The inversion of lidar returns from homogeneous atmospheres has been done customarily through the well-known slope method. The logarithmic operation over the range-corrected and system-normalized received signal used in this method introduces a bias in the statistics of the noise-affected processed signal that can severely distort the estimates of the atmospheric attenuation and backscatter coefficients under measurement. It is shown that a fitting of the theoretically expected exponential signal to the range-corrected received one, using as the initial guess the results provided by the slope method and a least-squares iterative procedure, can yield enhanced accuracy under low signal-to-noise ratios and especially in moderate-to-high extinc...
165-179The relationship between backscattering and extinction coefficients in a turbid atmosphere is...
The elastic, two-component algorithm is the most common inversion method for retrieving the aerosol ...
At the basis of the Raman lidar extinction inversion algorithm is the derivative of the logarithm 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...
The slope method has customarily been used and is still used for inversion of atmospheric optical pa...
Here we depart from the inhomogeneous solution of a lidar equation using the backward inversion algo...
When converting the lidar equation relative to the extinction coefficient and, correspondingly, the ...
A first inversion of the backscatter profile and extinction-to-backscatter ratio from pulsed elastic...
This works departs from previously published results of the authors and focus on joint estimation an...
Lidar returns from cloud decks and from the Earth's surface are useful for calibrating single scatte...
An improved measurement methodology and a data-processing technique for multiangle data obtained wit...
We report the features and the performances of the algorithms, developed at the Lidar Station of L'A...
In this study a systematic approach is used to find the most suitable algorithm for the inversion of...
Total backscatter-coefficient inversion error bounds for the two-component lidar inversion algorithm...
165-179The relationship between backscattering and extinction coefficients in a turbid atmosphere is...
The elastic, two-component algorithm is the most common inversion method for retrieving the aerosol ...
At the basis of the Raman lidar extinction inversion algorithm is the derivative of the logarithm 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...
The slope method has customarily been used and is still used for inversion of atmospheric optical pa...
Here we depart from the inhomogeneous solution of a lidar equation using the backward inversion algo...
When converting the lidar equation relative to the extinction coefficient and, correspondingly, the ...
A first inversion of the backscatter profile and extinction-to-backscatter ratio from pulsed elastic...
This works departs from previously published results of the authors and focus on joint estimation an...
Lidar returns from cloud decks and from the Earth's surface are useful for calibrating single scatte...
An improved measurement methodology and a data-processing technique for multiangle data obtained wit...
We report the features and the performances of the algorithms, developed at the Lidar Station of L'A...
In this study a systematic approach is used to find the most suitable algorithm for the inversion of...
Total backscatter-coefficient inversion error bounds for the two-component lidar inversion algorithm...
165-179The relationship between backscattering and extinction coefficients in a turbid atmosphere is...
The elastic, two-component algorithm is the most common inversion method for retrieving the aerosol ...
At the basis of the Raman lidar extinction inversion algorithm is the derivative of the logarithm of...