Title :
Cramer-Rao bound for wind estimation from scatterometer measurements
Author :
Oliphant, Travis E. ; Long, David G.
Author_Institution :
Brigham Young Univ., Provo, UT, USA
Abstract :
A wind scatterometer makes measurements of the normalized radar backscatter coefficient, σ0, of the surface. To retrieve the wind, a Geophysical Model Function (GMF), which relates σ0 to the near-surface wind, is used. The wind vector is estimated using maximum likelihood techniques from the σ0 measurements. The probability density of the measured σ0 is assumed to be Gaussian with a variance that depends on the true σ0 and therefore the wind through the GMF. The measurements from different azimuth angles are assumed independent in estimating the wind. Given this model for wind estimation, the Cramer-Rao bound is derived for wind estimation, and its implications for wind retrieval are discussed. As part of this discussion, the role of geophysical modeling error is considered and shown to play a significant role in the performance of near surface wind estimates
Keywords :
atmospheric techniques; remote sensing by radar; wind; Cramer-Rao bound; Geophysical Model Function; marine atmosphere; maximum likelihood; measurement technique; near-surface wind; normalized radar backscatter coefficient; probability density; radar remote sensing; scatterometer; scatterometry; wind direction; wind vector; Azimuth; Directive antennas; Geophysical measurements; Maximum likelihood estimation; Ocean temperature; Radar measurements; Radar scattering; Random variables; Sea measurements; Sea surface;
Conference_Titel :
Geoscience and Remote Sensing Symposium, 1996. IGARSS '96. 'Remote Sensing for a Sustainable Future.', International
Conference_Location :
Lincoln, NE
Print_ISBN :
0-7803-3068-4
DOI :
10.1109/IGARSS.1996.516781
