1991
DOI: 10.1029/90jc02319
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The effect of the degree of wave development on the sea state bias in radar altimetry measurement

Abstract: The effect of the degree of wave development on the sea state bias (SSB) in Geosat altimeter height measurement is evaluated. Theoretical considerations suggest that the altimetric SSB is generally not a linear function of significant wave height but depends also on other factors of wave development. Of particular interest is its dependence on wave age, defined as the ratio of the phase speed of the dominant ocean waves to ocean wind speed. We estimate wave age rather crudely, on the basis of the significant w… Show more

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Cited by 69 publications
(43 citation statements)
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“…Even though the horizontal scales of surface waves are much smaller than the 10 km footprint of present satellite altimeters, they can produce a sea state bias (SSB) in the altimeter measurements and may impact the retrieval of the sea surface height (SSH) (Fu & Glazman, ; Peral et al, ). The SSB is generally decomposed into instrumental error and electromagnetic (EM) bias, both associated with the fact that the distribution of wave heights in the ocean is not exactly Gaussian (Fu & Glazman, ; Melville et al, ). While the instrumental error is attributed to the design of the altimeter itself, the EM bias is intrinsic to the way that the radar pulse interacts with the sea surface.…”
Section: Introductionmentioning
confidence: 99%
“…Even though the horizontal scales of surface waves are much smaller than the 10 km footprint of present satellite altimeters, they can produce a sea state bias (SSB) in the altimeter measurements and may impact the retrieval of the sea surface height (SSH) (Fu & Glazman, ; Peral et al, ). The SSB is generally decomposed into instrumental error and electromagnetic (EM) bias, both associated with the fact that the distribution of wave heights in the ocean is not exactly Gaussian (Fu & Glazman, ; Melville et al, ). While the instrumental error is attributed to the design of the altimeter itself, the EM bias is intrinsic to the way that the radar pulse interacts with the sea surface.…”
Section: Introductionmentioning
confidence: 99%
“…A number of theoretical and empirical studies of this problem have been made over the last few decades. Recent efforts include applications of nonlinear hydrodynamic theory to EM bias modeling [ Elfouhaily et al , 2000; Rodriguez et al , 1992], investigation of other sea state parameters such as wave age [ Fu and Glazman , 1991], and numerical approaches [ Glazman et al , 1996].…”
Section: Introductionmentioning
confidence: 99%
“…The altimeter measurements are closely related to short scales (down to centimetric) while the buoy measurements are sensitive to gravity waves longer than 10 m. The additional use of the T/P C-band measurements less sensitive to the shorter scales, combined with the Ku-band ones in the neural model to retrieve the mean wave period, will provide significant reduction of the mismatch between the buoy and altimeter measurements. Altimeter measurements also exhibit a variability associated with the sea state maturity (Glazman and Pilorz 1990;Fu and Glazman 1991), leading to a bias in the retrieved altimeter mean wave period if not accounted for. Information on sea state maturity requires additional knowledge of the surface wind speed.…”
Section: Generalitymentioning
confidence: 97%