Estimating Gaussian Markov random field parameters in a nonstationary framework:: Application to remote sensing imaging

In this paper, we tackle the problem of estimating textural parameters, We db not consider the problem of textures synthesis, but the problem of extracting textural features for tasks such as image segmentation. We take Into account nonstationarities occurring: in the local mean. We focus on Gaussian Markov random fields for which two estimation;methods are proposed, and applied in a nonstationary: framework. The first one consists of extracting conditional probabilities and performing a least square approximation, This method is applied to a nonstationary framework, dealing with piecewise constant local mean, This framework is adapted to practical tasks when discriminating several textures on a single image, The blurring effect affecting edges between two different textures is thus reduced, The second propose method is based on renormalization theory. Statistics involved only concern variances of Gaussian laws, Leading to Cramer-pao estimators. This method is thus especially robust with respect to the size of sampling. Moreover, nonstationarities of the local mean do not affect results. We then demonstrate that the estimated parameters allows texture discrimination for remote sensing data, The first proposed estimation method is applied to extract urban areas from SPOT images. Since discontinuities of the local mean are taken into account, we obtain an accurate urban areas delineation, Finally we apply the renormalization based on method to segment ice in polar regions from AVHRR data.