Joint Inversion Algorithm of Sea Surface Temperature From Microwave and Infrared Brightness Temperature
The demand for high-precision sea surface temperature (SST) has been growing rapidly in recent years because SST is one of the key parameters to describe the thermal state of the sea surface. This article analyzes the differences between microwave remote sensing and infrared remote sensing for SST,...
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| Vydané v: | IEEE transactions on geoscience and remote sensing Ročník 60; s. 1 - 13 |
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| Hlavní autori: | , , , , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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New York
IEEE
2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| ISSN: | 0196-2892, 1558-0644 |
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| Abstract | The demand for high-precision sea surface temperature (SST) has been growing rapidly in recent years because SST is one of the key parameters to describe the thermal state of the sea surface. This article analyzes the differences between microwave remote sensing and infrared remote sensing for SST, including the spatial resolution difference and the penetration depth difference. In order to improve the accuracy of retrieved SST, this article proposes a joint inversion algorithm for SST from combining microwave brightness temperature (BT) and infrared BT, which has also taken the influence of wind speed and atmosphere into consideration. Experiments confirm that SST data obtained from the joint inversion algorithm are more accurate than those obtained from the existing inversion algorithms. |
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| AbstractList | The demand for high-precision sea surface temperature (SST) has been growing rapidly in recent years because SST is one of the key parameters to describe the thermal state of the sea surface. This article analyzes the differences between microwave remote sensing and infrared remote sensing for SST, including the spatial resolution difference and the penetration depth difference. In order to improve the accuracy of retrieved SST, this article proposes a joint inversion algorithm for SST from combining microwave brightness temperature (BT) and infrared BT, which has also taken the influence of wind speed and atmosphere into consideration. Experiments confirm that SST data obtained from the joint inversion algorithm are more accurate than those obtained from the existing inversion algorithms. |
| Author | Chen, Zhiwei Xiao, Chengwang Jin, Rong Huang, Yuhang Zhao, Guanghui Li, Qingxia Lei, Zhenyu |
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| Snippet | The demand for high-precision sea surface temperature (SST) has been growing rapidly in recent years because SST is one of the key parameters to describe the... |
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| SubjectTerms | Algorithms Brightness Brightness temperature Electromagnetic heating Infrared analysis Infrared remote sensing joint inversion algorithm Microwave measurement Microwave radiometry microwave remote sensing MODIS Ocean temperature Penetration depth Remote sensing Sea surface Sea surface temperature sea surface temperature (SST) Spatial discrimination Spatial resolution Surface radiation temperature Surface temperature Temperature Temperature measurement Wind effects Wind speed |
| Title | Joint Inversion Algorithm of Sea Surface Temperature From Microwave and Infrared Brightness Temperature |
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