Infrared (IR) radiometry technology is an important method for characterizing the IR signature of targets, such as aircrafts or rockets. However, the received signal of targets could be reduced by a combination of atmospheric molecule absorption and aerosol scattering. Therefore, atmospheric correction is a requisite step for obtaining the real radiance of targets. Conventionally, the atmospheric transmittance and the air path radiance are calculated by an atmospheric radiative transfer calculation software. In this paper, an improved IR radiometric method based on constant reference correction of atmospheric attenuation is proposed. The basic principle and procedure of this method are introduced, and then the linear model of high-speed cal...
Correction equations for calibration shift observed in Nimbus Medium Resolution Infrared Radiometer ...
One class of commercially available imaging infrared radiometers using cooled detectors is sensitive...
The science goals for future ground-based all-sky surveys, such as the Dark Energy Survey, PanSTARRS...
This article considers the possibility of using additional infrared radiometry compensators "transpa...
The work presented in this thesis arose from the requirement in the military environment to obtain i...
Aiming at the problem wherein temperature inversion accuracy is unstable due to the major difference...
Two techniques were developed for determining atmospheric corrections from observations made by a sc...
Top of the atmosphere synthetic spectral radiances are computed for widespread atmospheric condition...
Accurate determination of atmospheric effects is crucial to earth-based inflight radiometric calibra...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
Accurate correction of atmospheric effects on data captured by an infrared (IR) camera is crucial fo...
"We describe a method of simulating measurements of atmospheric radiances and brightness temperature...
The next generation of infrared remote sensing satellite instrumentation, including climate benchmar...
The need for independent, redundant absolute radiometric calibration methods is discussed with refer...
Atmospheric correction is a necessary step in processing data recorded by spaceborne sensors for clo...
Correction equations for calibration shift observed in Nimbus Medium Resolution Infrared Radiometer ...
One class of commercially available imaging infrared radiometers using cooled detectors is sensitive...
The science goals for future ground-based all-sky surveys, such as the Dark Energy Survey, PanSTARRS...
This article considers the possibility of using additional infrared radiometry compensators "transpa...
The work presented in this thesis arose from the requirement in the military environment to obtain i...
Aiming at the problem wherein temperature inversion accuracy is unstable due to the major difference...
Two techniques were developed for determining atmospheric corrections from observations made by a sc...
Top of the atmosphere synthetic spectral radiances are computed for widespread atmospheric condition...
Accurate determination of atmospheric effects is crucial to earth-based inflight radiometric calibra...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
Accurate correction of atmospheric effects on data captured by an infrared (IR) camera is crucial fo...
"We describe a method of simulating measurements of atmospheric radiances and brightness temperature...
The next generation of infrared remote sensing satellite instrumentation, including climate benchmar...
The need for independent, redundant absolute radiometric calibration methods is discussed with refer...
Atmospheric correction is a necessary step in processing data recorded by spaceborne sensors for clo...
Correction equations for calibration shift observed in Nimbus Medium Resolution Infrared Radiometer ...
One class of commercially available imaging infrared radiometers using cooled detectors is sensitive...
The science goals for future ground-based all-sky surveys, such as the Dark Energy Survey, PanSTARRS...