Multichannel radiometric sensors such as the Advanced Baseline Imager (ABI), which will be onboard the Geostationary Operational Environmental Satellite R-Series, and the Advanced Himawari Imager (AHI), which is currently onboard Himawari 8, provide the possibility to use Planck’s law to validate the absolute calibration of each channel pre-launch as well as on orbit especially in the IR. A technique is developed to use the Planck’s law and evaluate the radiometric calibration of each of the 10 thermal infrared channels by studying their radiometric response in tandem to known brightness temperature scenes. The technique is applied to proxy pre-launch IR calibration data of ABI obtained in a cold chamber by using a cryogenic blackbody and f...
To ensure confidence, measurements carried out by imaging radiometers mounted on satellites require ...
The European Space Agency project for studies of cloud properties in the Climate Change Initiative p...
Pre-launch characterization and calibration of the thermal emissive spectral bands on the Joint Pola...
Multichannel radiometric sensors such as the Advanced Baseline Imager (ABI), which will be onboard t...
Since HJ-1B was launched, 7 sets of blackbody data have been used to calculate onboard calibration c...
This study presents a common recalibration method that has been applied to geostationary imagersR...
The next generation of infrared remote sensing satellite instrumentation, including climate benchmar...
The Visible Infrared Imager Radiometer Suite (VIIRS) was launched last year aboard the Suomi NPP sat...
A challenge for the scientific community in respect to the ever-increasing number of Earth observing...
The ZY1-02E satellite carrying a thermal infrared sensor was successfully launched from the Taiyuan ...
In a new era of global awareness and globalization, what’s happening around the world in real-time s...
The first of a new generation of imaging instruments - the Advanced Baseline Imager (ABI) was launch...
Abstract. We analysed the operational infrared (IR) calibration of the AVHRR radiometers onboard NOA...
To ensure confidence, measurements carried out by imaging radiometers mounted on satellites require ...
The European Space Agency project for studies of cloud properties in the Climate Change Initiative p...
Pre-launch characterization and calibration of the thermal emissive spectral bands on the Joint Pola...
Multichannel radiometric sensors such as the Advanced Baseline Imager (ABI), which will be onboard t...
Since HJ-1B was launched, 7 sets of blackbody data have been used to calculate onboard calibration c...
This study presents a common recalibration method that has been applied to geostationary imagersR...
The next generation of infrared remote sensing satellite instrumentation, including climate benchmar...
The Visible Infrared Imager Radiometer Suite (VIIRS) was launched last year aboard the Suomi NPP sat...
A challenge for the scientific community in respect to the ever-increasing number of Earth observing...
The ZY1-02E satellite carrying a thermal infrared sensor was successfully launched from the Taiyuan ...
In a new era of global awareness and globalization, what’s happening around the world in real-time s...
The first of a new generation of imaging instruments - the Advanced Baseline Imager (ABI) was launch...
Abstract. We analysed the operational infrared (IR) calibration of the AVHRR radiometers onboard NOA...
To ensure confidence, measurements carried out by imaging radiometers mounted on satellites require ...
The European Space Agency project for studies of cloud properties in the Climate Change Initiative p...
Pre-launch characterization and calibration of the thermal emissive spectral bands on the Joint Pola...