Quasi geostationary, comsat-compatible SAR: Solutions for payload design

Autor: A. Monti Guarnieri, Davide Giudici, G. Orlando, V. T. Khang, C. Germani, Detlef Schulz, O. Bombaci
Rok vydání: 2015
Předmět:
atmospheric humidity
Synthetic aperture radar
Early-warning radar
Computer science
payload design
quasigeostationary monostatic SAR
Fire-control radar
Earth Observing System
Butler matrices
comsat-compatible SAR
Space-based radar
spot beam
law.invention
water vapor monitoring
Radar engineering details
Spot beam
law
Radar imaging
Interferometric synthetic aperture radar
remote sensing by radar
L-band coverage
weather forecasting
Radar
geomorphology
synthetic aperture radar
COMSAT satellite
X-band spot
coarse resolution imaging
hydrogeological landslide
numerical weather forecast
Feeds
L-band
Payloads
Signal to noise ratio
Radar interferometry
Spaceborne radar
Remote sensing
Payload
Pulse-Doppler radar
Side looking airborne radar
Radar lock-on
Continuous-wave radar
Inverse synthetic aperture radar
Man-portable radar
Bistatic radar
3D radar
Geostationary orbit
Satellite
Zdroj: IGARSS
DOI: 10.1109/igarss.2015.7326850
Popis: The paper proposes two different architectural solutions for a quasi-geostationary monostatic SAR, hosted on-board of a COMSAT satellite, aiming at monitoring water-vapor, for Numerical Weather Forecast on a sub-continental scale, and hazards like hydrogeological landslides and deformations on a local scale. The two architectures address a system that combines an L-band, wide coverage beam, for coarse resolution imaging, and an X-band, spot beam, for fine resolution imaging. The challenge is to allow the X-band spot to be positioned everywhere within the L-band coverage, that should be hold fixed, but exploiting the same wide reflector.
Databáze: OpenAIRE
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