Add to ORKGThe Thermal Infrared Multispectral Scanner (TIMS) is a NASA aircraft scanner providing six channel spectral capability in the thermal infrared region of the electromagnetic spectrum. Operating in the atmospheric window region (8 to 12 micrometers) with a channel sensitivity of approximately 0.1 C, TIMS may be used whenever an accurate measure of the Earth's surface is needed. A description of this scanner is provided as well as a discussion of data acquisition and reduction
The development and demonstration of lidar techniques for the remote measurement of atmospheric cons...
Existing microwave radiometer technology now provides a suitable method for remote determination of ...
The use of the quasi-random band model in evaluating upwelling atmospheric radiation is investigated...
A simple algorithm and computer program were developed for determining the actual surface temperatur...
A series of microwave measurements was conducted to determine the radar cross section of the Space S...
Kershaw County, South Carolina was selected as the study site for analyzing simulated thematic mappe...
The CTS maps the Earth's surface with a resolution of 0.1 km from an altitude of 18km with 60km side...
Line and band models for infrared spectral absorption are discussed. Radiative transmittance and int...
The feasibility of dividing the 8-12 micrometer thermal infrared wavelength region into six spectral...
A procedure is described for determining the noise equivalent difference temperature for infrared el...
Six scientific objectives/experiments were derived which consisted of agriculture/forestry/range res...
A pre-entry communications study is presented for a relay link between a Jupiter entry probe and a s...
Field measurements performed simultaneously with Skylab overpasses in order to provide comparative c...
High rate multiplexes asymmetry and jitter, data-dependent amplitude variations, and transition dens...
The radiometric requirements, internal calibration, sensor output format, geometric characteristics,...
The development and demonstration of lidar techniques for the remote measurement of atmospheric cons...
Existing microwave radiometer technology now provides a suitable method for remote determination of ...
The use of the quasi-random band model in evaluating upwelling atmospheric radiation is investigated...
A simple algorithm and computer program were developed for determining the actual surface temperatur...
A series of microwave measurements was conducted to determine the radar cross section of the Space S...
Kershaw County, South Carolina was selected as the study site for analyzing simulated thematic mappe...
The CTS maps the Earth's surface with a resolution of 0.1 km from an altitude of 18km with 60km side...
Line and band models for infrared spectral absorption are discussed. Radiative transmittance and int...
The feasibility of dividing the 8-12 micrometer thermal infrared wavelength region into six spectral...
A procedure is described for determining the noise equivalent difference temperature for infrared el...
Six scientific objectives/experiments were derived which consisted of agriculture/forestry/range res...
A pre-entry communications study is presented for a relay link between a Jupiter entry probe and a s...
Field measurements performed simultaneously with Skylab overpasses in order to provide comparative c...
High rate multiplexes asymmetry and jitter, data-dependent amplitude variations, and transition dens...
The radiometric requirements, internal calibration, sensor output format, geometric characteristics,...
The development and demonstration of lidar techniques for the remote measurement of atmospheric cons...
Existing microwave radiometer technology now provides a suitable method for remote determination of ...
The use of the quasi-random band model in evaluating upwelling atmospheric radiation is investigated...