Title :
Nonlinear multiscale representations of Markov random fields
Author_Institution :
Dept. of Appl. Math & Digital Commun., Ecole Superieure de Commun. de Tunis, Tunisia
Abstract :
We develop a framework for multiscale representations of Markov random fields (MRFs) using the renormalization group theory. This representation is a nonlinear transformation of the MRFs coupling parameters at successive scale transformations. The marginally stable fixed points of the nonlinear transformation define an important class of self-similar non-Gaussian Markov random fields that we call critical MRFs (CMRFs). The main advantage of this multi-scale representation framework guarantees that all order statistics of the MRFs at different resolutions are preserved. We show that since the partition function in a Gibbs distribution of a CMRF is necessarily scale invariant, all order statistics are generalized homogenous functions. This leads us to closely examine self-similarity in a class of MRFs
Keywords :
Markov processes; group theory; image representation; random processes; statistical analysis; Gibbs distribution; MRF coupling parameters; Markov random fields; critical MRF; generalized homogenous functions; image processing; nonlinear multiscale representations; nonlinear transformation; order statistics; partition function; renormalization group theory; scale transformations; self-similar nonGaussian MRF; self-similarity; Couplings; Digital communication; Electronic mail; Image processing; Lattices; Markov random fields; Probability distribution; Random variables; Signal processing; Statistical distributions;
Conference_Titel :
Signal Processing and its Applications, Sixth International, Symposium on. 2001
Conference_Location :
Kuala Lumpur
Print_ISBN :
0-7803-6703-0
DOI :
10.1109/ISSPA.2001.950232
