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Volume 26 Issue 6
Nov 2015
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Article Contents
Jan van der Kruk, Nils Gueting, Anja Klotzsche, Guowei He, Sebastian Rudolph, Christian von Hebel, Xi Yang, Lutz Weihermüller, Achim Mester, Harry Vereecken. Quantitative multi-layer electromagnetic induction inversion and full-waveform inversion of crosshole ground penetrating radar data. Journal of Earth Science, 2015, 26(6): 844-850. doi: 10.1007/s12583-015-0610-3
Citation: Jan van der Kruk, Nils Gueting, Anja Klotzsche, Guowei He, Sebastian Rudolph, Christian von Hebel, Xi Yang, Lutz Weihermüller, Achim Mester, Harry Vereecken. Quantitative multi-layer electromagnetic induction inversion and full-waveform inversion of crosshole ground penetrating radar data. Journal of Earth Science, 2015, 26(6): 844-850. doi: 10.1007/s12583-015-0610-3

Quantitative multi-layer electromagnetic induction inversion and full-waveform inversion of crosshole ground penetrating radar data

doi: 10.1007/s12583-015-0610-3
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  • Corresponding author: Jan van der Kruk, j.van.der.kruk@fz-juelich.de
  • Received Date: 14 Mar 2015
  • Accepted Date: 05 Aug 2015
  • Publish Date: 01 Dec 2015
  • Due to the recent system developments for the electromagnetic characterization of the subsurface, fast and easy acquisition is made feasible due to the fast measurement speed, easy coupling with GPS systems, and the availability of multi-channel electromagnetic induction (EMI) and ground penetrating radar (GPR) systems. Moreover, the increasing computer power enables the use of accurate forward modeling programs in advanced inversion algorithms where no approximations are used and the full information content of the measured data can be exploited. Here, recent developments of large-scale quantitative EMI inversion and full-waveform GPR inversion are discussed that yield higher resolution of quantitative medium properties compared to conventional approaches. In both cases a detailed forward model is used in the inversion procedure that is based on Maxwell's equations. The multi-channel EMI data that have different sensing depths for the different source-receiver offset are calibrated using a short electrical resistivity tomography (ERT) calibration line which makes it possible to invert for electrical conductivity changes with depth over large areas. The crosshole GPR full-waveform inversion yields significant higher resolution of the permittivity and conductivity images compared to ray-based inversion results.

     

