Title :
Partition function estimation of Gibbs random field images using Monte Carlo simulations
Author :
Potamianos, Gerasimos G. ; Goutsias, John K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Johns Hopkins Univ., Baltimore, MD, USA
fDate :
7/1/1993 12:00:00 AM
Abstract :
A Monte Carlo simulation technique for estimating the partition function of a general Gibbs random field image is proposed. By expressing the partition function as an expectation, an importance sampling approach for estimating it using Monte Carlo simulations is developed. As expected, the resulting estimators are unbiased and consistent. Computations can be performed iteratively by using simple Monte Carlo algorithms with remarkable success, as demonstrated by simulations. The work concentrates on binary, second-order Gibbs random fields defined on a rectangular lattice. However, the proposed methods can be easily extended to more general Gibbs random fields. Their potential contribution to optimal parameter estimation and hypothesis testing problems for general Gibbs random field images using a likelihood approach is anticipated
Keywords :
Monte Carlo methods; image processing; information theory; lattice theory and statistics; parameter estimation; random processes; Gibbs random field images; Monte Carlo simulation; binary fields; hypothesis testing; importance sampling approach; likelihood approach; optimal parameter estimation; partition function estimation; rectangular lattice; second-order fields; Closed-form solution; Computational modeling; Image analysis; Iterative algorithms; Lattices; Monte Carlo methods; Parameter estimation; Partitioning algorithms; Stochastic processes; Testing;
Journal_Title :
Information Theory, IEEE Transactions on
