A statistical comparison of wind speed, wave height, and wave period derived from satellite altimeters and ocean buoys in the Gulf of Mexico region

Hwang, Paul A.; Teague, William J.; Jacobs, Gregg A.; Wang, David W.

doi:10.1029/98jc00197

Cited by 157 publications

(130 citation statements)

References 29 publications

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“…The decay is probably caused by the surface tilting effect that modifies the local incident angle and hence reduces the backscattering intensity. 13 Then, Eq. (6) becomes the following:…”

Section: Determination Approachmentioning

confidence: 99%

Study of sea-surface slope distribution and its effect on radar backscatter based on Global Precipitation Measurement Ku-band precipitation radar measurements

Yan

Zhang

Fan

et al. 2018

J. Appl. Rem. Sens.

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"Study of sea-surface slope distribution and its effect on radar backscatter based on Global Precipitation Measurement Kuband precipitation radar measurements," J. Appl. Remote Sens. 12(1), 016006 (2018), doi: 10.1117/1.JRS.12.016006. Abstract. The collocated normalized radar backscattering cross-section measurements from the Global Precipitation Measurement (GPM) Ku-band precipitation radar (KuPR) and the winds from the moored buoys are used to study the effect of different sea-surface slope probability density functions (PDFs), including the Gaussian PDF, the Gram-Charlier PDF, and the Liu PDF, on the geometrical optics (GO) model predictions of the radar backscatter at low incidence angles (0 deg to 18 deg) at different sea states. First, the peakedness coefficient in the Liu distribution is determined using the collocations at the normal incidence angle, and the results indicate that the peakedness coefficient is a nonlinear function of the wind speed. Then, the performance of the modified Liu distribution, i.e., Liu distribution using the obtained peakedness coefficient estimate; the Gaussian distribution; and the Gram-Charlier distribution is analyzed. The results show that the GO model predictions with the modified Liu distribution agree best with the KuPR measurements, followed by the predictions with the Gaussian distribution, while the predictions with the Gram-Charlier distribution have larger differences as the total or the slick filtered, not the radar filtered, probability density is included in the distribution. The bestperforming distribution changes with incidence angle and changes with wind speed. © The Authors. Published by SPIE under a Creative Commons Attribution 3.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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“…The decay is probably caused by the surface tilting effect that modifies the local incident angle and hence reduces the backscattering intensity. 13 Then, Eq. (6) becomes the following:…”

Section: Determination Approachmentioning

confidence: 99%

Study of sea-surface slope distribution and its effect on radar backscatter based on Global Precipitation Measurement Ku-band precipitation radar measurements

Yan

Zhang

Fan

et al. 2018

J. Appl. Rem. Sens.

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“…Wave characteristics can be measured in situ or via satelliteborne remote-sensors (Stewart, 1980;Hwang et al, 1998). The instruments used in the first approach include pressure gauges, accelerometers and bottom mounted acoustic Doppler current profilers (ADCP).…”

Section: Datamentioning

confidence: 99%

Super-ensemble techniques applied to wave forecast: performance and limitations

et al. 2010

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Abstract. Nowadays, several operational ocean wave forecasts are available for a same region. These predictions may considerably differ, and to choose the best one is generally a difficult task. The super-ensemble approach, which consists in merging different forecasts and past observations into a single multi-model prediction system, is evaluated in this study. During the DART06 campaigns organized by the NATO Undersea Research Centre, four wave forecasting systems were simultaneously run in the Adriatic Sea, and significant wave height was measured at six stations as well as along the tracks of two remote sensors. This effort provided the necessary data set to compare the skills of various multi-model combination techniques. Our results indicate that a super-ensemble based on the Kalman Filter improves the forecast skills: The bias during both the hindcast and forecast periods is reduced, and the correlation coefficient is similar to that of the best individual model. The spatial extrapolation of local results is not straightforward and requires further investigation to be properly implemented.

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“…In other words, the same surface (for a given wind speed) should appear smoother to the radar than to the optical instrument. Hwang et al (1998) suggest that in the open ocean, ambient roughness is almost always present. Such roughness is not related to the local wind event and needs to be taken into consideration in interpreting the altimeter measurements.…”

Section: Ambient Roughness: Key To Retrieving Roughness From Altimetementioning

confidence: 99%

“…where S is an ambient roughness component and s w is the contribution from local-wind-generation (Hwang et al 1998 and Section 3). Equation (6) becomes…”

Section: Ambient Roughness: Key To Retrieving Roughness From Altimetementioning

confidence: 99%

Anatomy of the Ocean Surface Roughness

Hwang¹,

Wang²,

Teague³

et al. 2002

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A statistical comparison of wind speed, wave height, and wave period derived from satellite altimeters and ocean buoys in the Gulf of Mexico region

Cited by 157 publications

References 29 publications

Study of sea-surface slope distribution and its effect on radar backscatter based on Global Precipitation Measurement Ku-band precipitation radar measurements

Study of sea-surface slope distribution and its effect on radar backscatter based on Global Precipitation Measurement Ku-band precipitation radar measurements

Super-ensemble techniques applied to wave forecast: performance and limitations

Anatomy of the Ocean Surface Roughness

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