Add to ORKGThis Grant supported the development of an incoherent lidar system to measure winds and aerosols in the lower atmosphere. During this period the following activities occurred: (1) an active feedback system was developed to improve the laser frequency stability; (2) a detailed forward model of the instrument was developed to take into account many subtle effects, such as detector non-linearity; (3) a non-linear least squares inversion method was developed to recover the Doppler shift and aerosol backscatter without requiring assumptions about the molecular component of the signal; (4) a study was done of the effects of systematic errors due to multiple etalon misalignment. It was discovered that even for small offsets and high aerosol loadin...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
Experimental and theoretical studies were performed of atmospheric aerosol backscatter and atmospher...
NASA Langley Research Center has a long history of developing 2-micron laser transmitter for wind se...
An incoherent Doppler lidar system has been developed at the Space Physics Research Laboratory at th...
A high resolution lidar system was implemented to measure winds in the lower atmosphere. The wind sp...
This final report summarizes the investigative results from the 3 complete years of funding and corr...
Wind fields were measured with the ground-based NASA/MSFC lidar are compared with the in situ NASA R...
A pulsed CO2 Doppler Lidar, developed for airborne measurements of atmospheric wind fields, is descr...
During the summer of 1984 the Marshall Space Flight Center's Airborne Doppler Lidar System (ADLS) ma...
Over 20 years of investigation by NASA and NOAA scientists and Doppler lidar technologists into a gl...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
A detailed account of progress achieved under this grant funding is contained in five journal papers...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
The accurate measurement of wind profiles in the planetary boundary layer (PBL) is important not onl...
Four tasks related to the signal processing aspects of the severe-storms Doppler lidar program are d...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
Experimental and theoretical studies were performed of atmospheric aerosol backscatter and atmospher...
NASA Langley Research Center has a long history of developing 2-micron laser transmitter for wind se...
An incoherent Doppler lidar system has been developed at the Space Physics Research Laboratory at th...
A high resolution lidar system was implemented to measure winds in the lower atmosphere. The wind sp...
This final report summarizes the investigative results from the 3 complete years of funding and corr...
Wind fields were measured with the ground-based NASA/MSFC lidar are compared with the in situ NASA R...
A pulsed CO2 Doppler Lidar, developed for airborne measurements of atmospheric wind fields, is descr...
During the summer of 1984 the Marshall Space Flight Center's Airborne Doppler Lidar System (ADLS) ma...
Over 20 years of investigation by NASA and NOAA scientists and Doppler lidar technologists into a gl...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
A detailed account of progress achieved under this grant funding is contained in five journal papers...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
The accurate measurement of wind profiles in the planetary boundary layer (PBL) is important not onl...
Four tasks related to the signal processing aspects of the severe-storms Doppler lidar program are d...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
Experimental and theoretical studies were performed of atmospheric aerosol backscatter and atmospher...
NASA Langley Research Center has a long history of developing 2-micron laser transmitter for wind se...