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  • Abdu, H., Robinson, D. A., Seyfried, M., et al., 2008. Geophysical Imaging of Watershed Subsurface Patterns and Prediction of Soil Texture and Water Holding Capacity. Water Resources Research, 44(4): WR007043. doi: 10.1029/2008wr007043
    Ernst, J. R., Maurer., H., Green, A. G., et al., 2007. Full-Waveform Inversion of Crosshole Radar Data Based on 2-D Finite-Difference Time-Domain Solutions of Maxwell's Equations. IEEE Transactions on Geoscience and Remote Sensing, 45(9): 2807–2828. doi: 10.1109/tgrs.2007.901048
    Gueting, N., Klotzsche, A., van der Kruk, J., et al., 2015. Imaging and Characterization of Facies Heterogeneity in an Alluvial Aquifer Using GPR Full-Waveform Inversion and Cone Penetration Tests. Journal of Hydrology, 524: 680–695. doi: 10.1016/j.jhydrol.2015.03.030
    Klotzsche, A., van der Kruk, J., Bradford, J., et al., 2014. Detection of Spatially Limited High-Porosity Layers Using Crosshole GPR Signal Analysis and Full-Waveform Inversion. Water Resources Research, 50(8): 6966–6985 doi: 10.1002/2013WR015177
    Klotzsche, A., van der Kruk, J., Linde, N., et al., 2013. 3-D Characterization of High-Permeability Zones in a Gravel Aquifer Using 2-D Crosshole GPR Full-Waveform Inversion and Waveguide Detection. Geophysical Journal International, 195(2): 932–944. doi: 10.1093/gji/ggt275
    Klotzsche, A., van der Kruk, J., Meles, G. A., et al., 2010. Full-Waveform Inversion of Cross-Hole Ground-Penetrating Radar Data to Characterize a Gravel Aquifer Close to the Thur River, Switzerland. Near Surface Geophysics, 8(1750): 631–646. doi: 10.3997/1873-0604.2010054
    Klotzsche, A., van der Kruk, J., Meles, G. A., et al., 2012. Crosshole GPR Full-Waveform Inversion of Waveguides Acting as Preferential Flow Paths within Aquifer Systems. Geophysics, 77(4): H57–H62 http://adsabs.harvard.edu/abs/2012Geop...77H..57K
    Kurzmann, A., Przebindowska, A., Kohn, D., et al., 2013. Acoustic Full Waveform Tomography in the Presence of Attenuation: A Sensitivity Analysis. Geophysical Journal International, 195(2): 985–1000. doi: 10.1093/gji/ggt305
    Lavoué, F., Brossier, R., Metivier, L., et al., 2014. Two-Dimensional Permittivity and Conductivity Imaging by Full Waveform Inversion of Multioffset GPR Data: A Frequency-Domain Quasi-Newton Approach. Geophysical Journal International, 197(1): 248–268. doi: 10.1093/gji/ggt528
    Lavoué, F., van der Kruk, J., Rings, J., et al., 2010. Electromagnetic Induction Calibration Using Apparent Electrical Conductivity Modelling Based on Electrical Resistivity Tomography. Near Surface Geophysics, 8(1750): 3–11. doi: 10.3997/1873-0604.2010037
    Meles, G. A., Greenhalgh, S. A., van der Kruk, J., et al., 2011. Taming the Non-Linearity Problem in GPR Full-Waveform Inversion for High Contrast Media. Journal of Applied Geophysics, 73(2): 174–186. doi: 10.1016/j.jappgeo.2011.01.001
    Meles, G. A., van der Kruk, J., Greenhalgh, S. A., et al., 2010. A New Vector Waveform Inversion Algorithm for Simultaneous Updating of Conductivity and Permittivity Parameters from Combination Crosshole/Borehole-To-Surface GPR Data. IEEE Transactions on Geoscience and Remote Sensing, 48(9): 3391–3407. doi: 10.1109/tgrs.2010.2046670
    Mester, A., van der Kruk, J., Zimmermann, E., et al., 2011. Quantitative Two-Layer Conductivity Inversion of Multi-Configuration Electromagnetic Induction Measurements. Vadose Zone Journal, 10(4): 1319–1330. doi: 10.2136/vzj2011.0035
    Monteiro Santos, F. A., Triantafilis, J., Bruzgulis, K. E., et al., 2010. Inversion of Multiconfiguration Electromagnetic (DUALEM-421) Profiling Data Using a One-Dimensional Laterally Constrained Algorithm. Vadose Zone Journal, 9(1): 117–125. doi: 10.2136/vzj2009.0088
    Nüsch, A. K., Dietrich, P., Werban, U., et al., 2010. Acquisition and Reliability of Geophysical Data in Soil Science. 19th World Congress of Soil Science: Soil Solutions for a Changing World, Brisbane. 21–24
    Oberröhrmann, M., Klotzsche, A., Vereecken, H., et al., 2013. Optimization of Acquisition Setup for Cross-Hole GPR Full-Waveform Inversion Using Checkerboard Analysis. Near Surface Geophysics, 11(1967): 197–209. doi: 10.3997/1873-0604.2012045
    Robinson, D. A., Lebron, I., Lesch, S. M., et al., 2004. Minimizing Drift in Electrical Conductivity Measurements in High Temperature Environments Using the EM-38. Soil Science Society of America Journal, 68(2): 339–345. doi: 10.2136/sssaj2004.3390
    Rudolph, S., van der Kruk, J., von Hebel, C., et al., 2015. Linking Satellite Derived LAI Patterns with Subsoil Heterogeneity Using Large-Scale Ground-Based Electromagnetic Induction Measurements. Geoderma, 241–242: 262–271. doi: 10.1016/j.geoderma.2014.11.015
    Saey, T., De Smedt, P. D., Islam, M. M., et al., 2012. Depth Slicing of Multi-Receiver EMI Measurements to Enhance the Delineation of Contrasting Subsoil Features. Geoderma, 189–190: 514–521. doi: 10.1016/j.geoderma.2012.06.010
    Stadler, A., Rudolph, S., Kupisch, M., et al., 2015. Quantifying the Effects of Soil Variability on Crop Growth Using Apparent Soil Electrical Conductivity Measurements. European Journal of Agronomy, 64: 8–20. doi: 10.1016/j.eja.2014.12.004
    Virieux, J., Operto, S., 2009. An Overview of Full-Waveform Inversion in Exploration Geophysics. Geophysics, 74(6): WCC1–WCC26. doi: 10.1190/1.3238367
    von Hebel, C. V., Rudolph, S., Mester, A., et al., 2014. Three-Dimensional Imaging of Subsurface Structural Patterns Using Quantitative Large-Scale Multiconfiguration Electromagnetic Induction Data. Water Resources Research, 50(3): 2732–2748. doi: 10.1002/2013wr014864
    Yang, X., Klotzsche, A., Meles, G. A., et al., 2013a. Improvements in Crosshole GPR Full-Waveform Inversion and Application on Data Measured at the Boise Hydrogeophysics Research Site. Journal of Applied Geophysics, 99: 114–124. doi: 10.1016/j.jappgeo.2013.08.007
    Yang, X., van der Kruk, J., Bikowski, J., et al., 2013b. Frequency-Domain Full-Waveform Inversion of GPR Data. Near-Surface Geophysics and Environment Protection, 8409(12): 344–348
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