Grouped-coordinate ascent algorithms for penalized-likelihood transmission image reconstruction

This paper presents a new class of algorithms for penalized-likelihood reconstruction of attenuation maps from low-count transmission scans. We derive the algorithms by applying to the transmission log-likelihood a version of the convexity technique developed by De Pierro for emission tomography. The new class includes the single-coordinate ascent (SCA) algorithm and Lange's convex algorithm for transmission tomography as special cases, The new grouped-coordinate ascent (GCA) algorithms in the class overcome several limitations associated with previous algorithms, 1) Fewer exponentiations are required than in the transmission maximum likelihood-expectation maximization (ML-EM) algorithm or in the SCA algorithm, 2) The algorithms intrinsically accommodate nonnegativity; constraints, unlike many gradient-based methods, 3) The algorithms are easily parallelizable, unlike the SCA algorithm and perhaps line-search algorithms, We show that the GCA algorithms converge faster than the SCA algorithm, even on conventional workstations, An example from a low-count positron emission tomography (PET) transmission scan illustrates the method.