Title :
A Markov random field model-based approach to unsupervised texture segmentation using local and global spatial statistics
Author :
Kervrann, Charles ; Heitz, Fabrice
Author_Institution :
IRISA/INRIA, Rennes, France
fDate :
6/1/1995 12:00:00 AM
Abstract :
Many studies have proven that statistical model-based texture segmentation algorithms yield good results provided that the model parameters and the number of regions be known a priori. In this correspondence, we present an unsupervised texture segmentation method that does not require knowledge about the different texture regions, their parameters, or the number of available texture classes. The proposed algorithm relies on the analysis of local and global second and higher order spatial statistics of the original images. The segmentation map is modeled using an augmented-state Markov random field, including an outlier class that enables dynamic creation of new regions during the optimization process. A Bayesian estimate of this map is computed using a deterministic relaxation algorithm. Results on real-world textured images are presented
Keywords :
Bayes methods; Markov processes; deterministic algorithms; higher order statistics; image segmentation; image texture; Bayesian estimate; Markov random field model-based approach; augmented-state; deterministic relaxation algorithm; global spatial statistics; higher order spatial statistics; local spatial statistics; optimization process; outlier class; real-world textured images; statistical model; texture classes; unsupervised texture segmentation; Algorithm design and analysis; Bayesian methods; Higher order statistics; Image analysis; Image edge detection; Image segmentation; Image texture analysis; Lattices; Markov random fields; Statistical analysis;
Journal_Title :
Image Processing, IEEE Transactions on
