Title :
Prospects for geostationary doppler weather radar
Author :
Tanelli, Simone ; Fang, Houfei ; Durden, Stephen L. ; Im, Eastwood ; Rahmat-samii, Yahya
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA
Abstract :
A novel mission concept, namely NEXRAD in Space (NIS), was developed for detailed monitoring of hurricanes, cyclones, and severe storms from a geostationary orbit. This mission concept requires a space deployable 35-m diameter reflector that operates at 35-GHz with a surface figure accuracy requirement of 0.21 mm RMS. This reflector is well beyond the current state-of-the-art. To implement this mission concept, several potential technologies associated with large, lightweight, spaceborne reflectors have been investigated by this study. These spaceborne reflector technologies include mesh reflector technology, inflatable membrane reflector technology and Shape Memory Polymer reflector technology.
Keywords :
Doppler radar; aerospace instrumentation; meteorological radar; spaceborne radar; geostationary Doppler weather radar; geostationary orbit; inflatable membrane reflector technology; mesh reflector technology; mission concept; shape memory polymer reflector technology; space deployable reflector; spaceborne reflector technology; surface figure accuracy requirement; Biomembranes; Cyclones; Hurricanes; Meteorological radar; Monitoring; Shape; Space missions; Space technology; Spaceborne radar; Storms; geostationary; weather radar;
Conference_Titel :
Radar Conference, 2009 IEEE
Conference_Location :
Pasadena, CA
Print_ISBN :
978-1-4244-2870-0
Electronic_ISBN :
1097-5659
DOI :
10.1109/RADAR.2009.4977117
