Title :
Wavelet Thresholding-Based Denoising Method of List-Mode MLEM Algorithm for Compton Imaging
Author :
Frandes, Mirela ; Magnin, Isabelle E. ; Prost, Rémy
Author_Institution :
CREATIS, Univ. of Lyon, Villeurbanne, France
fDate :
6/1/2011 12:00:00 AM
Abstract :
Iterative image reconstruction of data measured by a Compton scattering camera has to overcome various difficulties, e.g., large amount of data, noise arising from both low counts recorded, and the imaging response. Image estimation by the Maximum Likelihood (ML) criterion induces noise amplification, so a denoising step is needed. The proposed solution is a denoising technique using wavelet-based thresholding of the ML Expectation-Maximization (EM) update factors, called WTDEM. The thresholds are scale dependent, and proportional to the standard deviation of the high-frequency sub-band coefficients at the respective scale. It results in lower reconstruction errors than the MLEM algorithm, and the Gaussian smoothing, and, in addition, it is stable. The WTDEM algorithm is illustrated by computer experiments.
Keywords :
Compton effect; expectation-maximisation algorithm; image denoising; image reconstruction; medical image processing; radioisotope imaging; Compton imaging; Compton scattering camera; ML Expectation-Maximization update; Maximum Likelihood criterion; WTDEM technique; iterative image reconstruction; list-mode MLEM algorithm; noise amplification; wavelet thresholding-based denoising; Detectors; Discrete wavelet transforms; Image reconstruction; Imaging; Noise; Noise reduction; Scattering; Compton imaging; denoising; list-mode algorithms; wavelet thresholding;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2011.2121093
