The slope method has customarily been used and is still used for inversion of atmospheric optical parameters, extinction, and backscatter in homogeneous atmospheres from lidar returns. Our aim is to study the underlying statistics of the old slope method and ultimately to compare its inversion performance with that of the present-day nonlinear least-squares solution (the so-called exponential-curve fitting). The contents are twofold: First, an analytical study is conducted to characterize the bias and the mean-square-estimation error of the regression operator, which permits estimation of the optical parameters from the logarithm of the range-compensated lidar return. Second, universal plots for most short- and far-range tropospheric backsc...
A method is presented for solving for vertical profiles of atmospheric particulate extinction and ba...
Optimal estimation retrieval is a nonlinear regression scheme to determine the conditions statistica...
165-179The relationship between backscattering and extinction coefficients in a turbid atmosphere is...
The slope method has customarily been used and is still used for inversion of atmospheric optical pa...
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...
A first inversion of the backscatter profile and extinction-to-backscatter ratio from pulsed elastic...
Here we depart from the inhomogeneous solution of a lidar equation using the backward inversion algo...
This works departs from previously published results of the authors and focus on joint estimation an...
When converting the lidar equation relative to the extinction coefficient and, correspondingly, the ...
An improved measurement methodology and a data-processing technique for multiangle data obtained wit...
Joint estimation of extinction and backscatter simulated profiles from elastic-backscatter lidar ret...
Joint estimation of extinction and backscatter simulated profiles from elastic-backscatter lidar ret...
Lidars are ideally placed to investigate the effects of aerosol and cloud on the climate system due ...
Linear regression techniques are widely used in atmospheric science, but they are often improperly ...
A method is presented for solving for vertical profiles of atmospheric particulate extinction and ba...
Optimal estimation retrieval is a nonlinear regression scheme to determine the conditions statistica...
165-179The relationship between backscattering and extinction coefficients in a turbid atmosphere is...
The slope method has customarily been used and is still used for inversion of atmospheric optical pa...
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...
A first inversion of the backscatter profile and extinction-to-backscatter ratio from pulsed elastic...
Here we depart from the inhomogeneous solution of a lidar equation using the backward inversion algo...
This works departs from previously published results of the authors and focus on joint estimation an...
When converting the lidar equation relative to the extinction coefficient and, correspondingly, the ...
An improved measurement methodology and a data-processing technique for multiangle data obtained wit...
Joint estimation of extinction and backscatter simulated profiles from elastic-backscatter lidar ret...
Joint estimation of extinction and backscatter simulated profiles from elastic-backscatter lidar ret...
Lidars are ideally placed to investigate the effects of aerosol and cloud on the climate system due ...
Linear regression techniques are widely used in atmospheric science, but they are often improperly ...
A method is presented for solving for vertical profiles of atmospheric particulate extinction and ba...
Optimal estimation retrieval is a nonlinear regression scheme to determine the conditions statistica...
165-179The relationship between backscattering and extinction coefficients in a turbid atmosphere is...