The technique of spectral radiography has been shown to accurately discriminate a materials elemental composition by using known x-ray physics. This is achieved with a state-of-the-art pixelated spectrometer and a high-fidelity physical model. Similar to other radiographs, the system suffers from partial volume attenuation where the sample projection onto a pixel is only a fraction of the pixel area, leaving the rest unattenuated. This study updates the physical model to account for fractional area which presents new challenges to the existing algorithm. We present how this update is made and explore approaches to stabilize the algorithm through parameter scaling, constrained optimization, and hyperparameter selection.
Revised: December 8, 2020 |
Published: November 2, 2020
Citation
Gillis W.C., A.J. Gilbert, K. Pazdernik, and A. Erickson. 2020.A partial-volume correction for quantitative spectral x-ray radiography.IEEE Transactions on Nuclear Science 67, no. 11:2321 - 2328.PNNL-SA-151666.doi:10.1109/TNS.2020.3028009