Title :
Advanced paris altimeter based on delay compensation of Doppler Waveforms
Author :
D´Addio, Salvatore ; Martin-Neira, Manuel
Author_Institution :
Electr. Eng. Dept., Eur. Space Agency, Noordwijk, Netherlands
Abstract :
Measuring ocean mesoscale variability is one of the main objectives of next generation satellite altimeters. Among the alternative solutions proposed to overcome the limitations of conventional altimeters, the PARIS concept has been proposed, which exploits GNSS signals reflected from the ocean surface and allows performing altimetry along several points simultaneously over a wide swath with sub-decimeter accuracy in spatial scales of 50-100 Km. The present paper proposes to adopt for a PARIS altimeter a multilook unfocused Doppler processing in order to improve height precision and accuracy. The proposed processing concept is a simplified extension to PARIS of the delay/Doppler processing adopted in conventional radar altimetry. The analyses reported in the paper show that, for open access GPS L5 navigation signal, an improvement of height precision up to 30% could be achieved without modifications to the RF front-end.
Keywords :
altimeters; oceanographic techniques; radar altimetry; reflectometry; satellite navigation; synthetic aperture radar; Doppler processing; Doppler waveforms; GNSS reflectometry; GNSS signals; GPS L5 navigation signal; SAR altimetry; advanced PARIS altimeter; delay compensation; height precision; ocean altimetry; ocean mesoscale variability; ocean surface; radar altimetry; satellite altimeters; Altimetry; Doppler radar; Oceans; Propagation delay; Satellite navigation systems; Sea measurements; Sea surface; Signal analysis; Signal processing; Spaceborne radar; GNSS reflectometry; Ocean altimetry; PARIS concept; SAR altimetry;
Conference_Titel :
Geoscience and Remote Sensing Symposium,2009 IEEE International,IGARSS 2009
Conference_Location :
Cape Town
Print_ISBN :
978-1-4244-3394-0
Electronic_ISBN :
978-1-4244-3395-7
DOI :
10.1109/IGARSS.2009.5418034
