Add to ORKGRecent detailed evaluation of the use of an optical cross-beam system to measure convective wind velocities are reported. Low level measurements, where the optical system is looking at either the earth surface or cloud banks, are demonstrated. Further information on the nature and scale of the light fluctuations is reviewed
A pulsed CO2 Doppler Lidar, developed for airborne measurements of atmospheric wind fields, is descr...
A system for remotely measuring vertical and horizontal winds present in discrete volumes of air at ...
Scintillometry provides the opportunity to obtain spatially-averaged surface heat fluxes at a scale ...
CER70-71BCH13.CET69-70BCH26.Includes bibliographical references.The usefulness of the cross beam tec...
A new method is described for the remote measurement of winds and atmospheric turbulence by the cros...
The optical effects arising from refractive-index variations in the clear air are qualitatively desc...
Recently, the number of optical systems that operate along near horizontal paths within a few meters...
The performance of a cross-correlation algorithm for remote wind velocity estimation by atmospheric ...
For optical propagation through the turbulent atmosphere, the angle of arrival (AOA) cross-correlati...
Atmospheric eddies, which have slightly different properties than their environment and are believed...
The spectral properties of the intensity of a light beam, propagated in a turbulent atmosphere in th...
A series of articles is presented on a passive, optical, cross beam system. The passive, optical, cr...
Speckle turbulence interaction has the potential for allowing single ended remote sensing of the pat...
This research project compares the performance of a Monolithic Optical Receiver and a Multi Aperture...
Ground-based astronomy suffers from waveform distortion produced by the turbulent atmosphere, which ...
A pulsed CO2 Doppler Lidar, developed for airborne measurements of atmospheric wind fields, is descr...
A system for remotely measuring vertical and horizontal winds present in discrete volumes of air at ...
Scintillometry provides the opportunity to obtain spatially-averaged surface heat fluxes at a scale ...
CER70-71BCH13.CET69-70BCH26.Includes bibliographical references.The usefulness of the cross beam tec...
A new method is described for the remote measurement of winds and atmospheric turbulence by the cros...
The optical effects arising from refractive-index variations in the clear air are qualitatively desc...
Recently, the number of optical systems that operate along near horizontal paths within a few meters...
The performance of a cross-correlation algorithm for remote wind velocity estimation by atmospheric ...
For optical propagation through the turbulent atmosphere, the angle of arrival (AOA) cross-correlati...
Atmospheric eddies, which have slightly different properties than their environment and are believed...
The spectral properties of the intensity of a light beam, propagated in a turbulent atmosphere in th...
A series of articles is presented on a passive, optical, cross beam system. The passive, optical, cr...
Speckle turbulence interaction has the potential for allowing single ended remote sensing of the pat...
This research project compares the performance of a Monolithic Optical Receiver and a Multi Aperture...
Ground-based astronomy suffers from waveform distortion produced by the turbulent atmosphere, which ...
A pulsed CO2 Doppler Lidar, developed for airborne measurements of atmospheric wind fields, is descr...
A system for remotely measuring vertical and horizontal winds present in discrete volumes of air at ...
Scintillometry provides the opportunity to obtain spatially-averaged surface heat fluxes at a scale ...