Height precision prediction of the PARIS in orbit demonstrator based on Cramer-Rao bound analysis

Height precision prediction of the PARIS in orbit demonstrator based on Cramer-Rao bound analysis

The PARIS (Passive Reflectometry and Interferometry System) in orbit demonstrator is a novel altimeter concept recently proposed by the European Space Agency. PARIS has the primary objective of observing ocean mesoscale features using Global Navigation Satellite Systems (GNSS) reflected signals, wit...

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Hauptverfasser: D'Addio, S., Martin, F., Hyuk Park, Camps, A., Martin-Neira, Manuel
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Altimetry
Covariance matrix
Cramer Rao Bound
Cramer-Rao bounds
Global Navigation Satellite Systems
GNSS-R
ocean altimetry
Oceans
Passive Reflectometry and interferometry System (PARIS)
Signal to noise ratio
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creator D'Addio, S.
Martin, F.
Hyuk Park
Camps, A.
Martin-Neira, Manuel
description The PARIS (Passive Reflectometry and Interferometry System) in orbit demonstrator is a novel altimeter concept recently proposed by the European Space Agency. PARIS has the primary objective of observing ocean mesoscale features using Global Navigation Satellite Systems (GNSS) reflected signals, with an expected sea surface height estimation accuracy of about 20 cm, and with a very high simultaneous spatial-temporal sampling of the ocean. To date, the altimetry performance has been preliminary predicted by means of simple analytical methods, which rely on a number of assumptions on the estimators, not predicting the optimum performance. This paper will present a prediction of the height precision based on the statistical analysis of the well-known Cramer-Rao estimation bound.
doi_str_mv 10.1109/IGARSS.2012.6352036
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subjects Altimetry
Covariance matrix
Cramer Rao Bound
Cramer-Rao bounds
Global Navigation Satellite Systems
GNSS-R
ocean altimetry
Oceans
Passive Reflectometry and interferometry System (PARIS)
Signal to noise ratio
title Height precision prediction of the PARIS in orbit demonstrator based on Cramer-Rao bound analysis
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