RINVERT for Windows Software for the Interpretation of Resistivity Soundings

N.P. Merrick; E. Poezd

doi:10.1071/EG997110

ISSN: 0812-3985
E-ISSN: 1834-7533

RINVERT for Windows Software for the Interpretation of Resistivity Soundings
Authors N.P. Merrick^a and E. Poezd^b
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^a National Centre for Groundwater Management, University of Technology, Sydney, , PO Box 123, Broadway, , NSW, 2007, , Australia, . Phone: (02) 9514 1984, Facsimile: (02) 9514 1985, e-mail: [email protected] ^b C Vision Pty Ltd, , 185 Elizabeth Street, Sydney, , NSW, 2000, .
Publisher: Australian Society of Exploration Geophysicists
Source: Exploration Geophysics, Volume 28, Issue 1-2, Mar 1997, p. 110 - 113
DOI: https://doi.org/10.1071/EG997110
- Published online: 01 Mar 1997

Abstract

The usual interpretation model for resistivity soundings is a one-dimensional Earth which consists of multiple horizontal layers, each isotropic and homogeneous. The standard interpretation method is least-squares inversion. This paper introduces a software package called RINVERT for Windows which has been developed in Australia for the routine interpretation of resistivity soundings in a Windows^TM environment. It has been designed to handle the Schlumberger, Wenner and Bipole-Bipole electrode arrays. For feasibility studies, training, or testing the closeness of an initial model, RINVERT for Windows provides a forward modelling facility as an adjunct to its least-squares inverse modelling procedure. An important feature of RINVERT for Windows is the incorporation of a Monte Carlo equivalence analysis which allows an automatic assessment of the extent of equivalence in each layer. Most of the effort required in preparing the resistivity survey report has been obviated by an automatic report generator, which generates and captions high quality figures and tables ready for incorporation in a report. An extensive Help facility, which is useful for novices, includes a hypertext glossary and an explanation of resistivity method fundamentals. The software is supported by a 110-page Users Guide with a step-by-step tutorial.

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References

C. Vision, 1995, RINVERT for Windows Users Guide: C Vision Pty Ltd, Sydney. 110pp.
Davis, P.A., Greenhalgh, S.A. and Merrick, N.P., 1980, Resistivity sounding computations with any array using a single digital filter: Australian Society of Exploration Geophysicists, Bulletin 11, 54-62.
Jennings, L.S. & Osborne, M.R., 1970, Applications of orthogonal matrix transformations to the solution of systems of linear equations: Australian National University Computer Centre, Canberra, Technical Report 37, 45pp. (unpublished).
Marquardt, D.W., 1963, An algorithm for least-squares estimation of non-linear parameters: Journal of the Society for Industrial Applied Mathematics 11, 431-441.
Merrick, N.P., 1977, Resistivity sounding for groundwater: M.Sc. Thesis, University of Sydney, (unpublished).
Merrick, N. P., 1996, The electrical resistivity method. In: Zannetti P. ed., Environmental modeling Vol.3: Computer methods and software for simulating environmental pollution and its adverse effects. Computational Mechanics Publications, Southampton, 329-370.
O’Neill, D.J. and Merrick, N.P., 1984, A digital linear filter for resistivity sounding with a generalized electrode array: Geophysical Prospecting 32, 105-123.

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Article Type: Research Article

Keyword(s): equivalence; inversion; modelling; resistivity

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RINVERT for Windows Software for the Interpretation of Resistivity Soundings

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