Comparison of modelled and empirical atmospheric propagation data
Abstract
The radiometric integrity of TM thermal infrared channel data was evaluated and monitored to develop improved radiometric preprocessing calibration techniques for removal of atmospheric effects. Modelled atmospheric transmittance and path radiance were compared with empirical values derived from aircraft underflight data. Aircraft thermal infrared imagery and calibration data were available on two dates as were corresponding atmospheric radiosonde data. The radiosonde data were used as input to the LOWTRAN 5A code which was modified to output atmospheric path radiance in addition to transmittance. The aircraft data were calibrated and used to generate analogous measurements. These data indicate that there is a tendency for the LOWTRAN model to underestimate atmospheric path radiance and transmittance as compared to empirical data. A plot of transmittance versus altitude for both LOWTRAN and empirical data is presented.
- Publication:
-
Optical materials and process technology for energy efficiency and solar applications
- Pub Date:
- January 1983
- Bibcode:
- 1983SPIE..428...45S
- Keywords:
-
- Atmospheric Attenuation;
- Infrared Imagery;
- Landsat 4;
- Radiance;
- Spectral Bands;
- Transmittance;
- Calibrating;
- Computer Techniques;
- Earth Resources Program;
- Radiosondes;
- Spectral Reconnaissance;
- Geophysics