- programs for surface wave dispersion curves in python
- compute, display, invert 1D depth models
- based on Herrmann codes Computer Program in seismology
- git
- Anaconda3
- gfortran
- Go to the installation path (e.g. "~/git") and get srfpython
cd ~/git
git clone http://github.com/obsmax/srfpython.git- Create the virtual environment and activate it
conda create -n py27-srfpython python=2.7 --yes
conda activate py27-srfpython
python --version # must be 2.7.X, or conda failed, retry in new tty- Go to the cloned repository and install the package
# install in editable mode
# i.e. changes in python programs do not require re-installing the package
cd ~/git/srfpython
python -m pip install -e .
# test the compilation using
# (must work anywhere, no need to custom path or anything)
srfpython_tester.py- If you wish to use the jupyter notebooks with python2 (optional):
# make sure the environment is activated
conda activate py27-srfpython
# install with
conda install --yes notebook ipykernel
ipython kernel install --userfor a simple dispersion curve example
cd ~/git/srfpython/tutorials/00_simple_dispersion_example
# follow instructions in readme.txt for an depth inversion example
cd ~/git/srfpython/tutorials/01_simple_inversion_example
# follow instructions in readme.txt more in the jupyter notebooks
cd ~/git/srfpython/tutorials/10_notebooks
jupyter notebook - Lehujeur, M., Chevrot, S., Villaseñor, A., Masini, E., Saspiturry, N., Lescoutre, R., Sylvander, M., 2021. Three-dimensional shear velocity structure of the Mauléon and Arzacq Basins (Western Pyrenees). BSGF - Earth Sci. Bull. 192, 47. https://doi.org/10.1051/bsgf/2021039
- Lehujeur, M., Vergne, J., Schmittbuhl, J., Zigone, D., Le Chenadec, A., & EstOF Team (2018). Reservoir imaging using ambient noise correlation from a dense seismic network. Journal of Geophysical Research: Solid Earth, 123. https://doi.org/10.1029/2018JB015440