Dieter Werthmüller's Projects
AES1540-11Electromagnetic Exploration Methods
Geophysical Prospecting - Controlled-Source ElectroMagnetic (CSEM) Modelling
Airspeed Velocity: A simple Python benchmarking tool with web-based reporting
Notebooks from werthmuller.org/blog
Reference ellipsoids for geodesy, geophysics, and coordinate calculations
A simple pelican theme
Development of pyGIMLi(emg3d)
Discretization tools for finite volume and inverse problems.
Edi2Mare is a little GUI to help you to convert EDI-files into the correct format to run inversions with MARE2DEM.
Electromagnetic methods in geophysics - open educational resources.
Interactive applications for electromagnetics in geophysics
A Julia package for isotropic/anisotropic 3D forward modeling of frequency-domain electromagnetic (CSEM and MT) data.
EM assimilation code used for a hopefully soon to be published paper.
A conda-smithy repository for emg3d.
A conda-smithy repository for empymod.
EnKF analysis routines in Fortran 90. Stochastich and SQRT formulations with subspace inversion.
Sampling of 1D and 2D pseudo random curves and fields.
EnKF_seir
Dabblings in ES-MDA by reproducing existing results
GitHub-fork of extreme from Bitbucket; original site:
A Python wrapper (using f2py) for the logarithmic FFT Fortran code FFTLog by Andrew Hamilton.
GemPy is an open-source, Python-based 3-D structural geological modeling software, which allows the implicit (i.e. automatic) creation of complex geological models from interface and orientation data. It also offers support for stochastic modeling to adress parameter and model uncertainties.
Gnu Integral Equation Modeling in ElectroMagnetic Geophysics
Geophysical Inversion and Modeling Library :earth_africa:
Collection of introductory slides for git
Geophysics for Practicing Geoscientists
This branch will be HashOver 2.0
Matplotlib Jupyter Integration
Miscellaneous notebooks