This code has been used in the Remote Sensing paper that cites this release (a recursive software release we're dealing with here... No less and no more...). The paper reference is Gomez-Dans, J L, Lewis, P E, Disney M, "Efficient Emulation of Radiative Transfer Codes Using Gaussian Processes and Application to Land Surface Parameter Inferences", Remote Sensing, 201
Radiative transfer (RT) is a key component for investigating atmospheres of planetary bodies. With t...
This R script was used to do the classification and post processing of the land use and cover change...
Physically-based radiative transfer models (RTMs) help in understanding the processes occurring on t...
There is an increasing need to consistently combine observations from different sensors to monitor t...
Code and data for the paper titled "Reproducing complex simulations of economic impacts of climate c...
Using our decades-long experience in radiative transfer (RT) code development for Earth science, we ...
Package of codes and data files shared as supporting material for the papers: "Inverse problems for...
This data set contains the source code of the radiative transfer model SCIATRAN of version 4.6. The ...
This is code that supplements: Geiss, A., Ma, P-L, Singh, B., and Hardin, J. C., (2022) "Emulating A...
Using remotely sensed satellite products is the most efficient way to monitor global land, water, an...
Physically-based radiative transfer models (RTMs) help understand the interactions of radiation with...
The commented Google Earth Engine script for accessing open-access Landsat data and remote sensing a...
Abstract View references (99) This article describes the latest stable release (version 2.2) of the ...
This data set contains the source code of the radiative transfer model SCIATRAN of version 4.6, the ...
Earth observation is the field of science concerned with the problem of monitoring and modeling the ...
Radiative transfer (RT) is a key component for investigating atmospheres of planetary bodies. With t...
This R script was used to do the classification and post processing of the land use and cover change...
Physically-based radiative transfer models (RTMs) help in understanding the processes occurring on t...
There is an increasing need to consistently combine observations from different sensors to monitor t...
Code and data for the paper titled "Reproducing complex simulations of economic impacts of climate c...
Using our decades-long experience in radiative transfer (RT) code development for Earth science, we ...
Package of codes and data files shared as supporting material for the papers: "Inverse problems for...
This data set contains the source code of the radiative transfer model SCIATRAN of version 4.6. The ...
This is code that supplements: Geiss, A., Ma, P-L, Singh, B., and Hardin, J. C., (2022) "Emulating A...
Using remotely sensed satellite products is the most efficient way to monitor global land, water, an...
Physically-based radiative transfer models (RTMs) help understand the interactions of radiation with...
The commented Google Earth Engine script for accessing open-access Landsat data and remote sensing a...
Abstract View references (99) This article describes the latest stable release (version 2.2) of the ...
This data set contains the source code of the radiative transfer model SCIATRAN of version 4.6, the ...
Earth observation is the field of science concerned with the problem of monitoring and modeling the ...
Radiative transfer (RT) is a key component for investigating atmospheres of planetary bodies. With t...
This R script was used to do the classification and post processing of the land use and cover change...
Physically-based radiative transfer models (RTMs) help in understanding the processes occurring on t...