ValeriaBarbosa_GM1.ppt (10.06 MB)

Presentation: 3D gravity inversion incorporating prior information through an adaptive learning procedure

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posted on 2013-03-11, 16:16 authored by Fernando J. S. Silva Dias, Valeria C. F. BarbosaValeria C. F. Barbosa, João B. C. Silva

Slides for the oral presentation "3D gravity inversion incorporating prior information through an adaptive learning procedure" presented at the SEG International Exposition and Seventy-Seventh Annual Meeting in San Antonio, Texas, USA.


We have developed a gravity inversion method to estimate a 3D density-contrast distribution producing strongly interfering gravity anomalies. The interpretation model consists of a grid of 3D vertical, juxtaposed prisms in the horizontal and vertical directions. Iteratively, our approach estimates the 3D density-contrast distribution that fits the observed anomaly within the measurement errors and favors compact gravity sources closest to prespecified geometric elements such as axes and points. This method retrieves the geometry of multiple gravity sources whose density contrasts positive and negative values are prescribed by the interpreter through the geometric element. At the first iteration, we set an initial interpretation model and specify the first-guess geometric elements and their target density contrasts. Each geometric element operates as the first-guess skeletal outline of the entire homogeneous gravity source or any of its homogeneous parts to be reconstructed. From the second iteration on, our method automatically redefines a new set of geometric elements, the associated target density contrasts, and a new interpretation model whose number of prisms increases with the iteration. The iteration stops when the geometries of the estimated sources are invariant along successive iterations. Tests on synthetic data from geometrically complex bodies and on field data collected over a mafic-ultramafic body and a volcanogenic sedimentary sequence located in the Tocantins Province, Brazil, confirmed the potential of our method in producing a sharp image of multiple and adjacent bodies.


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