Title :
CCRS C/X-airborne synthetic aperture radar: An R and D tool for the ERS-1 time frame
Author :
Livingstone, C.E. ; Gray, A.L. ; Hawkins, R.K. ; Olsen, R.B.
Author_Institution :
Canada Centre for Remote Sensing, Ottawa, Ont., Canada
Abstract :
The airborne synthetic-aperture radar (SAR) system developed for the Canada Centre for Remote Sensing (CCRS) is described. It consists of two radars, at C-band and X-band. Each radar incorporates the following features: dual-channel receivers and dual-polarized antennas; a high quality, 7-look, real-time processor; a sensitivity time control for range-dependent gain control; a motion-compensation system for antenna steering in azimuth and elevation; and baseband I and Q signal phase rotation. The system also uses a high-power transmitter with a low-power back-up. The SAR maps to either side of the aircraft, at high or low resolution, at incidence angles which in high resolution span 0 degrees to 80 degrees . Radar operating parameters, data products, key specifications and the motion compensation scheme used are presented. Properties of the real-time imagery are discussed and examples of C-band SAR data in the three operating modes are given.<>
Keywords :
aircraft communication; aircraft instrumentation; computerised picture processing; geophysical equipment; microwave imaging; radar systems; remote sensing; C-band; ERS-1 time frame; SAR; SHF; X-band; airborne synthetic-aperture radar; dual-channel receivers; dual-polarized antennas; motion-compensation system; range-dependent gain control; real-time imagery; real-time processor; remote sensing; research and development; signal phase rotation; Airborne radar; Motion control; Radar antennas; Radar remote sensing; Radar signal processing; Real time systems; Receiving antennas; Remote sensing; Signal resolution; Synthetic aperture radar;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
