Add to ORKGA wideband multifrequency UHF radiometer was initially developed to operate in the 500 to 710 MHz frequency range for the remote measurement of ocean water salinity. However, radio-frequency interference required a reconfiguration to operate in the single-frequency radio astronomy band of 608 to 614 MHz. Details of the radiometer development and testing are described. Flight testing over variable terrain provided a performance comparison of the UHF radiometer with an L-band radiometer for remote sensing of geophysical parameters. Although theoretically more sensitive, the UHF radiometer was found to be less desirable in practice than the L-band radiometer
Over the last ten years, some operational airborne remote sensing systems have become available for ...
This report describes the research and development phase for eight dual-channel water vapor radiomet...
The product of a working group assembled to help define the science objectives and measurement requi...
The design, development, application, and capabilities of a variable frequency microwave radiometer ...
A technique to measure remotely sea surface temperature and salinity was demonstrated with a dual fr...
Microwave radiometry has emerged over the last two decades to become an integral part of the field o...
Experiments to remotely determine sea water salinity from measurements of the sea surface radiometri...
A receiver proposed for use in L-band microwave radiometry (for measuring soil moisture and sea sali...
An area of increasing interest is the establishment of a significant research program in microwave r...
Passive microwave remote sensing of the Earth from space provides information essential for understa...
The design, development, application, and capabilities of a variable frequency microwave radiometer ...
Terrestrial radars operating in the 1215-1400 MHz radio-location and navigation spectrum allocation ...
Microwave radiometry has provided valuable spaceborne observations of Earth's geophysical...
The all weather, global determination of sea surface temperature (SST) has been identified as a requ...
In order to demonstrate the feasibility of the microwave radiometers to be carried aboard the Nimbus...
Over the last ten years, some operational airborne remote sensing systems have become available for ...
This report describes the research and development phase for eight dual-channel water vapor radiomet...
The product of a working group assembled to help define the science objectives and measurement requi...
The design, development, application, and capabilities of a variable frequency microwave radiometer ...
A technique to measure remotely sea surface temperature and salinity was demonstrated with a dual fr...
Microwave radiometry has emerged over the last two decades to become an integral part of the field o...
Experiments to remotely determine sea water salinity from measurements of the sea surface radiometri...
A receiver proposed for use in L-band microwave radiometry (for measuring soil moisture and sea sali...
An area of increasing interest is the establishment of a significant research program in microwave r...
Passive microwave remote sensing of the Earth from space provides information essential for understa...
The design, development, application, and capabilities of a variable frequency microwave radiometer ...
Terrestrial radars operating in the 1215-1400 MHz radio-location and navigation spectrum allocation ...
Microwave radiometry has provided valuable spaceborne observations of Earth's geophysical...
The all weather, global determination of sea surface temperature (SST) has been identified as a requ...
In order to demonstrate the feasibility of the microwave radiometers to be carried aboard the Nimbus...
Over the last ten years, some operational airborne remote sensing systems have become available for ...
This report describes the research and development phase for eight dual-channel water vapor radiomet...
The product of a working group assembled to help define the science objectives and measurement requi...