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Site Navigation

  • Home
  • Documentation
  • API Reference
  • Installation
  • Tutorials
  • Examples

Section Navigation

  • Mesh generation
    • Meshing the Omega aka. BERT logo
    • CAD to mesh tutorial
    • Extrude a 2D mesh to 3D
    • Flexible mesh generation using Gmsh
    • Building a hybrid mesh in 2D
  • Seismic refraction and traveltime tomography
    • 2D Refraction modelling and inversion
    • Crosshole traveltime tomography
    • Raypaths in layered and gradient models
    • Field data inversion (“Koenigsee”)
    • Refraction in 3D
  • Electrical resistivity tomography
    • 2D ERT modelling and inversion
    • ERT field data with topography
    • 2D FEM modelling on two-layer example
    • Geoelectrics in 2.5D
    • Four-point sensitivities
    • 2D crosshole ERT inversion
    • ERT inversion of data measured on a standing tree
    • 3D surface ERT inversion
    • 3D crosshole ERT inversion
    • Timelapse ERT
    • Reciprocal data analysis of field ERT data
    • 3D modelling in a closed geometry
  • Induced polarization
    • Generating SIP signatures
    • Fitting SIP signatures
    • Complex-valued electrical modelling
    • Naive complex-valued electrical inversion
    • Synthetic TDIP modelling and inversion
  • Gravimetry and magnetics
    • Semianalytical Gravimetry and Geomagnetics in 2D
    • Gravimetry in 2D - Part I
    • 2D gravity modelling and inversion
    • 3D gravity modelling and inversion
    • 3D magnetics modelling and inversion
  • Flow and transport
    • 3D Darcy flow
    • Hydrogeophysical modelling
  • Inversion
    • DC-EM joint inversion
    • Incorporating additional constraints as equations
    • Petrophysical joint inversion
    • Inversion with structural constraints
    • Incorporating prior data into ERT inversion
    • Computing resolution properties
  • Examples
  • Seismic refraction and traveltime tomography

Seismic refraction and traveltime tomography#

2D Refraction modelling and inversion

2D Refraction modelling and inversion

Crosshole traveltime tomography

Crosshole traveltime tomography

Raypaths in layered and gradient models

Raypaths in layered and gradient models

Field data inversion (“Koenigsee”)

Field data inversion ("Koenigsee")

Refraction in 3D

Refraction in 3D

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Building a hybrid mesh in 2D

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2D Refraction modelling and inversion
2025 - pyGIMLi Development Team
Created using Sphinx with the PyData theme and pyGIMLi 1.5.4 on Mar 28, 2025.