Article ID Journal Published Year Pages File Type
532350 Pattern Recognition 2012 16 Pages PDF
Abstract

Triplet Markov fields (TMF) model proposed recently is suitable for nonstationary image segmentation. For synthetic aperture radar (SAR) image segmentation, TMF model can adopt diverse statistical models for SAR data related to diverse radar backscattering sources. However, TMF model does not take into account the inherent imprecision associated with SAR images. In this paper, we propose a statistical fuzzy TMF (FTMF) model, which is a fuzzy clustering type treatment of TMF model, for unsupervised multi-class segmentation of SAR images. This paper contributes to SAR image segmentation in four aspects: (1) Nonstationarity of the statistical distribution of SAR intensity/amplitude data is taken into account to improve the spatial modeling capability of fuzzy TMF model. (2) Mean field theory is generalized to deal with planar variables to derive prior probability in fuzzy TMF model, which resolves the problem in Gibbs sampler in terms of computation cost. (3) A fuzzy objective function with regularization by Kullback–Leibler information of fuzzy TMF model is constructed for SAR image segmentation. The introduction of fuzziness for the belongingness of SAR image pixel makes fuzzy TMF model be able to retain more information from SAR image. (4) Fuzzy iterative conditional estimation (ICE) method, as an extension of the general ICE method is proposed to perform the model parameters estimation. The effectiveness of the proposed algorithm is demonstrated by application to simulated data and real SAR images.

► We propose a FTMF model for unsupervised multiclass segmentation of SAR images. ► Nonstationarity of statistical distribution of SAR data is considered in FTMF model. ► Generalized mean field theory is able to decrease the computation cost. ► A fuzzy objective function is constructed to retain more information from SAR images. ► Fuzzy ICE is proposed to perform FTMF model parameter estimation.

Related Topics
Physical Sciences and Engineering Computer Science Computer Vision and Pattern Recognition
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