Title :
Optimal Frequency-Based Weighting for Spectral X-Ray Projection Imaging
Author :
Yveborg, Moa ; Persson, Mats ; Bornefalk, Hans
Author_Institution :
Dept. of Phys., AlbaNova Univ. Center, Stockholm, Sweden
Abstract :
The purpose of this work is to derive a weighting scheme that maximizes the frequency-dependent ideal observer signal-difference-to-noise ratio, commonly referred to as detectability index or Hotelling-SDNR, for spectral X-ray projection imaging. Starting from basic statistical decision theory, optimal frequency-dependent weights are derived for a multiple-bin system and the Hotelling-SDNR calculated. A 28% increase in detectability index is found for high frequency objects when applying optimal frequency-dependent weights instead of pixel-based weights to a simplified model of a silicon detector, decreasing towards 0% for low frequency objects. Simulation results indicate a potentially large increase in detectability for high-frequency object imaging using silicon detectors, thus meriting further evaluations on a real system.
Keywords :
computerised tomography; diagnostic radiography; photon counting; statistical analysis; Hotelling-SDNR; basic statistical decision theory; detectability index; frequency-dependent ideal observer signal-difference-to-noise ratio; high frequency objects; high-frequency object imaging; low frequency objects; multiple-bin system; optimal frequency-based weighting; optimal frequency-dependent weights; pixel-based weights; silicon detector; spectral X-ray projection imaging; Detectors; Discrete Fourier transforms; Imaging; Indexes; Photonics; Silicon; Detectability index; Hotelling SDNR; multiple-bin; photon counting; spectral X-ray imaging;
Journal_Title :
Medical Imaging, IEEE Transactions on
DOI :
10.1109/TMI.2014.2360932
