Title :
Theory and design of interferometric synthetic aperture radars
Author :
Rodriguez, E. ; Martin, J.M.
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
fDate :
4/1/1992 12:00:00 AM
Abstract :
Interferometric synthetic aperture radar (InSAR) is a method which may provide a means of estimating global topography with high spatial resolution and height accuracy. The authors present a derivation of the signal statistics, an optimal estimator of the interferometric phase, and the expressions necessary to calculate the height-error budget. These expressions are used to derive methods of optimising the InSAR-system parameters, and are then used in a specific design example for a system to perform high-resolution global topographic mapping with a one-year mission lifetime, subject to current technological constraints. A Monte Carlo simulation of this InSAR system is performed to evaluate its performance for realistic topography. The results indicate that this system has the potential to satisfy the stringent accuracy and resolution requirements for geophysical use of global topographic data
Keywords :
Monte Carlo methods; electromagnetic wave interferometry; geophysical equipment; radar systems; radar theory; remote sensing by radar; topography (Earth); InSAR system; Monte Carlo simulation; design; geophysical technique; height accuracy; height-error budget; high spatial resolution; high-resolution global topographic mapping; interferometric phase; interferometric synthetic aperture radars; optimal estimator; remote sensing; signal statistics;
Journal_Title :
Radar and Signal Processing, IEE Proceedings F
