Radar polarimetry aims to determine the scattering properties of a target or scatterer. For this purpose, the scattering matrix can be analyzed and represented in several ways using various techniques to extract information about the scattering mechanisms. Polarimetry and ellipsometry are techniques which both study the properties of the polarization of the scattered waves but traditionally refer to different wavelengths: optical wavelengths for ellipsometry, and high-frequencies radio waves for radar polarimetry. This paper deals with natural targets in the general bistatic case, for which the 16 parameters of the Mueller matrix are independent. We try to answer the following questions: how to deduce the radar polarimetric parameters from the optical measurements of a Mueller ellipsometer? What are the polarimetric parameters traditionally devoted to optical images, and in which extent is it possible to apply and interpret them in the case of SAR images?
[1]
R. Chipman,et al.
Interpretation of Mueller matrices based on polar decomposition
,
1996
.
[2]
1 OPTIMUM POLARIZATIONS OF BISTATIC INCOHERENT MECHANISMS
,
.
[3]
C. Tai.
Complementary reciprocity theorems in electromagnetic theory
,
1992
.
[4]
The Lorentz Reciprocity Theorem for Electric Waves
,
Proceedings of the Institute of Radio Engineers.
[5]
Qin Li,et al.
Microwave Remote Sensing Theory
,
1999
.
[6]
J. Kong,et al.
Theory of microwave remote sensing
,
1985
.
[7]
P. Siqueira.
Wave Propagation and Scattering in Dense Random Media
,
1996
.
[8]
J. Gil.
Characteristic properties of Mueller matrices.
,
2000,
Journal of the Optical Society of America. A, Optics, image science, and vision.