References#
Archie, G.E. The Electrical Resistivity Log as an Aid in Determining Some Reservoir Characteristics. Transactions of the AIME, 146(01):54–62, dec 1942. URL: http://dx.doi.org/10.2118/942054-g, doi:10.2118/942054-g.
Chen, Y., Davis, T. A., Hager, W. W., and Rajamanickam, S. Algorithm 887: CHOLMOD, supernodal sparse Cholesky factorization and update/downdate. ACM Trans. Math. Software, 35(3):No.: 22, 2009.
Geuzaine, C. and Remacle, J.-F. Gmsh: a three-dimensional finite element mesh generator with built-in pre- and post-processing facilities. International Jounral for Numerical Methods in Engineering, 79:1309–1331, 2009.
Günther, T. and Rücker, C. A new joint inversion approach applied to the combined tomography of dc resistivity and seismic refraction data. In Ext. Abstract, 19. EEGS annual meeting (SAGEEP), 02.-06.04.2006; Seattle, USA. 2006. doi:10.4133/1.2923578.
Günther, Thomas. On Inversion of Frequency Domain Electromagnetic Data in Salt Water Problems - Sensitivity and Resolution. In Ext. Abstr., 19th European Meeting of Environmental and Engineering Geophysics, Bochum, Germany. 2013. doi:10.3997/2214-4609.20131387.
Günther, Thomas, Dlugosch, Raphael, Holland, Raphael, and Yaramanci, Ugur. Aquifer characterization using coupled inversion of MRS & DC/IP data on a hydrogeophysical test-site. In Ext. Abstract, 23. EEGS annual meeting (SAGEEP), April 11-14, 2010; Keystone, CO., volume 23, 302–307. 2010. doi:10.4133/1.3445447.
Hellman, Kristofer, Ronczka, Mathias, Günther, Thomas, Wennermark, Marcus, Rücker, Carsten, and Dahlin, Torleif. Structurally coupled inversion of ERT and refraction seismic data combined with cluster-based model integration. Journal of Applied Geophysics, 143:169–181, aug 2017. URL: https://doi.org/10.1016/j.jappgeo.2017.06.008, doi:10.1016/j.jappgeo.2017.06.008.
Jordi, C., Doetsch, J., Günther, T., Schmelzbach, C., and Robertsson, J. O.A. Geostatistical regularization operators for geophysical inverse problems on irregular meshes. Geophysical Journal International, 213(2):1374–1386, 2018. doi:10.1093/gji/ggy055.
Loewer, M., Günther, T., Igel, J., Kruschwitz, S., Martin, T., and Wagner, N. Ultra-broad-band electrical spectroscopy of soils and sediments—a combined permittivity and conductivity model. Geophysical Journal International, 210(3):1360–1373, jun 2017. URL: https://doi.org/10.1093/gji/ggx242, doi:10.1093/gji/ggx242.
Loewer, Markus, Igel, Jan, and Wagner, Norman. Spectral Decomposition of Soil Electrical and Dielectric Losses and Prediction of In Situ GPR Performance. IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing, 9(1):212–230, 2016. URL: http://dx.doi.org/10.1109/JSTARS.2015.2424152, doi:10.1109/jstars.2015.2424152.
Moser, TJ. Shortest path calculation of seismic rays. Geophysics, 56(1):59–67, 1991. doi:10.1190/1.1442958.
Nordsiek, Sven and Weller, Andreas. A new approach to fitting induced-polarization spectra. Geophysics, 73(6):F235–F245, 2008.
Pelton, W.H., Ward, S.H., Hallof, P.G., Sill, W.R., and Nelson, P. H. Mineral discrimination and removal of inductive coupling with multifrequency ip. Geophysics, 43(3):588–609, 1978.
Podvin, Pascal and Lecomte, Isabelle. Finite difference computation of traveltimes in very contrasted velocity models: a massively parallel approach and its associated tools. Geophysical Journal International, 105(1):271–284, apr 1991. URL: https://doi.org/10.1111/j.1365-246x.1991.tb03461.x, doi:10.1111/j.1365-246x.1991.tb03461.x.
Rücker, Carsten, Günther, Thomas, and Wagner, Florian. pyGIMLi: an open-source library for modelling and inversion in geophysics. Computers & Geosciences, 2017.
Seigel, H. O. Mathematical formuiation and type curves for induced polarization. Geophysics, 24:547–565, 1959.
Shewchuk, Jonathan Richard. Triangle: Engineering a 2D Quality Mesh Generator and Delaunay Triangulator. In Lin, Ming C. and Manocha, Dinesh, editors, Applied Computational Geometry: Towards Geometric Engineering, volume 1148 of Lecture Notes in Computer Science, pages 203–222. Springer-Verlag, May 1996.
Si, H. TetGen - a quality-constrained tetrahedral mesh generator. Weierstrass institute, Berlin, http://tetgen.org, 2002-2008.
Si, Hang. TetGen. A 3D Delaunay tetrahedral mesh generator. v.1.3. Users manual 4, WIAS, 2004.
Si, Hang. TetGen, a Delaunay-Based Quality Tetrahedral Mesh Generator. ACM Transactions on Mathematical Software, 41(2):1–36, feb 2015. URL: http://dx.doi.org/10.1145/2629697, doi:10.1145/2629697.
Singh, Bijendra and Guptasarma, D. New method for fast computation of gravity and magnetic anomalies from arbitrary polyhedra. Geophysics, 66:521–526, 2001.
v. Engelhardt, W. and Pitter, H. Über die Zusammenhänge zwischen Porosität, Permeabilität und Korngröße bei Sanden und Sandsteinen. Heidelberger Beiträge zur Mineralogie und Petrographie, 2(6):477–491, 1955.
Won, I. J. and Bevis, Michael. Computing the gravitational and magnetic anomalies due to a polygon: Algorithms and Fortran subroutines. Geophysics, 52(2):232–238, 1987.
Zienkiewicz, O. C. The Finite Element Method. McGraw-Hill, London, 3rd edition, 1977.