Optimal speckle reduction for the product model in multilook polarimetric SAR imagery and the Wishart distribution

Several optimal techniques exist to reduce speckle effects on polarimetric data, e.g. the Linear Minimum Mean Square Error (LMMSE) vector filter for multilook detected data or optimum summations such as the Polarimetric Whitening Filter (PWF) for one look complex data. Among other drawbacks, these standard methods do not preserve full polarimetric data, or they do not use the a priori texture distribution, or they are restricted to one look data. In the simplified case of data satisfying the so-called "product model", new optimal techniques are described in this paper that are able to reduce speckle effects on multilook data, while preserving fully polarimetric information and texture variations. This "product model" is valid when the scene texture has a large scale of variation and is polarization independent, for instance in K-distributed clutter. Under this assumption, the measured covariance matrix (multilook data) is the product of a scalar random variable /spl mu/ (the texture) and the covariance matrix C/sub zh/ of an equivalent Gaussian homogeneous surface. C/sub zh/ is the mean covariance matrix and contains the polarimetric information. A PWF for multilook complex data (MPWF) is proposed and is shown to be related to optimal statistical estimators of the texture (Maximum Likelihood, Maximum A Posteriori, MMSE...) when the complex Wishart distribution is used. The ML estimation of C/sub zh/ for textured areas is given and the adaptive filters based on these new tools are described. The results indicate a large speckle reduction. Moreover, the mean values of polarimetric features such as the magnitude and the phase of the HH-VV complex degree of coherence are preserved.

[1]  A. Lopes,et al.  The LMMSE polarimetric Wishart vector speckle filter for multilook data and the LMMSE spatial vector filter for correlated pixels in SAR images , 1994, Proceedings of IGARSS '94 - 1994 IEEE International Geoscience and Remote Sensing Symposium.

[2]  E. Nezry,et al.  Structure detection and statistical adaptive speckle filtering in SAR images , 1993 .

[3]  J. Bruniquel,et al.  Multi-variate optimal speckle reduction in SAR imagery , 1997 .

[4]  N. R. Goodman Statistical analysis based on a certain multivariate complex Gaussian distribution , 1963 .

[5]  J. Jao Amplitude distribution of composite terrain radar clutter and the κ-Distribution , 1984 .

[6]  Leslie M. Novak,et al.  Optimal speckle reduction in polarimetric SAR imagery , 1990 .

[7]  S. Quegan,et al.  Statistical models for polarimetric data: consequences, testing and validity , 1995 .

[8]  Leslie M. Novak,et al.  Optimal polarimetric processing for enhanced target detection , 1993 .

[9]  F.F. Kretschmer Estimators of Generalized Chi-Square Parameters , 1972, IEEE Transactions on Aerospace and Electronic Systems.

[10]  J. Kong,et al.  K-Distribution and Polarimetric Terrain Radar Clutter , 1990, Progress In Electromagnetics Research.

[11]  Donald B. Percival,et al.  Probability density functions for multilook polarimetric signatures , 1994, IEEE Trans. Geosci. Remote. Sens..

[12]  E. Nezry,et al.  Phase Difference Statistics Related To Sensor And Forest Parameters , 1992, [Proceedings] IGARSS '92 International Geoscience and Remote Sensing Symposium.

[13]  E. Nezry,et al.  Polarimetric Speckle Filters For SAR Data , 1992, [Proceedings] IGARSS '92 International Geoscience and Remote Sensing Symposium.

[14]  Ridha Touzi,et al.  The principle of speckle filtering in polarimetric SAR imagery , 1994, IEEE Trans. Geosci. Remote. Sens..

[15]  E. Nezry,et al.  Adaptive Processing of Multilook Complex Sar Images , 1992, [Proceedings] IGARSS '92 International Geoscience and Remote Sensing Symposium.

[16]  E. Rignot,et al.  Characterization of spatial statistics of distributed targets in SAR data , 1993, International Journal of Remote Sensing.

[17]  Jong-Sen Lee,et al.  Intensity and phase statistics of multilook polarimetric and interferometric SAR imagery , 1994, IEEE Trans. Geosci. Remote. Sens..

[18]  Ron Kwok,et al.  Classification of multi-look polarimetric SAR imagery based on complex Wishart distribution , 1994 .

[19]  A. Lopes,et al.  A MMSE Speckle Filter for Full Resolution SAR Polarimetric Data , 1993 .

[20]  E. Nezry,et al.  Maximum A Posteriori Speckle Filtering And First Order Texture Models In Sar Images , 1990, 10th Annual International Symposium on Geoscience and Remote Sensing.

[21]  E. Jakeman,et al.  Generalized K distribution: a statistical model for weak scattering , 1987 .

[22]  Donald B. Percival,et al.  Maximum likelihood estimation of K distribution parameters for SAR data , 1993, IEEE Trans. Geosci. Remote. Sens..

[23]  Ali Mohammad-Djafari,et al.  3 - Utilisation de l'entropie dans les problèmes de restauration et de reconstruction d'images , 1988 .

[24]  Jong-Sen Lee,et al.  Speckle reduction in multipolarization, multifrequency SAR imagery , 1991, IEEE Trans. Geosci. Remote. Sens..

[25]  I. S. Gradshteyn,et al.  Table of Integrals, Series, and Products , 1976 .