Title :
Maximum likelihood pixel labeling using a spatially variant finite mixture model
Author :
Gopal, S. Sanjay ; Hebert, T.J.
Author_Institution :
Dept. of Radiol., Michigan Univ., Ann Arbor, MI, USA
fDate :
8/1/1997 12:00:00 AM
Abstract :
The authors propose a spatially-variant mixture model for pixel labeling. Based on this spatially-variant mixture model they derive an expectation maximization algorithm for maximum likelihood estimation of the pixel labels. While most algorithms using mixture models entail the subsequent use of a Bayes classifier for pixel labeling, the proposed algorithm yields maximum likelihood estimates of the labels themselves and results in unambiguous pixel labels. The proposed algorithm is fast, robust, easy to implement, flexible in that it can be applied to any arbitrary image data where the number of classes is known and, most importantly, obviates the need for an explicit labeling rule. The algorithm is evaluated both quantitatively and qualitatively on simulated data and on clinical magnetic resonance images of the human brain
Keywords :
algorithm theory; biomedical NMR; brain; image segmentation; maximum likelihood estimation; medical image processing; modelling; Bayes classifier; MRI; arbitrary image data; clinical magnetic resonance images; expectation maximization algorithm; explicit labeling rule; human brain; maximum likelihood pixel labeling; medical diagnostic imaging; simulated data; spatially variant finite mixture model; Brain modeling; Coordinate measuring machines; Image segmentation; Labeling; Magnetic resonance; Maximum likelihood estimation; Pixel; Radiology; Robustness; Yield estimation;
Journal_Title :
Nuclear Science, IEEE Transactions on
