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2021
-
(2021).
Application of quasi-deep convective clouds method for VIIRS and MODIS TEB calibration assessments.
Journal of Applied Remote Sensing,
15(2),
024506.
-
Chang, T.,
Shrestha, A.,
Diaz, P.,
Chen, N.,
Wu, A.,
Wilson, T.,
Li, Y.,
&
Xiong, X.
(2021).
MODIS thermal emissive bands calibration improvements for Collection 7
-
(2021).
Normalization method and application for MODIS TEB assessments using Earth scene measurements.
Earth and Space Science,
8(5),
e2020EA001539.
-
Xiong, X.,
Wu, A.,
Chang, T.,
Wilson, T.,
Li, Y.,
Chen, N.,
Shrestha, A.,
&
Diaz, P.
(2021).
On-orbit calibration and performance assessments of Terra and Aqua MODIS thermal emissive bands.
Journal of Applied Remote Sensing,
15(1),
014520-1-19.
2020
-
(2020).
Application of quasi-deep convective clouds method for MODIS and VIIRS TEB calibration assessments
-
(2020).
Methodology development for calibration assessment using quasi‐deep convective clouds with application to Aqua MODIS TEB.
Earth and Space Science,
7(1),
1-15.
-
Chang, T.,
Shrestha, A.,
Diaz, P.,
Li, Y.,
Chen, N.,
Wu, A.,
&
Xiong, X.
(2020).
MODIS TEB calibration algorithm improvements for future L1B collection
-
Shrestha, A.,
Chang, T.,
Wu, A.,
Li, Y.,
Diaz, P.,
Chen, N.,
&
Xiong, X.
(2020).
The MODIS TEBs calibration and look-up table delivery process for collections 6 and 6.1
2019
-
(2019).
MODIS thermal emissive bands calibration stability using in-situ ocean targets and remotely-sensed SST retrievals provided by the group for high resolution sea surface temperature
10.1117/12.2518691.
