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Backscatter Error Bounds for the Elastic Lidar Two-Component Inversion Algorithm

机译：弹性激光雷达双分量反演算法的后向散射误差界

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摘要

Total backscatter-coefficient inversion error bounds for the two-component lidar inversion algorithm (so-called Fernald's or Klett-Fernald-Sasano's method) are derived in analytical form in response to the following three error sources: 1) the measurement noise; 2) the user uncertainty in the backscatter-coefficient calibration; and 3) the aerosol extinction-to-backscatter ratio. The following two different types of error bounds are presented: 1) approximate error bounds using first-order error propagation and 2) exact error bounds using a total-increment method. Both error bounds are formulated in explicit analytical form, which is of advantage for practical physical sensitivity analysis and computational implementation. A Monte Carlo approach is used to validate the error bounds at 355-, 532-, and 1064-nm wavelengths.

机译：响应以下三个误差源，以解析形式导出了两分量激光雷达反演算法（所谓的Fernald或Klett-Fernald-Sasano方法）的总反向散射系数反演误差范围。 2）用户在后向散射系数校准中的不确定性； 3）气溶胶消光与后向散射比。呈现以下两种不同类型的误差范围：1）使用一阶误差传播的近似误差范围，以及2）使用总增量方法的精确误差范围。两种误差范围均以明确的分析形式制定，这对于实际的物理敏感性分析和计算实现是有利的。蒙特卡洛方法用于验证355、532和1064 nm波长的误差范围。

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Rocadenbosch Burillo, Francesc; Frasier, Stephen; Kumar, Dhiraj; Lange, Diego; Gregorio López, Eduard; Sicard, Michaël;
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年度 2012
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正文语种 eng
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1. Backscatter Error Bounds for the Elastic Lidar Two-Component Inversion Algorithm [J] . Rocadenbosch F., Frasier S., Kumar D., Geoscience and Remote Sensing, IEEE Transactions on . 2012,第11期

机译：弹性激光雷达二元反演算法的反向散射误差界
2. Quasi-analytical determination of noise-induced error limits in lidar retrieval of aerosol backscatter coefficient by the elastic, two-component algorithm [J] . Michael Sicard, Adolfo Comeron, Francisco Rocadenbosch, Applied optics . 2009,第2期

机译：弹性两成分算法在激光雷达探测气溶胶反向散射系数中噪声引起的误差极限的准分析确定
3. Practical analytical backscatter error bars for elastic one-component lidar inversion algorithm [J] . Francesc Rocadenbosch, M. Nadzri Md. Reba, Michael Sicard, Applied optics . 2010,第17期

机译：弹性单分量激光雷达反演算法的实用解析反向散射误差线
4. Inversion of atmospheric optical parameters from elastic-backscatter lidar returns using a Kalman filter [C] . Francesc Rocadenbosch, Univ. Politecnica de Catalunya, Barcelona, Atmospheric Propagation, Adaptive Systems, and Lidar Techniques for Remote Sensing II . 1998

机译：使用卡尔曼滤波器从弹性后向散射激光雷达返回反演大气光学参数
5. Observations of tropical cirrus by elastic backscatter lidars and the development of a cloud and aerosol retrieval algorithm for Raman lidars. [D] . Thorsen, Tyler J. 2014

机译：弹性后向散射激光雷达对热带卷云的观测以及拉曼激光雷达的云和气溶胶检索算法的发展。
6. Comparisons of aerosol backscatter using satellite and ground lidars: implications for calibrating and validating spaceborne lidar [O] . Gary Gimmestad, Haviland Forrister, Tomas Grigas, -1

机译：使用卫星和地面激光雷达进行气溶胶反向散射的比较：对校准和验证星载激光雷达的意义
7. Backscatter error bounds for the elastic lidar two-component inversion algorithm [O] . Rocadenbosch Burillo, Francisco, Frasier, S., Kumar, Dhiraj, 10000

机译：弹性激光雷达双分量反演算法的反向散射误差界限
8. Test of Lidar Inversion Algorithm Sensitivity to Atmospheric Backscatter and Extinction Parameters. Revision A [R] . Paulson, M. R. 1985

机译：激光雷达反演算法对大气背向散射和消光参数灵敏度的测试。修订版a.

Backscatter Error Bounds for the Elastic Lidar Two-Component Inversion Algorithm

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