Add to ORKGTotal 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 appr...
Abstract. The proponent successfully developed the Two-Wavelength LIDAR Data Analysis System using ...
An intercomparison of aerosol backscatter lidar algorithms was performed in 2001 within the framewor...
At the basis of the Raman lidar extinction inversion algorithm is the derivative of the logarithm of...
Total backscatter-coefficient inversion error bounds for the two-component lidar inversion algorithm...
Total backscatter-coefficient inversion error bounds for the two-component lidar inversion algorithm...
The elastic, two-component algorithm is the most common inversion method for retrieving the aerosol ...
Here we depart from the inhomogeneous solution of a lidar equation using the backward inversion algo...
In this study a systematic approach is used to find the most suitable algorithm for the inversion of...
The inversion of lidar returns from homogeneous atmospheres has been done customarily through the we...
Up to now, the extraction of extinction and backscatter coefficients from a lidar signa] or lidar in...
Potter [Appl. Opt. 26, 1250 (1987)] has presented a method to determine profiles of the atmospheric ...
A modified two-wavelength lidar inversion algorithm is proposed to aid in the retrieval of aerosol e...
International audienceThe solution of the lidar equation is an ill-posed problem that requires nonli...
A first inversion of the backscatter profile and extinction-to-backscatter ratio from pulsed elastic...
Abstract. The proponent successfully developed the Two-Wavelength LIDAR Data Analysis System using ...
An intercomparison of aerosol backscatter lidar algorithms was performed in 2001 within the framewor...
At the basis of the Raman lidar extinction inversion algorithm is the derivative of the logarithm of...
Total backscatter-coefficient inversion error bounds for the two-component lidar inversion algorithm...
Total backscatter-coefficient inversion error bounds for the two-component lidar inversion algorithm...
The elastic, two-component algorithm is the most common inversion method for retrieving the aerosol ...
Here we depart from the inhomogeneous solution of a lidar equation using the backward inversion algo...
In this study a systematic approach is used to find the most suitable algorithm for the inversion of...
The inversion of lidar returns from homogeneous atmospheres has been done customarily through the we...
Up to now, the extraction of extinction and backscatter coefficients from a lidar signa] or lidar in...
Potter [Appl. Opt. 26, 1250 (1987)] has presented a method to determine profiles of the atmospheric ...
A modified two-wavelength lidar inversion algorithm is proposed to aid in the retrieval of aerosol e...
International audienceThe solution of the lidar equation is an ill-posed problem that requires nonli...
A first inversion of the backscatter profile and extinction-to-backscatter ratio from pulsed elastic...
Abstract. The proponent successfully developed the Two-Wavelength LIDAR Data Analysis System using ...
An intercomparison of aerosol backscatter lidar algorithms was performed in 2001 within the framewor...
At the basis of the Raman lidar extinction inversion algorithm is the derivative of the logarithm of...