MERIS Atmospheric Water Vapor Correction Model for Wide Swath Interferometric Synthetic Aperture Radar

Li Z.; Pasquali P.; Cantone A.; Singleton A.; Funning G.; Forrest D.

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MERIS Atmospheric Water Vapor Correction Model for Wide Swath Interferometric Synthetic Aperture Radar

机译：宽幅干涉合成孔径雷达的MERIS大气水汽校正模型

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A major source of error for repeat-pass interferometric synthetic aperture radar is the phase delay in radio signal propagation through the atmosphere, particularly the part due to tropospheric water vapor. These effects become more significant for ScanSAR observations due to their wider coverage (e.g., 400 km $times$ 400 km for ENVISAT Advanced Synthetic Aperture Radar (ASAR) wide swath (WS) mode versus 100 km $times$ 100 km for ASAR image mode). In this letter, we demonstrate for the first time that a Medium Resolution Imaging Spectrometer water vapor correction model can significantly reduce atmospheric water vapor effects on ASAR WS interferograms, with the phase variation in non-deforming areas decreasing from 3.8 cm before correction to 0.4 cm after correction.

机译：重复通过干涉式合成孔径雷达的主要误差源是无线电信号在大气中传播的相位延迟，尤其是对流层水蒸气造成的部分。由于ScanSAR观测范围更广（例如，ENVISAT高级合成孔径雷达（ASAR）宽幅（WS）模式为400 km $×$ 400 km，而ASAR图像模式为100 km $×$ 100 km），这些影响变得更加重要。）。在这封信中，我们首次证明了中分辨率成像光谱仪水汽校正模型可以显着减少大气水汽对ASAR WS干涉图的影响，非变形区域的相位变化从校正前的3.8 cm减小到0.4 cm更正后。

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来源
《Geoscience and Remote Sensing Letters, IEEE》 |2012年第2期|p.257-261|共5页
作者
Li Z.; Pasquali P.; Cantone A.; Singleton A.; Funning G.; Forrest D.;
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作者单位

School of Geographical and Earth Sciences, University of Glasgow, Glasgow, U.K.;

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正文语种 eng
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关键词
Medium Resolution Imaging Spectrometer (MERIS); ScanSAR; radar interferometry; synthetic aperture radar (SAR); water vapor correction; wide swath (WS) interferometric SAR (InSAR);

机译：中分辨率成像光谱仪（MERIS）;ScanSAR;雷达干涉法;合成孔径雷达（SAR）;水蒸气校正;宽幅（WS）干涉法SAR（InSAR）;

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专利

1. Interferometric synthetic aperture radar atmospheric correction: Medium Resolution Imaging Spectrometer and Advanced Synthetic Aperture Radar Integration [J] . Li ZH, Fielding EJ, Cross P, Geophysical Research Letters . 2006,第6期

机译：干涉式合成孔径雷达大气校正：中分辨率成像光谱仪和先进的合成孔径雷达集成
2. Generic Atmospheric Correction Model for Interferometric Synthetic Aperture Radar Observations [J] . Yu Chen, Li Zhenhong, Penna Nigel T., Journal of geophysical research. Solid earth: JGR . 2018,第10期

机译：干涉合成孔径雷达观测的通用大气校正模型
3. Interferometric synthetic aperture radar atmospheric correction using a GPS-based iterative tropospheric decomposition model [J] . Chen Yu, Zhenhong Li, Nigel T. Penna Remote Sensing of Environment: An Interdisciplinary Journal . 2018,第期

机译：干涉性合成孔径雷达大气校正使用GPS的迭代对流层分解模型
4. Atmospheric water vapor mapping by combining interferometric synthetic aperture radar and GPS observations [C] . Wei Tang, Mingsheng Liao, Lu Zhang, IEEE International Geoscience and Remote Sensing Symposium . 2016

机译：结合干涉合成孔径雷达和GPS观测资料进行大气水汽测绘
5. Estimating snow water equivalent (SWE) using interferometric synthetic aperture radar (InSAR) [D] . Deeb, Elias J. 2012

机译：使用干涉式合成孔径雷达（InSAR）估算雪水当量（SWE）
6. Experimental Research on Interferometric Inverse Synthetic Aperture Radar Imaging with Multi-Channel Terahertz Radar System [O] . Ye Zhang, Qi Yang, Bin Deng, 2019

机译：多通道太赫兹雷达系统干涉合成逆孔径雷达成像实验研究
7. Interferometric synthetic aperture radar atmospheric correction: Medium Resolution Imaging Spectrometer and Advanced Synthetic Aperture Radar integration [O] . Zhenhong Li, Eric J. Fielding, Paul Cross, 2006

机译：干涉性合成孔径雷达大气校正：中分辨率成像光谱仪和高级合成孔径雷达集成
8. Swathbuckler: Real-Time Wide Swath Synthetic Aperture Radar Image Formation Using Embedded HPC [R] . Linderman, R. W., Corner, J., Tucker, S. 2006

机译：swathbuckler：使用嵌入式HpC实时宽幅合成孔径雷达图像形成

MERIS Atmospheric Water Vapor Correction Model for Wide Swath Interferometric Synthetic Aperture Radar

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