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  • OCEANOGRAPHY  (2)
  • Earth Resources and Remote Sensing  (1)
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  • 1
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    Air-sea interaction and remote sensing (1992)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: The first part of the proposed research was a joint effort between our group and the Applied Physics Laboratory (APL), University of Washington. Our own research goal is to investigate the relation between the air-sea exchange processes and the sea state over the open ocean and to compare these findings with our previous results obtained over a small body of water namely, Lake Washington. The goals of the APL researchers are to study (1) the infrared sea surface temperature (SST) signature of breaking waves and surface slicks, and (2) microwave and acoustic scattering from water surface. The task of our group in this joint effort is to conduct measurements of surface fluxes (of momentum, sensible heat, and water vapor) and atmospheric radiation (longwave and shortwave) to achieve our research goal as well as to provide crucial complementary data for the APL studies. The progress of the project is summarized.
    Keywords: OCEANOGRAPHY
    Type: NASA-CR-190913 , NAS 1.26:190913
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 2
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    Identification of atmospheric fronts over the ocean with microwave measurements of water vapor and rain (1989)
    In:  Other Sources
    Details
    Publication Date: 2019-07-12
    Description: This paper describes some basic research techniques and algorithms developed to diagnose fronts in cyclonic storms over the ocean with data from satellite-borne microwave radiometers. Methods are developed for flagging strong gradients in integrated atmospheric water vapor and the presence of rain by using data from the SSMR on board the polar orbiting Seasat and Nimbus-7 satellites. Examination of 65 frontal systems showed that the water vapor gradient flag correctly identified 86 percent of the fronts, while the precipitation flagged 91 percent. The two types of flags emphasize different portions of the cyclone and are therefore complementary. Ultimately, these techniques are intended for operational use with data from the Special Sensor Microwave Imager which was launched in June 1987 on a satellite in the Defense Meteorological Satellite Program (DMSP).
    Keywords: OCEANOGRAPHY
    Type: Weather and Forecasting (ISSN 0882-8156); 4; 449-460
    Format: text
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    NASA TECHNICAL REPORTS
  • 3
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    Water Surface Currents, Short Gravity-Capillary Waves and Radar Backscatter (1993)
    In:  CASI
    Details
    Publication Date: 2019-08-17
    Description: Despite their importance for air-sea interaction and microwave remote sensing of the ocean surface, intrinsic properties of short gravity-capillary waves are not well established. This is largely due to water surface currents and their effects on the direct measurements of wave parameters conducted at a fixed point. Frequencies of small scale waves propagating on a surface which itself is in motion, are subject to Doppler shifts. Hence, the high frequency tail of the wave spectra obtained from such temporal observations is smeared. Conversion of this smeared measured-frequency spectra to intrinsic-frequency (or wavenumber) spectra requires corrections for the Doppler shifts. Such attempts in the past have not been very successful in particular when field data were used. This becomes evident if the amplitude modulation of short waves by underlying long waves is considered. Microwave radar studies show that the amplitude of a short wave component attains its maximum value near the crests and its minimum in the troughs of the long waves. Doppler-shifted wave data yield similar results but much larger in modulation magnitude, as expected. In general, Doppler shift corrections reduce the modulation magnitude. Overcorrection may result in a negligible modulation or even in a strong modulation with the maximum amplitude in the wave troughs. The latter situation is clearly contradictory to our visual observations as well as the radar results and imply that the advection by currents is overestimated. In this study, a differential-advection approach is used in which small scale waves are advected by the currents evaluated not at the free surface, but at a depth proportional to their wavelengths. Applicability of this approach is verified by the excellent agreement in phase and magnitude of short-wave modulation between results based on radar and on wave-gauge measurements conducted on a lake.
    Keywords: Earth Resources and Remote Sensing
    Type: NASA-CR-200894 , NAS 1.26:200894 , Air-Sea Interface Symposium, Radio and Acoustic Sensing, Turbulence and Wave Dynamics; Jun 24, 1993 - Jun 30, 1993; Marseille; France
    Format: application/pdf
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    NASA TECHNICAL REPORTS
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