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Computing coastal ocean surface currents from infrared and ocean color satellite imagery: Methodology, application, and analysis.

机译：从红外和海洋彩色卫星图像计算沿海海表洋流：方法，应用和分析。

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The MCC method is used to calculate ocean surface currents from yearlong collections of 2003 California coast and 2005 Gulf of Mexico thermal IR and ocean color satellite imagery. Velocities computed separately from these two data sets have correlations ranging from 0.73 to 0.81 and RMS magnitude and directional differences around 8.7 cm/s and 45°. When merged, ocean color velocities provide 21% new data along California, and 75% of all data in the Gulf of Mexico. Spring and summer isothermal Gulf of Mexico waters inhibit thermal IR MCC retrievals. Altimetry and MCC velocities have correlations ranging from 0.54 to 0.81 and RMS magnitude and directional differences around 13 cm/s and ~64°. Complementary data coverage lends motivation for a future merging of these two velocity products. The possibility of an ageostrophic MCC velocity component is examined. The MCC method is applied in near-realtime to generate currents on a daily basis.

机译：MCC方法用于从2003年加利福尼亚海岸和2005年墨西哥湾热红外和海洋彩色卫星图像的全年采集中计算海洋表面洋流。从这两个数据集分别计算出的速度的相关性介于0.73至0.81之间，并且RMS大小和8.7 cm / s和45°左右的方向差异。合并后，海洋颜色速度在加利福尼亚州提供了21％的新数据，在墨西哥湾提供了全部数据的75％。墨西哥湾春季和夏季等温水域抑制了热红外MCC取回。高程和MCC速度之间的相关性介于0.54至0.81之间，RMS值和方向差在13 cm / s和〜64°左右。互补的数据覆盖为将来将这两种速度产品合并提供了动力。检查了非营养营养MCC速度成分的可能性。 MCC方法几乎实时应用于每天产生电流。

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作者
Crocker, Roger Ian.;
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作者单位

University of Colorado at Boulder.;

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授予单位 University of Colorado at Boulder.;
学科 Physical Oceanography.; Engineering Aerospace.; Remote Sensing.
学位 M.S.
年度 2007
页码 77 p.
总页数 77
原文格式 PDF
正文语种 eng
中图分类海洋物理学;航空、航天技术的研究与探索;遥感技术;
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专利

1. Computing Coastal Ocean Surface Currents From Infrared and Ocean Color Satellite Imagery [J] . Crocker R. I., Matthews D. K., Emery W. J., IEEE Transactions on Geoscience and Remote Sensing . 2007,第期

机译：根据红外和海洋彩色卫星图像计算沿海海面流
2. Computing Ocean Surface Currents From GOCI Ocean Color Satellite Imagery [J] . Jianfei Liu, William J. Emery, Xiongbin Wu, IEEE Transactions on Geoscience and Remote Sensing. . 2017,第12期

机译：通过GOCI海洋彩色卫星影像计算海面洋流
3. Computing Ocean Surface Currents Over the Coastal California Current System Using 30-Min-Lag Sequential SAR Images [J] . Qazi W.A., Emery W.J., Fox-Kemper B. Geoscience and Remote Sensing, IEEE Transactions on . 2014,第12期

机译：使用30分钟滞后序列SAR图像计算沿海加州洋流系统上的海面洋流
4. A coupled oceanic and atmospheric spectral optimization algorithm for application to ocean color satellites -sensitivity to near infrared error [C] . Christopher P. Kuchinke, Howard R. Gordon, Kenneth J. Voss Active and Passive Remote Sensing of the Oceans . 2004

机译：海洋和大气光谱耦合优化算法应用于海洋彩色卫星-对近红外误差的敏感性
5. Computing Ocean Surface Currents from Satellite Synthetic Aperture Radar Imagery [D] . Qazi, Waqas A. 2013

机译：从卫星合成孔径雷达图像计算海面流
6. Out-of-Band Response for the Coastal Zone Imager (CZI) Onboard China’s Ocean Color Satellite HY-1C: Effect on the Observation Just above the Sea Surface [O] . Tingwei Cui, Jing Ding, Fujuan Jia, 2018

机译：中国海洋彩色卫星HY-1C上的海岸带成像仪（CZI）的带外响应：对正好在海平面以上的观测的影响
7. Computing Coastal Ocean Surface Currents from MODIS and VIIRS Satellite Imagery [O] . Jianfei Liu, William J. Emery, Xiongbin Wu, 2017

机译：从mODIs和VIIRs卫星图像计算沿海海面电流
8. Ocean Surface Currents Computed From Sequential Infrared Satellite Images [R] . Emery, B. 1991

机译：从连续红外卫星图像计算的海面电流

Computing coastal ocean surface currents from infrared and ocean color satellite imagery: Methodology, application, and analysis.

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