This is a collection of tutorial cases for the Community Radiative Transfer Model (CRTM). There is a separate folder for each tutorial case:
K-Matrix_test: How to compute instrument weighting functions with the CRTM.K-Matrix_SVD: How to use the CRTM K-Matrix in other applications.NakajimaKing: A bispectral retrieval example for cloud optical thickness and effective radius.
This tutorial requires a linked version of the CRTM library and a LAPACK version. The code has been tested with CRTM REL-2.1.3 to 2.3.0. A Python installation with NumPy and Matplotlib modules is required for the plotting scripts.
You may either download the code or clone the entire repository with the following command:
git clone https://github.com/StegmannJCSDA/CRTM_tutorial- Enter the corresponding case folder.
- Type
make.
A detailed description on how to run each tutorial can be found in the corresponding case folder.
If you plan to contribute to the repository, please create a feature branch from develop or a bugfix branch from hotfix.
Please see the file LICENSE.txt for details.
[1] Stegmann, P., E. Liu, and B. Johnson (2019): Applying the Community Radiative Transfer Model to Remote Sensing and Data Assimilation. AGU Fall Meeting 2019 (Advances in Remote Sensing Inversion), Boston MA.
[2] Rodgers, C. D. (2000): Inverse Methods for Atmospheric Sounding: Theory and Practice. World Scientific Singapore.
[3] Nakajima T., and M. D. King (1990): Determination of Optical Thickness and Effective Particle Radius of Clouds from Reflected Solar Radiation Measurements. Part I: Theory. JAS 47(15), 1878-1893.