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Retrieval of cirrus cloud optical thickness and top altitude from geostationary remote sensing

机译：通过对地静止遥感反演卷云的光学厚度和最高海拔

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A novel approach for the detection of cirrus clouds and the retrieval of optical thickness and top altitude based on the measurements of the Spinning Enhanced Visible and Infrared Imager (SEVIRI) aboard the geostationary Meteosat Second Generation (MSG) satellite is presented. Trained with 8 000 000 co-incident measurements of the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) aboard the Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO) mission the new "cirrus optical properties derived from CALIOP and SEVIRI algorithm during day and night" (COCS) algorithm utilizes a backpropagation neural network to provide accurate measurements of cirrus optical depth t at ? = 532 nm and top altitude z every 15 min covering almost one-third of the Earth's atmosphere. The retrieved values are validated with independent measurements of CALIOP and the optical thickness derived by an airborne high spectral resolution lidar.

机译：提出了一种新的方法来检测卷云，并基于对地静止气象卫星第二代（MSG）卫星上的自旋增强型可见光和红外成像仪（SEVIRI）的测量来获取光学厚度和最高高度。在“云-气溶胶激光雷达”和“红外探路者卫星观测”（CALIPSO）上接受了800万次与正交偏振（CALIOP）一起对云-气溶胶激光雷达的偶发测量，这套新的“卷云光学特性源自白天CALIOP和SEVIRI算法和“夜间”（COCS）算法利用反向传播神经网络来精确测量c？ = 532 nm，每15分钟一次的最高海拔z几乎覆盖了地球大气的三分之一。取回的值通过对CALIOP的独立测量以及由机载高光谱分辨率激光雷达得出的光学厚度进行验证。

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Kox, Stephan; Bugliaro, Lucca; Ostler, A.;
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年度 2014
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1. Retrieval of cirrus cloud optical thickness and top altitude from geostationary remote sensing [J] . Kox S., Bugliaro L., Ostler A. Atmospheric Measurement Techniques . 2014,第10期

机译：通过对地静止遥感反演卷云的光学厚度和最高海拔
2. Retrieval of cirrus cloud optical thickness and top altitude from geostationary remote sensing [J] . Kox S., Bugliaro L., Ostler A. Atmospheric Measurement Techniques Discussions . 2014,第10期

机译：通过对地静止遥感反演卷云的光学厚度和最高海拔
3. Retrieval of cirrus cloud optical thickness and top altitude from geostationary remote sensing [J] . S.Kox, L.Bugliaro, A.Ostler Atmospheric Measurement Techniques . 2014,第10期

机译：通过对地静止遥感反演卷云的光学厚度和最高海拔
4. Remote Sensing of Cirrus Cloud Particle Size and Optical Depth Using Polarimetric Sensor Measurements [C] . S. C. Ou, K. N. Liou, Y. Takano, Atmospheric and Environmental Remote Sensing Data Processing and Utilization: an End-to-End System Perspective . 2004

机译：利用偏振传感器测量遥感卷云粒径和光学深度
5. Satellite-based remote sensing of cirrus clouds: Hyperspectral radiative transfer modeling, analysis of uncertainties in in-situ cloud extinction measurements and intercomparison of cirrus retrievals from A-train instruments [D] . Zhang, Zhibo 2008

机译：基于卫星的卷云遥感：高光谱辐射传输建模，原位云消光测量的不确定性分析以及从A列仪器获取卷云的比对
6. Cirrus cloud optical and microphysical property retrievals from eMAS during SEAC4RS using bi-spectral reflectance measurements within the 1.88 μm water vapor absorption band [O] . K. Meyer, S. Platnick, G. T. Arnold, -1

机译：在SEAC4RS期间使用1.88μm水蒸气吸收带内的双光谱反射率测量值从eMAS中检索卷云的光学和微物理性质
7. Retrieval of cirrus cloud optical thickness and top altitude from geostationary remote sensing [O] . S. Kox, L. Bugliaro, A. Ostler 2014

机译：从地球静止遥感中反演卷云光学厚度和顶高
8. Remote Sensing of Liquid Water and Ice Cloud Optical Thickness and Effective Radius in the Arctic: Application of Airborne Multispectral MAS Data [R] . King, M. D. , Platnick, S. , Yang, P. , 2003

机译：北极地区液态水和冰云光学厚度和有效半径的遥感：机载多光谱mas数据的应用

Retrieval of cirrus cloud optical thickness and top altitude from geostationary remote sensing

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