Title :
GeoSTAR - a synthetic aperture approach for a geostationary microwave sounder
Author :
Lambrigtsen, Bjorn ; Wilson, William ; Tanner, Alan ; Gaier, Todd
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
Abstract :
GeoSTAR is a new microwave atmospheric sounder under development, with capabilities similar to sensors now operating on low Earth orbiting weather satellites. GeoSTAR is intended for deployment in geostationary orbit - where it complements future infrared sounders and enables all-weather temperature and humidity soundings and rain mapping. The required spatial resolution of 50 km at 50 GHz dictates an aperture of 4 meters or more, which is difficult to achieve with a real aperture system. GeoSTAR is instead based on a synthetic aperture imaging approach. Among the advantages of such a system are that there are no moving parts, and the size of the aperture is easily expandable to meet future needs. A ground based prototype of GeoSTAR is currently under development in an effort led by the Jet Propulsion Laboratory. We describe the measurement and calibration approach, system design, and selected technology elements.
Keywords :
atmospheric measuring apparatus; calibration; millimetre wave antenna arrays; millimetre wave measurement; radiometers; receiving antennas; remote sensing; 50 GHz; GeoSTAR; Jet Propulsion Laboratory; calibration method; geostationary microwave sounder; geostationary orbit; geostationary synthetic thinned aperture radiometer; infrared sounders; low Earth orbiting weather satellites; measurement method; microwave atmospheric sounder; rain mapping; real aperture system; sensors; spatial resolution; synthetic aperture imaging; Acoustic sensors; Apertures; Artificial satellites; Humidity; Low earth orbit satellites; Microwave sensors; Optical imaging; Rain; Spatial resolution; Temperature sensors;
Conference_Titel :
Aerospace Conference, 2004. Proceedings. 2004 IEEE
Print_ISBN :
0-7803-8155-6
DOI :
10.1109/AERO.2004.1367702
