Open Educational Resources (OER)

Module

Lecturer

Audience

TUBAF_EM Github.io pageElectromagnetics Working GroupBSc + MSc
Theory of Potential Field MethodsDr. Ralph-Uwe BörnerMSc
Theory of Electromagnetic MethodsDr. Ralph-Uwe BörnerMSc
Numerical Simulation Methods in GeophysicsProf. Dr. Thomas GüntherMSc
Inverse Problems in Geophysics (+Julia Notebooks)Prof. Dr. Thomas GüntherMSc
Geoelektrik & ElektromagnetikProf. Dr. Thomas Günther und Dr. Ralph-Uwe BörnerBSc

Open Source

Software

Documentation

Download

AnyPetro

Autorin: Jana Börner

  • Inversion software for petrophysical data
  • GUI-based
  • freely configurable forward operator
  • implements, among others: Debye decomposition, Waxman-Smits, Cole-Cole model, Wyllie equation
https://dataservices.gfz-potsdam.de/panmetaworks/showshort.php?id=497c907d-c6c2-11ec-9531-ca1f3ed77ce8
custEM
  • Python library for 3D finite element modeling and inversion of EM data

https://custem.readthedocs.io/en/latest/

https://github.com/LIAG-S2/SAEM

FEMALY
  • To be added
 

FEMT2D

Autor: Ralph-Uwe Börner

  • Finite-Element-Code for simulation of magnetotelluric data in 2D
  • MATLAB

https://github.com/ruboerner/FEMT2D

doi:10.5281/zenodo.3955407

(py)GravMag3D

Autor: Ralph-Uwe Börner

  •  3D modeling for gravimetry and magnetics, based on arbitrarily bounded homogeneous bodies
  • MATLAB

https://github.com/ruboerner/GravMag3D

https://github.com/ruboerner/pygravmag3d

doi:10.5281/zenodo.6868593

pyBERT
  • Software package for modeling and inversion of ERT data
  • Python-based via pyGIMLi and pyBERT for visualization, meshing, and calculation
https://gitlab.com/resistivity-net/bert
pyGIMLi
  • Python library for geophysical multi-method modeling and inversion

https://www.pygimli.org/

https://github.com/gimli-org/pyGIMLi

SAEM
  • Tools for data processing, visualization, and inversion of semi-airborne-EM (SAEM) data
https://github.com/LIAG-S2/SAEM

tem1dinv

Autor: Ralph-Uwe Börner

  • Inversion of TEM data in 1D
  • MATLAB

https://github.com/ruboerner/tem1dinv

doi:10.5281/zenodo.10203909

Open Data

 

Römhild, L., Sonntag, M., Kiyan, D., Rogers, R., Rath, V. and Börner, J.H., 2023. Anisotropic broadband spectral induced polarization (SIP) data of black shale and mudstone from the Moffat Shale Group (Ireland). GFZ Data Services, [doi:10.5880/fidgeo.2022.034](https://doi.org/10.5880/fidgeo.2022.034)

Grünenbaum, N., Günther, T., Greskowiak, J., Vienken, T., Müller-Petke, M. & Massmann, G., 2023. Hydrogeophysical Data Spiekeroog, ERT DP, doi:10.5281/zenodo.7531154

Börner, J.H., Herdegen, V., Repke, J.-U. and Spitzer, K., 2022. Multi-method petrophysical laboratory data set for crushed carbonates and sandstone, GFZ Data Services, [doi:10.5880.fidgeo.2021.044](https://doi.org/10.5880.fidgeo.2021.044)

Ronczka, M., Günther, T. & Grinat, M., 2020. SAMOS monitoring data for CLIWAT1, CLIWAT2 and goCAM1 doi:10.5281/zenodo.3609109

Martin, T., Günther, T. & Flores Orozco, A., 2020.Spectral Induced Polarization (SIP) field data sets for comparison between time and frequency domain (Martin et al. 2020), doi:10.5281/zenodo.4419735

Günther, T., Nickschick, T., Flechsig, C., Löbig, F. & Oppermann, F., 2019. ERT Datasets for the paper of Nickschick et al. (2019) in Solid Earth, doi:10.5281/zenodo.3249031

Igel, J., Günther, T., Müller-Petke, M., Dlugosch, R. & Jiang, C., 2019. Hydrogeophysical data Schillerslage test site, joint MRT ERT GPR, doi:10.5281/zenodo.2686823

Oppermann, F. & Günther, T., 2018. Codes and data for Software lock-in processing, doi:10.5281/zenodo.1167653

Ronczka, M., Hellman, K., Günther, T., Dahlin, T. & Wisen, R., 2017. Data and codes for Äspö field case, doi:10.5281/zenodo.806752