GeoSAR is a program sponsored by DARPA (Defense Advanced Research Projects Agency) and NASA (National Aeronautics and Space Administration) to develop an airborne, radar-based, commercial terrain mapping system for identification of geologic, seismic, and environmental information. It has two (dual-band at X and UHF) state-of-the-art interferometric synthetic aperture radar (SAR) ground mapping systems. The UHF interferometry system is utilized to penetrate the vegetation canopy and obtain true ground surface height information, while the X-band system will provide the capability of mapping the top foliage surface. This paper presents the UHF antenna system where the required center frequency is 350 MHz with a 160 MHz bandwidth (46% from 270 MHz to 430 MHz). The antenna is required to have dual-linear polarization with a peak gain of 10 dB at the center frequency and a minimum gain of 8 dB toward two ends of the frequency band. One of the most challenging tasks, in addition to achieving the 46% bandwidth, is to develop an antenna with small enough size to fit in the wing-tip pod of a Gulfstream II aircraft.


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    Ultra-Wideband UHF Microstrip Array for GeoSAR Application

    Huang, J. / Thomas, R. F. | NTRS | 1998


    The Geosar Airborne Mapping System

    Wheeler, K. / Hensley, S. | NTRS | 2000




    GeoSAR: A Radar Terrain Mapping System for the New Millennium

    Yoha, R. / Burton, J. / Munjy, R. et al. | NTRS | 1999