Title :
The principle of speckle filtering in polarimetric SAR imagery
Author :
Touzi, R. ; Lopes, A.
Author_Institution :
Coll. Mil. R. de Saint-Jean, Que., Canada
fDate :
9/1/1994 12:00:00 AM
Abstract :
The principle of speckle reduction in polarimetry is reconsidered. It is shown that polarimetric data can be speckle reduced if and only if all the elements of the Mueller matrix are filtered, which is equivalent to filtering the scattering vector covariance matrix. Assuming that speckle is multiplicative and stationary, the algorithms proposed by S.L.Lee et al. (1991) and S.Goze et al. (1993) are extended to filter the covariance matrix of reciprocal and nonreciprocal targets on one-look and multilook images. The problem of estimation of the first- and second-order statistics of the four-channel speckle vector is discussed, and a solution is proposed for one-look and multilook images
Keywords :
S-matrix theory; geophysical techniques; geophysics computing; polarimetry; remote sensing by radar; speckle; synthetic aperture radar; Mueller matrix; algorithm; filter; four-channel speckle vector; geophysical measurement technique; imaging; land surface; multilook image; multiplicative; nonreciprocal target; one-look; polarimetric SAR imagery; polarimetry; radar remote sensing; reciprocal; scattering matrix; scattering vector covariance matrix; second-order statistics; speckle filtering; speckle reduction; stationary; terrain mapping; Covariance matrix; Filtering; Filters; Polarimetry; Polarization; Radar antennas; Radar scattering; Receiving antennas; Speckle; Transmitting antennas;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
