Topographic modelling and correction in frequency-domain airborne electromagnetics
Yutaka Sasaki and Hiroomi Nakazato
ASEG Extended Abstracts
2003(2) 1 - 4
Published: 2003
Many helicopter-borne electromagnetic (HEM) surveys have been carried out in mountainous areas. However, the effects of topography on the HEM response have not been reported in the literature for a long time. We simulate the response to topography using a staggered-grid finite-difference method. Modelling shows that a hill produces a high-resistivity anomaly over its top and a low-resistivity anomaly over its foot (when the magnetic-field response is transformed into the apparent resistivity) and that topographic effects increase with increasing frequency. In order to reduce those effects, a simple correction procedure is presented and tested on synthetic data. Results indicate that the corrected data do not reproduce the effects of the actual resistivity structure accurately enough to permit the quantitative interpretation assuming a flat-earth model. The reason for this is that the geometrical relationship between the coil system and the subsurface structure changes. The most rigorous and accurate approach to interpreting HEM data with topographic effects is to incorporate a forward-solution scheme capable of modelling topography into inversions. A 3-D inversion method is successfully tested on synthetic data.F2
Full text doi:10.1071/ASEG2003ab153
© ASEG
2003
