Bootstrapping as a Means of Solution Ensemble Based Uncertainty Analysis in Geophysical Inversion Modelling

Sebastian Schnaidt; Graham Heinson

doi:10.1071/ASEG2013ab158

ISSN: 2202-0586
E-ISSN:

oa Bootstrapping as a Means of Solution Ensemble Based Uncertainty Analysis in Geophysical Inversion Modelling
Authors Sebastian Schnaidt^a and Graham Heinson^b
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^a Deep Exploration Technologies CRC, The University of AdelaideThe University of Adelaide, , SA, 5005, , Australia, [email protected] ^b Deep Exploration Technologies CRC, The University of AdelaideThe University of Adelaide, , SA, 5005, , Australia, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2013, Issue ASEG2013 - 23rd Geophysical Conference, Dec 2013, p. 1 - 4
DOI: https://doi.org/10.1071/ASEG2013ab158
- Published online: 01 Dec 2013

Abstract

Many geophysical models are created without satisfactory uncertainty analysis. Most geophysicists are aware of their model’s limitations, but if the model is passed on to a third party, this information is lost and the risk of misinterpretation arises.

This project develops multi-solution inversion techniques to improve inversion and joint inversion modelling of geophysical data in mineral exploration. The main focus is the advancement of the probability and uncertainty analysis of inversion models to increase their reliability. To create solution ensembles, a bootstrapping resampling approach is taken, which produces reduced data sets from a base data set by random omission of data points. Each of these new data sets is run through a conventional inversion process to produce a variety of solutions with minor variations.

In the appraisal stage the solution ensemble is statistically analysed to infer model uncertainties, which are then visualised to allow easy communication of the results. The process yields a clear and easy to interpret uncertainty map for the connected model and we demonstrate its effectiveness with several case studies.

Furthermore, we are currently investigating swarm intelligence based global search algorithms as a second approach to solution ensemble creation.

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References

Constable, S. C., Parker, R. L., & Constable, C. G., 1987, Occam’s inversion: A practical algorithm for generating smooth models from electromagnetic sounding data: Geophysics, 52, Nr. 3, 289-300.
Efron, B., 1979, Bootstrap methods: Another look at the Jackknife: The Annals of Statistics, 7, Nr. 1, 1-26.
Freedman, D.; Diaconis, P., 1981, On the histogram as a density estimator: L2 theory, Zeitschrift für Wahrscheinlichkeitstheorie und verwandte Gebiete, 57 (4): 453-476.
Robertson, K. E., 2012, An electrical resistivity model of the southeast Australian lithosphere and asthenosphere: Honours thesis, The University of Adelaide.
Lomax, A. & Snieder, R., 1995, Identifying sets of acceptable solutions to non-linear, geophysical inverse problems which have complicated mist functions: Nonlinear Processes in Geophysics 2, 222-227.
Moorkamp, M., Jones, A. G. & Fishwick, S., 2010, Joint inversion of receiver functions, surface wave dispersion, and magnetotelluric data: Journal of Geophysical Research 115, B04318.
Sambridge, M. & Drijkoningen, G., 1992, Genetic algorithms in seismic waveform inversion: Geophysical Journal International 109, 323-342.
Simpson, F., & Bahr, K., 2005, Practical magnetotellurics: Cambridge University Press.

/content/journals/10.1071/ASEG2013ab158

Article Type: Research Article

Keyword(s): bootstrapping; inversion modelling; magnetotellurics; solution ensemble; uncertainty analysis

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oa Bootstrapping as a Means of Solution Ensemble Based Uncertainty Analysis in Geophysical Inversion Modelling

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