A novel look-angle function based formulation of the topography-induced backscattering matrix rotation is proposed in this paper. The proposed formulation is obtained by relying on a suitable cylindrical coordinate system and a suitable parametric representation of the illuminated surface. A concise functional form for the polarization orientation angle shifts, whose expression is given uniquely in terms of the partial derivative of the look-angle function along the azimuthal (or along track) direction, is derived. As a result, a unifying analytical approach for the calibration of polarimetric SAR data, which incorporates consistently within a common formalism both area-stretching radiometric compensation and polarization orientation angle shifts compensation, is developed. The validity of the proposed method is demonstrated by using real polarimetric SAR data.
POLARIMETRIC SAR DISTORTIONS INDUCED BY TOPOGRAPHY: AN ANALYTICAL FORMULATION FOR COMPENSATION IN THE IMAGING DOMAIN
Imperatore Pasquale;Pepe Antonio;Lanari Riccardo
2018
Abstract
A novel look-angle function based formulation of the topography-induced backscattering matrix rotation is proposed in this paper. The proposed formulation is obtained by relying on a suitable cylindrical coordinate system and a suitable parametric representation of the illuminated surface. A concise functional form for the polarization orientation angle shifts, whose expression is given uniquely in terms of the partial derivative of the look-angle function along the azimuthal (or along track) direction, is derived. As a result, a unifying analytical approach for the calibration of polarimetric SAR data, which incorporates consistently within a common formalism both area-stretching radiometric compensation and polarization orientation angle shifts compensation, is developed. The validity of the proposed method is demonstrated by using real polarimetric SAR data.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
