FEMTIC is a 3-D magnetotelluric inversion code based on the following studies. FEMTIC was made using object-oriented programming with C++. FEMTIC enables us to incorporate topography and bathymetry into an inversion model. FEMTIC is applicable to land magnetotelluric survey data as well as ocean bottom magnetotelluric survey data.
Y. Usui, 3-D inversion of magnetotelluric data using unstructured tetrahedral elements: applicability to data affected by topography, Geophys. J. Int., 202 (2): 828-849, https://doi.org/10.1093/gji/ggv186, 2015.
Y. Usui, Y. Ogawa, K. Aizawa, W. Kanda, T. Hashimoto, T. Koyama, Y. Yamaya and T. Kagiyama, Three-dimensional resistivity structure of Asama Volcano revealed by data-space magnetotelluric inversion using unstructured tetrahedral elements, Geophys. J. Int., 208 (3): 1359-1372, https://doi.org/10.1093/gji/ggw459, 2017.
Y. Usui, T. Kasaya, Y. Ogawa and H. Iwamoto, Marine magnetotelluric inversion with an unstructured tetrahedral mesh, Geophys. J. Int., 214(2): 952-974, https://doi.org/10.1093/gji/ggy171, 2018.
Y. Usui, Applicability evaluation of non-conforming deformed hexahedral mesh for marine magnetotellurics, Japan Geoscience Union Meeting 2021, 2021
The website of FEMTIC: https://sites.google.com/view/yoshiyausui/femtic
FEMTIC gives a three-dimensional electrical resistivity structure from the response functions at observation points on the Earth's surface.
Mesh type: Tetrahedral mesh / Hexahedral brick mesh / Non-conforming deformed hexahedral mesh
Data type: Impedance tensor / Vertical magnetic transfer function / Inter-station horizontal magnetic transfer function / Phase tensor / Apparent resistivity & Phase.
Inversion algorithm: Model-space Gauss-Newton method / Data-space Gauss-Newton method
Parallel computation: Multiple processes parallel computation with MPI / Multiple threads parallel computation with OpenMP / MPI & OpenMP hybrid parallel computation
Model parameter: Subsurface electrical resistivity / Distortion matrix of galvanic distortion
Regularization: L2 regularization with Laplacian filter / L2 regularization with difference filter / L1 regularization with difference filter
v4.2 Mar. 25, 2024: I modified some parts to allow the use of large-scale models and large datasets.
v4.1 Nov. 9, 2021: This new version supports difference filter. The error calculation of log10(apparent resistivity) is modified. Rotation angles of distortion matrix are limited to from -90 to 90 (deg.) when gains and rotations of galvanic distortion are estimated.
v4.0 Jun. 3, 2021: This new version supports non-conforming deformed hexahedral mesh.
v3.5 Jan. 11, 2021: This new version supports observed data of apparent resistivity and phase and unsymmetric roughening matrix.
v3.4.7 Sep. 4, 2020: The integer indices into the multiple right-hand-side vectors and solution vectors were changed from 32-bit to 64-bit.
v3.4.6 Sep. 2, 2020: This version allows us to make resistivity of every individual subsurface element to be a different model parameter, in analogy with other 3-D inversion code.
Some pre/post-processing tools for FEMTIC, including meshing tools, and their manuals can be downloaded from GitHub. Results of FEMTIC can be visualized by ParaView.
makeDHexaMesh: Tool for making non-conforming deformed hexahedral mesh for FEMTIC
makeTetraMesh: By using this tool, you can make a surface mesh for creating a tetrahedral mesh.
makeMtr: This tool output .mtr file of TetGen by reading node and .ele files of TetGen.
TetGen2Femtic: This program converts output files of TetGen to FEMTIC.
makeHexaMesh: Tool for making hexahedral brick mesh for FEMTIC
mergeResultOfFEMTIC: By this program, you can merge result files (.csv) of FEMTIC.
makeCutawayForGMT: By using this program, you can make a file needed to draw a cross-section of a resistivity structure by GMT.
changeResistivityForFemtic: By this program, you can change resistivity values of a specified area for sensitivity tests of FEMTIC inversion results