Noise Reduction for Down-hole Three-component TEM probes

James Cull; Duncan Massie

doi:10.1071/ASEG2001ab027

ISSN: 2202-0586
E-ISSN:

oa Noise Reduction for Down-hole Three-component TEM probes
Authors James Cull^a and Duncan Massie^b
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^a Monash University Monash University,, [email protected] ^b Monash University Monash University,, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2001, Issue ASEG2001 - 15th Geophysical Conference, Dec 2001, p. 1 - 3
DOI: https://doi.org/10.1071/ASEG2001ab027
- Published online: 01 Dec 2001

Abstract

Three-component downhole TEM probes can provide a unique service for mineral exploration surveys. Apart from assisting with target recognition the individual vectors can be used to resolve rotational ambiguities associated with filament inversion routines. However noise levels in the crosshole components are often considered to be extreme compared to data obtained with the more common axial probes.

Substantial improvements in data quality are unlikely in view of the physical limitations relating to probe construction. In particular core materials are relatively ineffective in the short crosshole sections and consequently there is no substantial gain in effective physical area. In addition background noise levels in the horizontal EM field may be 5 times larger than for the vertical field. Consequently digital filters and advanced numerical techniques are required to improve data quality in post survey processing.

Deconvolution involving exponential basis functions can provide substantial improvements in crosshole data assuming consistent decay curves scaled for variations in coupling. Apart from reductions in noise the verification of a uniform decay can eliminate the possibility of spurious axial anomalies associated with an extreme core response. More complex scaling factors are required for complex conductors with several iterations to establish the extent of coupling for each source.

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References

Basford, P., and Hughes, N., 2000, Geophysical response of the Hercules base metal deposit: A case study from western Tasmania: Exploration Geophysics, 31, 531-542.
Cull, J.P., 1996, Sensor response and resolution in downhole TEM data: Exploration Geophysics, 27, 167-169.
Cull, J.P., 1993, Downhole three-component TEM probes: Exploration Geophysics, 24, 437-442.
Duncan, A.C., and Cull, J.P., 1988, Three-component downhole TEM surveys: Exploration Geophysics, 19, 51-53..
Duncan, A.C., Amann, B., O'Keeffe, K., Williams, P., Tully, T., Wellington, A., and Turner, G. 1998, Examples from a new EM and electrical methods receiver system: Exploration Geophysics, 29, 347-354.
Massie, D., 1999, Late-time TEM constraints and conductivity profiles for structural mapping: Ph.D. Thesis, Monash University.
McCracken, K.G., Pik, J.P., and Harris, R.W., 1984, Noise in EM exploration systems: Exploration Geophysics, 15, 169-174. Spies, B.R., 1988, Local noise prediction filtering for central induction transient electromagnetic sounding: Geophysics, 53, 1068-1079.
Stolz, E.M., and Macnae, J., 1998, Evaluating EM waveforms by singular-value decomposition of exponential basis functions: Geophysics, 63, 64-74.

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Article Type: Research Article

Keyword(s): decay curve; downhole probes; exponentials; noise reduction; TEM; three-component

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