Add to ORKGIn the past two decades, the use of both photographic and non-photographic remote sensing from satellite platforms has provided a unique capability for the observation and study of Earth and planetary surfaces. A wide range of imaging sensors that operate in different portions of the electromagnetic spectrum have yielded images of large areas that formerly were unknown or that had not previously been observed at a simultaneous instant in time. In addition, remote sensors equipped with multispectral or multiband capabilities are capable of taking data at different wavelengths simultaneously. Notable examples include the LANDSAT series of multispectral scanners, thematic mappers, and return beam vidicons. Synthetic aperture radar and LANDSAT ...
In the last four years, the first two Earth-orbiting, space-borne, synthetic-aperture imaging radars...
Studies sponsored by NASA at the University of Kansas in cooperation with several other universities...
In the last four years, the first two Earth-orbiting, space-borne, synthetic-aperture imaging radars...
Three synthetic aperture radars (SARs) sponsored by NASA have been flown in space. SEASAT in 1978, S...
Three synthetic aperture radars (SARs) sponsored by NASA have been flown in space. SEASAT in 1978, S...
Spaceborne imaging sensors in the visible, infrared and passive microwave have been used to observe ...
Spaceborne imaging sensors in the visible, infrared and passive microwave have been used to observe ...
Spaceborne imaging sensors in the visible, infrared and passive microwave have been used to observe ...
The potentials of airborne and spacecraft borne imaging radars in earth resources applications are r...
The potentials of airborne and spacecraft borne imaging radars in earth resources applications are r...
In order to fully understand the radar signature of different surface features and covers, observati...
In order to fully understand the radar signature of different surface features and covers, observati...
The synoptic view afforded by orbiting Earth sensors can be extremely valuable for resource evaluati...
The synoptic view afforded by orbiting Earth sensors can be extremely valuable for resource evaluati...
Techniques and applications of radar observation from Earth satellites are discussed. Images process...
In the last four years, the first two Earth-orbiting, space-borne, synthetic-aperture imaging radars...
Studies sponsored by NASA at the University of Kansas in cooperation with several other universities...
In the last four years, the first two Earth-orbiting, space-borne, synthetic-aperture imaging radars...
Three synthetic aperture radars (SARs) sponsored by NASA have been flown in space. SEASAT in 1978, S...
Three synthetic aperture radars (SARs) sponsored by NASA have been flown in space. SEASAT in 1978, S...
Spaceborne imaging sensors in the visible, infrared and passive microwave have been used to observe ...
Spaceborne imaging sensors in the visible, infrared and passive microwave have been used to observe ...
Spaceborne imaging sensors in the visible, infrared and passive microwave have been used to observe ...
The potentials of airborne and spacecraft borne imaging radars in earth resources applications are r...
The potentials of airborne and spacecraft borne imaging radars in earth resources applications are r...
In order to fully understand the radar signature of different surface features and covers, observati...
In order to fully understand the radar signature of different surface features and covers, observati...
The synoptic view afforded by orbiting Earth sensors can be extremely valuable for resource evaluati...
The synoptic view afforded by orbiting Earth sensors can be extremely valuable for resource evaluati...
Techniques and applications of radar observation from Earth satellites are discussed. Images process...
In the last four years, the first two Earth-orbiting, space-borne, synthetic-aperture imaging radars...
Studies sponsored by NASA at the University of Kansas in cooperation with several other universities...
In the last four years, the first two Earth-orbiting, space-borne, synthetic-aperture imaging radars...