Title :
Performance simulation of a spaceborne dual-frequency Rotating Fanbeam SCATterometer
Author :
Lin, Wenming ; Dong, Xiaolong ; Zhu, Di
Author_Institution :
Key Lab. of Microwave Remote Sensing, Center for Space Sci. & Appl. Res., Beijing, China
Abstract :
In this paper, a conceptual design for a dual-frequency Rotating Fanbeam SCATterometer (RFSCAT) to fly onboard the future satellite (e.g. FY-3) with altitude of 836km is studied. System configurations of the studied C- and Ku-band RFSCAT are introduced respectively. Then an end-to-end simulation process is adopted to analyze the backscatter measurement accuracy, ant to assess the wind retrieval quality of the proposed RFSCAT. For a wind vector cell with spatial resolution of 25 km, the communication noise ranges from 4% to 90% for the Ku-band measurement, and from 3% to 25% for the C-band one, depending on ocean surface wind speed. The simulation results indicate that the proposed system would promote the wind retrieval qualities significantly by combining the C- and Ku-band microwave measurement.
Keywords :
backscatter; microwave measurement; oceanographic equipment; radar resolution; spaceborne radar; wind; C-band microwave measurement; Ku-band microwave measurement; RFSCAT; Rotating Fanbeam scatterometer; altitude 836 km; backscatter measurement; distance 25 km; end-to-end simulation process; performance simulation; spaceborne dual-frequency; spatial resolution; wind retrieval quality; wind vector cell; Bandwidth; Instruments; Noise; Radar measurements; Spaceborne radar; Wind speed; dual-frequency; fanbeam; figure of merit (FoM); scatterometer;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2011 IEEE International
Conference_Location :
Vancouver, BC
Print_ISBN :
978-1-4577-1003-2
DOI :
10.1109/IGARSS.2011.6049287
