Dr. Vaibhav Sinha

Educator, Researcher, Administrator and Entrepreneur


Curriculum vitae


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A Novel Algorithm for Fast Measurement of Material Density in Symmetrical Objects Using X-Ray Radiography


Journal article


Vaibhav Sinha, F. Strantz, Hyoung K. Lee
Journal of Nuclear Engineering and Radiation Science, 2023

Semantic Scholar DOI
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APA   Click to copy
Sinha, V., Strantz, F., & Lee, H. K. (2023). A Novel Algorithm for Fast Measurement of Material Density in Symmetrical Objects Using X-Ray Radiography. Journal of Nuclear Engineering and Radiation Science.


Chicago/Turabian   Click to copy
Sinha, Vaibhav, F. Strantz, and Hyoung K. Lee. “A Novel Algorithm for Fast Measurement of Material Density in Symmetrical Objects Using X-Ray Radiography.” Journal of Nuclear Engineering and Radiation Science (2023).


MLA   Click to copy
Sinha, Vaibhav, et al. “A Novel Algorithm for Fast Measurement of Material Density in Symmetrical Objects Using X-Ray Radiography.” Journal of Nuclear Engineering and Radiation Science, 2023.


BibTeX   Click to copy

@article{vaibhav2023a,
  title = {A Novel Algorithm for Fast Measurement of Material Density in Symmetrical Objects Using X-Ray Radiography},
  year = {2023},
  journal = {Journal of Nuclear Engineering and Radiation Science},
  author = {Sinha, Vaibhav and Strantz, F. and Lee, Hyoung K.}
}

Abstract

X-ray radiography has proved to be essential in medical imaging and examination of material structures because it is non-invasive and generates images based on well-understood attenuation characteristics of materials. For radiographs of multiple overlapping materials, unraveling the individual attenuation contributions poses a problem that is commonly handled by either taking many radiographs at different object orientations for computed tomography or multiple images with different photon energies for Multiple Energy X-ray Absorptiometry (MEXA). Alternatively, to perform fast measurements, a novel algorithm has been developed to determine multi-material systems' density. The algorithm can be effectively applied to perform measurement using only one to four radiographs of the object. A case study has been presented for a layered cylindrical object that involved sensitivity studies on image noise, X-ray generator voltage fluctuations, layer thickness measurement perturbations, and X-ray generator photon energy distribution fluctuations using simulated radiographs and density calculations using actual radiographs. The results from the simulated and experimental results were found to agree with actual density values.


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