Skip to main content
2021
-
(2021).
Application of quasi-deep convective clouds method for VIIRS and MODIS TEB calibration assessments.
Journal of Applied Remote Sensing,
15
(2),
024506.
-
(2021).
MODIS thermal emissive bands calibration improvements for Collection 7.
Proc. SPIE 11858, Sensors, Systems, and Next-Generation Satellites XXV,
118580R.
-
(2021).
Normalization method and application for MODIS TEB assessments using Earth scene measurements.
Earth and Space Science,
8
(5),
e2020EA001539.
-
(2021).
Evaluation of aqua MODIS thermal emissive bands stability through radiative transfer modeling.
Journal of Applied Remote Sensing,
15
(2),
024502.
-
(2021).
Impact of mirror-side correlated noise on radiometric calibration of MODIS thermal emissive bands.
Proc. SPIE - Earth Observing Systems XXVI,
118291A.
-
(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).
Cross-Calibration of MODIS Reflective Solar Bands With Sentinel 2A/2B MSI Instruments.
IEEE Transactions on Geoscience and Remote Sensing,
58
(7),
5000-5007.
-
(2020).
Application of quasi-deep convective clouds method for MODIS and VIIRS TEB calibration assessments.
Proc. SPIE - Earth Observing Systems XXV,
11501,
115010K.
-
(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.
-
(2020).
MODIS TEB calibration algorithm improvements for future L1B collection.
Proc. SPIE - Earth Observing Systems XXV,
11501,
115011H.
-
(2020).
Long term stability monitoring of Aqua MODIS thermal emissive bands through radiative transfer modeling.
Proc. SPIE - Earth Observing Systems XXV,
11501,
115011K.
-
(2020).
Evaluation of Aqua MODIS and S-NPP VIIRS thermal emissive bands calibration stability using Dome-C.
Proc. SPIE - Earth Observing Systems XXV,
11501,
115011S.
-
(2020).
The MODIS TEBs calibration and look-up table delivery process for collections 6 and 6.1.
Proc. SPIE - Earth Observing Systems XXV,
11501,
115011R.
2019
-
(2019).
Assessment of MODIS TEB calibration performance using deep convective clouds.
Proc. SPIE 11127, Earth Observing Systems XXIV,
11127,
111271.
10.1117/12.2528043.
-
(2019).
Assessment of MODIS thermal emissive band calibration performance using deep convective clouds.
J. Appl. Remote Sens.,
13
(4),
044526.
10.1117/1.JRS.13.044526.
-
(2019).
Tracking long-term stability of MODIS thermal emissive bands response versus scan-angle using Dome C observations.
Proc. SPIE 10986, Algorithms, Technologies, and Applications for Multispectral and Hyperspectral Imagery XXV,
10986,
109861W.
10.1117/12.2518987.
-
(2019).
Assessments of MODIS thermal emissive bands on-orbit calibration performance using Dome C observations.
Proc. SPIE 10986, Algorithms, Technologies, and Applications for Multispectral and Hyperspectral Imagery XXV,
10986,
1098605.
10.1117/12.2519000.
2018
-
(2018).
Assessment of Terra MODIS thermal emissive band calibration using cold targets and measurements in lunar roll events.
Proc. SPIE - Sensors, Systems, and Next-Generation Satellites XXII,
10785,
107851C.
10.1117/12.2325378.
-
(2018).
Evaluating calibration consistency of Terra and Aqua MODIS LWIR PV bands using Dome C.
Proc. SPIE - Algorithms and Technologies for Multispectral, Hyperspectral, and Ultraspectral Imagery XXIV,
10644,
106440N.
10.1117/12.2303978.
-
(2018).
Evaluation of MODIS and Sentinel-3 SLSTR thermal emissive bands calibration consistency using Dome C.
Proc. SPIE - Algorithms and Technologies for Multispectral, Hyperspectral, and Ultraspectral Imagery XXIV,
10644,
106441U.
10.1117/12.2303987.
2017
-
(2017).
The performance of DC restoration function for MODIS thermal emissive bands.
Proc. SPIE - Earth Observing Systems XXII,
10402,
10.1117/12.2274186.
-
(2017).
Development and Implementation of an Electronic Crosstalk Correction for Bands 27–30 in Terra MODIS Collection 6.
Remote Sensing,
9(6)
(569),
-
(2017).
Electronic crosstalk impact assessment in the Terra MODIS midwave infrared bands.
Proceedings Volume 10423, Sensors, Systems, and Next-Generation Satellites XXI; 104231Z,
-
(2017).
Lunar calibration improvements for the short-wave infrared bands in Aqua and Terra MODIS.
Proceedings Volume 10423, Sensors, Systems, and Next-Generation Satellites XXI; 1042313,