Title :
Prediction of Polarimetric-SAR Field-Orientation Rotation Due to Topographical Slope Variation for Squint Operations
Author :
Sabry, R. ; Vachon, P.W. ; Cole, M.
Author_Institution :
Radar Applic. & Space Technol., Defence R&D Canada - Ottawa, Ottawa, ON, Canada
fDate :
5/1/2011 12:00:00 AM
Abstract :
Local surface slope variations can impact synthetic aperture radar (SAR) imagery by changing the perceived polarization state of the imaged region. Correction of the topography-induced effects results in more accurate evaluation of polarimetric parameters. In this letter, the polarization-orientation angle (POA) correction is analytically estimated for a general polarimetric-SAR scenario operating at a known squint angle based upon a digital elevation model, permitting correction of the topography-induced effects. It can also aid to identify a squint angle that can counteract the effect of a specific POA rotation. Model parameters are demonstrated through a software implementation.
Keywords :
geophysical signal processing; radar polarimetry; radar signal processing; remote sensing by radar; synthetic aperture radar; topography (Earth); POA correction; PolSAR field orientation rotation prediction; SAR imagery; local surface slope variations; perceived polarization state change; polarimetric SAR; polarization orientation angle correction; squint operations; synthetic aperture radar; topographical slope variation; topography induced effect correction; Azimuth; Imaging; Radar polarimetry; Remote sensing; Scattering; Surfaces; Synthetic aperture radar; Polarimetry; polarization orientation angle (POA); synthetic aperture radar (SAR);
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2010.2092410
