Not exact matches
The Advanced Spaceborn
Thermal Emission and Reflection
Radiometer (ASTER) instrument on the Terra satellite captured this image.
Using a modern version of the Hexagon satellite called the Advanced Spaceborne
Thermal Emission and Reflection
Radiometer (ASTER), the team screened 2276 large glacial lakes in the Himalayas and found that 49 of them have potential flood volumes of over 10 million cubic meters, which are generally considered to be major floods.
Hilary Wilson, EUMETSAT's Sentinel - 3 Project Manager added, «It is very exciting to see all the small scale
thermal features clearly captured in the Benguela region and this really demonstrates the potential of the Sea and Land Surface Temperature
Radiometer.
This is an image of Chile's Atacama Desert captured via the Advanced Spaceborne
Thermal Emission and Reflection
Radiometer (ASTER) instrument on NASA's Terra satellite on 28 Oct. 2001.
We obtained direct global measurements of the lunar surface using multispectral
thermal emission mapping with the Lunar Reconnaissance Orbiter Diviner Lunar
Radiometer Experiment.
These images show Mount Ruapehu on the North Island of New Zealand and its summit lake, observed by the Advanced Spaceborne
Thermal Emission and Reflection
Radiometer (ASTER) on NASA's Terra satellite.
ECOSTRESS Principal Investigator Simon Hook of JPL began developing the
thermal infrared
radiometer for ECOSTRESS several years ago.
This image was captured by the Advanced Spaceborne
Thermal Emission and Reflection
Radiometer (ASTER) instrument on NASA's Terra spacecraft on Nov. 13, 2011.
The Advanced Spaceborne
Thermal Emission and Reflection
Radiometer (ASTER) on NASA's Terra satellite took the image in June 2005.
NOAA Coral Reef Watch (CRW)
thermal stress products used in this study were based on nighttime - only Advanced Very High Resolution
Radiometer (AVHRR) sea surface temperature (SST) data from sensors aboard operational NOAA Polar - Orbiting Environmental Satellites (POES), produced in near - real - time at 0.5 - degree (50 - km) spatial resolution.
2008 G. Matthews, «Celestial body irradiance determination from an under - filled satellite
radiometer: Application to albedo and
thermal emission measurements of the Moon using CERES» Applied Optics.
Surface skin temperatures have been derived from the
thermal infrared channels of the Advanced Very High Resolution
Radiometer (AVHRR), as discussed by Comiso (2000).
Spencer, J.R., L.K. Tamppari, and T.Z. Martin, 1999: Temperatures on Europa from Galileo Photopolarimeter -
Radiometer: Nighttime
thermal anomalies.
After launch, large
thermal gradients due to solar heating developed within the hot load, making it difficult to determine from the thermistor readings the average effective temperature, or the temperature the
radiometer sees.
My own experiments were with ASTER -LRB-(Advanced Spaceborne
Thermal Emission and Reflection
Radiometer) datasets from a Japanese instrument fflown by NASA aboard TERRA.
Advanced user of X-Ray: Glenbrook Technologies Jewel Box 70T, Endoscope: EasyBraid VIP - 1000,
Thermal Imager: Fluke Ti32, Optical Spectroscope: StellarNet Blue - Wave NIR50, Optical
Radiometer: PhotoResearch PR - 650,
Thermal Chamber: Thermotron SM - 8C MiniMax, ESD Testing: KeyTek ESD1, and BGA Machine: AirVac DRS25