Title :
Foliage attenuation and backscatter analysis of SAR imagery
Author :
Fleischman, J.G. ; Ayasli, S. ; Adams, E.M. ; Gosselin, D.R.
Author_Institution :
Lincoln Lab., MIT, Lexington, MA, USA
Abstract :
The ability of a synthetic aperture radar (SAR) to detect targets under foliage is in part determined by the attenuation suffered by radiation propagating through the foliage and the backscatter from the foliage. MIT Lincoln Laboratory made measurements of foliage attenuation and backscatter using the NASA/JPL-UHF, L-, C-band fully-polarimetric SAR in July 1990. In this experiment, a 48 km 2 forested area near Portage, Maine was imaged. Twenty-seven 8 ft trihedral corner reflectors were arrayed throughout the imaged area in order to measure foliage attenuation. Ground truth was recorded at the time of the experiment in order to correlate the attenuation and backscatter results with foliage biophysical properties. The probability densities for foliage attenuation and for backscatter are determined as functions of frequency, polarization, and depression angle.
Keywords :
backscatter; image enhancement; radar cross-sections; radar imaging; radar polarimetry; synthetic aperture radar; C-band; L-band; SAR imagery; UHF; backscatter analysis; depression angle; foliage attenuation; foliage biophysical properties; fully-polarimetric SAR; trihedral corner reflectors; Area measurement; Attenuation measurement; Backscatter; Frequency; Image analysis; Laboratories; NASA; Radar detection; Radiation detectors; Synthetic aperture radar;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
