External codes

Here you can find the links for source codes some of them used in the solutions of exercise 1:

Source Models
• dModels (original package)
Physical and mathematical concepts for selected models used to interpret deformation measurements near active faults and volcanic centers. Please see correction below. Publication update is in progress. (Maurizio Battaglia)
• dModels (correction)
• Zhong et. al. (2019)
Analytical solution based on the series expansion of Papkovich-Boussinesq's displacement potentials to derive the elastic solution of a spherical inclusion containing an eigenstrain or pressurized cavity in an elastic half-space.
• VSM (Volcanic and Seismic source Modelling) Toolkit
An open source Python tool to model ground deformation detected by satellite and terrestrial geodetic techniques. (Elisa Trasatti)
• VSM Examples
(Elisa Trasatti) (this info is also reported in https://github.com/EliTras/VSM)
Finite Element Tools
• COMSOL
Links coming
• MOOSE
NGSolve, NGSolve Bitbucket, A computational framework for time-dependent deformation in visco-elastic magmatic systems.
Inversion
• GBIS (Leeds)
Open-source Geodetic Bayesian Inversion Software (GBIS, Version 1.1) allows the user to perform the inversion of Interferometric Synthetic Aperture Radar (InSAR) and/or Global Positioning System (GPS) data to estimate deformation source parameters.
• DefVolc
It is a series of codes for inversions of volcano deformations, based on 3D boundary element (with topography). They are accessible for registered users through an on demand computation platform. They can also be used on people's computers. The forward computations are baed on a C code and the inversions are based on compiled matlab codes. All run in Linux.