Ocean surface wind, wind stress, and drag coefficient remote sensing by SAR

Jingsong Yang; Weigen Huang; Qingmei Xiao; Changbao Zhou; Paris W. Vachon

doi:10.1117/12.619760

12 May 2005 Ocean surface wind, wind stress, and drag coefficient remote sensing by SAR

Jingsong Yang, Weigen Huang, Qingmei Xiao, Changbao Zhou, Paris W. Vachon

Proceedings Volume 5832, Optical Technologies for Atmospheric, Ocean, and Environmental Studies; (2005) https://doi.org/10.1117/12.619760
Event: Optical Technologies for Atmospheric, Ocean, and Environmental Studies, 2004, Beijing, China

Abstract

Wind wind stress and drag coefficient of ocean surface are very important parameters in the studies of ocean and atmospheric dynamics especially in that of air-sea interaction. It is shown in this paper that wind wind stress and drag coefficient of ocean surface can be measured remotely with high resolution by synthetic aperture radar (SAR). A model has been developed based on SAR imaging mechanisms of ocean surface capillary waves and short gravity waves. A Radarsat SAR image of coastal ocean of south of Hainan Island has been used to calculate wind stress and drag coefficient. Good results have been achieved.

Citation Download Citation

Jingsong Yang, Weigen Huang, Qingmei Xiao, Changbao Zhou, and Paris W. Vachon "Ocean surface wind, wind stress, and drag coefficient remote sensing by SAR", Proc. SPIE 5832, Optical Technologies for Atmospheric, Ocean, and Environmental Studies, (12 May 2005); https://doi.org/10.1117/12.619760

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