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Journal of the Australian Society of Exploration Geophysicists
RESEARCH ARTICLE

An integrated processing scheme for high-resolution airborne electromagnetic surveys, the SkyTEM system

Esben Auken 1 5 Anders Vest Christiansen 2 Joakim H. Westergaard 3 Casper Kirkegaard 1 Nikolaj Foged 1 Andrea Viezzoli 4
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- Author Affiliations

1 The Hydrogeophysics Group, Department of Earth Sciences, University of Aarhus, Høegh-Guldbergs Gade 2, DK-8000 Aarhus C, Denmark.

2 Geological Survey of Denmark and Greenland – GEUS, Department of Groundwater Mapping, Lyseng Alle 1, DK-8270, Højbjerg, Denmark.

3 Orbicon A/S, Department of Water Resources and Applied Geophysics, Jens Juuls Vej 16, DK-8260, Viby J, Denmark.

4 Aarhus Geophysics, Høegh-Guldbergs Gade 2, DK-8000 Aarhus C, Denmark.

5 Corresponding author. Email: esben.auken@geo.au.dk

Exploration Geophysics 40(2) 184-192 https://doi.org/10.1071/EG08128
Submitted: 19 November 2008  Published: 17 June 2009

Abstract

The SkyTEM helicopter-borne transient electromagnetic system was developed in 2004. The system yields unbiased data from 10 to 12 μs after transmitter current turn-off. The system is equipped with several devices enabling a complete modelling of the movement of the system in the air, facilitating excellent high-resolution images of the subsurface.

An integrated processing and inversion system for SkyTEM data is discussed. While the authors apply this system with SkyTEM data, most of the techniques are applicable for airborne electromagnetic data in general. Altitude data are processed using a simple recursive filtering technique that efficiently removes reflections from trees. The technique is completely general and can be used to filter altitude data from any airborne system. Raw voltage data that are influenced by electromagnetic coupling to man-made structures are culled from the dataset to avoid uncoupled data being distorted by coupled data, and geometrical corrections are applied to correct for pitch and roll of the transmitter frame. Data are de-spiked and averaged using trapezoid-shaped filter kernels. A Laterally Constrained Inversion using smooth models is actively used to evaluate the processing, and the final inversion is tightly connected to the processing procedures.

Key words: airborne electromagnetic, altitude processing, constrained inversion, SkyTEM.


Acknowledgement

Professor Kurt Sørensen has greatly contributed to the research presented in this paper. We also need to thank the two reviewers, Dr A. Maddever and one anonymous; their comments have made the manuscript much easier to read.


References

Aarhus Geophysics, 2009, Aarhus Workbench. Available online at: http://www.aarhusgeo.com/products/workbench.html (accessed 9 May, 2009).

Auken, E., Christiansen, A. V., Jacobsen, L., and Sørensen, K. I., 2008, A resolution study of buried valleys using laterally constrained inversion of TEM data: Journal of Applied Geophysics 65, 10–20.
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Auken E. , Foged N. , Christiansen A. V. , and Sørensen K. I. , 2007 b, Enhancing the resolution of the subsurface by joint inversion of x- and z-component SkyTEM data. 19th Geophysical Conference and Exhibition, Australian Society of Exploration Geophysicists, Extended Abstracts.

Auken, E., Christiansen, A. V., Jacobsen, B. H., Foged, N., and Sørensen, K. I., 2005, Piecewise 1D Laterally Constrained Inversion of resistivity data: Geophysical Prospecting 53, 497–506.
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Reid J. E. , and Viezzoli A. , 2007, High-Resolution Near Surface Airborne Electromagnetics – SkyTEM Survey for Uranium Exploration at Pells Range, WA. 19th Geophysical Conference and Exhibition, Australian Society of Exploration Geophysicists, Extended Abstracts.

Sørensen, K. I., and Auken, E., 2004, SkyTEM? A new high-resolution helicopter transient electromagnetic system: Exploration Geophysics 35, 194–202.
Crossref | GoogleScholarGoogle Scholar | Viezzoli A. , Christiansen A. V. , Auken E. , and Sørensen K. I. 2007, Spatially Constrained Inversion for Quasi 3-D Modelling of AEM Data. 19th Geophysical Conference and Exhibition, Australian Society of Exploration Geophysicists, Extended Abstracts.