical aspects related to x-ray physics and data sampling are presented. Measured resolution parameters (line-spread function and modulation-transfer function) are presented and discussed. A VRX image that resolves a pair of 50 micron tungsten hairs spaced 30 microns apart is shown.

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Cross-Section Measurements for the Reactionsνp→μ−π+pand
Bell¹,
Berge²,
Bogert³
et al. 1978
Phys. Rev. Lett.

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Modeling and measurement of the detector presampling MTF of a variable resolution x‐ray CT scanner

Melnyk

DiBianca

2007

Medical Physics

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The detector presampling MTF of a 576-channel variable resolution x-ray (VRX) CT scanner was evaluated in this study. The scanner employs a VRX detector, which provides increased spatial resolution by matching the scanner's field of view (FOV) to the size of an object being imaged. Because spatial resolution is the parameter the scanner promises to improve, the evaluation of this resolution is important. The scanner's pre-reconstruction spatial resolution, represented by the detector presampling MTF, was evaluated using both modeling (Monte Carlo simulation) and measurement (the moving slit method). The theoretical results show the increase in the cutoff frequency of the detector presampling MTF from 1.39 cy/mm to 43.38 cy/mm as the FOV of the VRX CT scanner decreases from 32 cm to 1 cm. The experimental results are in reasonable agreement with the theoretical data. Some discrepancies between the measured and the modeled detector presampling MTFs can be explained by the limitations of the model. At small FOVs (1-8 cm), the MTF measurements were limited by the size of the focal spot. The obtained results are important for further development of the VRX CT scanner.

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A variable resolution x‐ray detector for computed tomography: II. Imaging theory and performance

et al. 2000

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A computed tomography (CT) imaging technique called variable resolution x-ray (VRX) detection provides variable image resolution ranging from that of clinical body scanning (1 cy/mm) to that of microscopy (100 cy/mm). In this paper, an experimental VRX CT scanner based on a rotating subject table and an angulated storage phosphor screen detector is described and tested. The measured projection resolution of the scanner is > or = 20 lp/mm. Using this scanner, 4.8-s CT scans are made of specimens of human extremities and of in vivo hamsters. In addition, the system's projected spatial resolution is calculated to exceed 100 cy/mm for a future on-line CT scanner incorporating smaller focal spots (0.1 mm) than those currently used and a 1008-channel VRX detector with 0.6-mm cell spacing.

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The Use of Contrast-Detail-Dose Evaluation of Image Quality in a Computed Tomographic Scanner

Cohen

DiBianca

1979

Journal of Computer Assisted Tomography

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Frank A. DiBianca

A variable resolution x‐ray detector for computed tomography: I. Theoretical basis and experimental verification

Cross-Section Measurements for the Reactionsνp→μ−π+pand
Bell¹,
Berge²,
Bogert³
et al. 1978
Phys. Rev. Lett.

Modeling and measurement of the detector presampling MTF of a variable resolution x‐ray CT scanner

A variable resolution x‐ray detector for computed tomography: II. Imaging theory and performance

The Use of Contrast-Detail-Dose Evaluation of Image Quality in a Computed Tomographic Scanner

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Frank A. DiBianca

A variable resolution x‐ray detector for computed tomography: I. Theoretical basis and experimental verification

Cross-Section Measurements for the Reactionsνp→μ−π+pandBell1, Berge2, Bogert3 et al. 1978Phys. Rev. Lett.

Modeling and measurement of the detector presampling MTF of a variable resolution x‐ray CT scanner

A variable resolution x‐ray detector for computed tomography: II. Imaging theory and performance

The Use of Contrast-Detail-Dose Evaluation of Image Quality in a Computed Tomographic Scanner

Contact Info

Product

Resources

About

Cross-Section Measurements for the Reactionsνp→μ−π+pand
Bell¹,
Berge²,
Bogert³
et al. 1978
Phys. Rev. Lett.