Title :
Advanced Radar Geosynchronous Observation System: ARGOS
Author :
Monti Guarnieri, Andrea ; Broquetas, Antoni ; Recchia, Andrea ; Rocca, Fabio ; Ruiz-Rodon, Josep
Author_Institution :
Dipt. di Elettron., Inf. e Bioingegneria, Politec. di Milano, Milan, Italy
Abstract :
The Advanced Radar Geosynchronous Observation System is proposed to be a multiple-input-multiple-output synthetic aperture radar (SAR) system hosted on a swarm of minisatellites in quasi-geostationary orbits. The system is made of N iso-frequency sensors, each of them transmitting and receiving the signals. The system would combine the continuous imaging capabilities of a geostationary SAR, gaining a factor N2 in signalto-noise ratio (SNR). The real aperture would be achievable in ~40 min, enabling applications so far unseen, such as monitoring fast deformations, landslides, and other applications for emergency and security. Still, the SNR of the long acquisition time would be conserved. The optimal design of the swarm is addressed, in order to trade resolution, coverage, and revisit time.
Keywords :
MIMO radar; celestial mechanics; radar imaging; radar receivers; radar resolution; radar transmitters; sensors; spaceborne radar; synthetic aperture radar; ARGOS; N-iso-frequency sensor; SAR system; SNR; advanced radar geosynchronous observation system; geostationary SAR imaging; landslide; minisatellite; multiple-input-multiple-output synthetic aperture radar system; quasigeostationary orbit; security; signal-to-noise ratio; Apertures; Image resolution; Orbits; Satellites; Signal to noise ratio; Synthetic aperture radar; Earth Observing System; multiple-input–multiple-output (MIMO) radar; multiple-input???multiple-output (MIMO) radar; radar interferometry; spaceborne radar; synthetic aperture radar (SAR);
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2015.2404214
