/EDK

https://git.ufz.de/chs/progs/edk_nc mirror: The External Drift Kriging - EDK program

Primary LanguageFortranOtherNOASSERTION

The External Drift Kriging - EDK program

EDK-LOGO

This repository contains the external drift kriging (EDK) Fortran program developed at the Dept. Computational Hydrosystems at the Helmholtz Centre for Environmental Research - UFZ.

The EDK program comes with a LICENSE agreement, this includes also the GNU Lesser General Public License.

Please note: The GitLab repository grants read access to the code. If you like to contribute to the code, please contact stephan.thober@ufz.de or sebastian.mueller@ufz.de.

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Installation

Installation instructions can be found in INSTALL for Windows, MacOS, and GNU/Linux distributions.

The simplest way to compile the EDK program is to use a conda environment (on Linux (including Windows/WSL) or MacOS) provided by Miniforge:

conda create -y --prefix ./fortran_env
conda activate ./fortran_env
conda install -y git cmake make fortran-compiler netcdf-fortran liblapack
source scripts/compile

This will give an executable edk.

Usage

To run the EDK program, you need a set of station data files, a look-up-table for these stations and a DEM file for the external drift. All configuration is done with a namelist file, which is called edk.nml by default. See the example file for all input specifications.

Then you can just execute ./edk next to this file.

You can also explicitly specify the namelist file and/or change the working directory by passing options the the edk command like:

./edk -n edk.nml check/case_01

To see the help text, execute:

./edk --help

Cite as

Please refer to the EDK algorithm by citing Samaniego et al. (2011). EDK aplications in Samaniego et al. (2013) or Zink et al. (2017). Rainfall network design and EDK cross-validation in Zacharias, S. et al. (2011).

  • Samaniego, L., R. Kumar, and C. Jackisch (2011), "Predictions in a data-sparse region using a regionalized grid-based hydrologic model driven by remotely sensed data", Hydrology research, 42(5), 338–355, doi:10.2166/nh.2011.156.
  • Samaniego, L. R. Kumar, M. Zink (2013), "Implications of Parameter Uncertainty on Soil Moisture Drought Analysis in Germany", J Hydrometeor, 2013 vol. 14 (1) pp. 47-68. http://journals.ametsoc.org/doi/abs/10.1175/JHM-D-12-075.1
  • Zink, M., R. Kumar, M. Cuntz, and L. Samaniego (2017), "A high-resolution dataset of water fluxes and states for Germany accounting for parametric uncertainty", Hydrol. Earth Syst. Sci., 21(3), 1769–1790, doi:10.5194/hess-21-1769-2017.
  • Zacharias, S., H. Bogena, L. Samaniego et al. (2011), "A Network of Terrestrial Environmental Observatories in Germany", Vadose Zone Journal, 10(3), 955, doi:10.2136/vzj2010.0139.

License

LGPLv3 (c) 2005-2024 CHS-Developers