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Host: Institute for Mathematics and its Applications
Homepage: http://www.ima.umn.edu/geoscience/spring/g9.html
Email: staff@ima.umn.edu
Organizers: William W.Symes, Philip Stark, John Scales, C. Deutsch
Description:
All indirect inference of parameters and system states in the Earth sciences is subject to
uncertainty. The model description of the physical processes underlying the inference is
necessarily oversimplified, data are measured with limited accuracy, and simulation methods are
necessarily approximate. Each of these causes contributes to the overall uncertainty of Earth
property estimates. Model parameterization affects the level of ambiguity, and trades off in
many problems with explanatory power. The complexity of the Earth system imposes other
limitations: many features of the subsurface have an aggregate effect on the data, and
estimation of these subresolution aspects of models is subject to great ambiguity.
Many approaches have been proposed to quantify this uncertainty, including linear sensitivity analysis, Bayesian PDF estimation, minimax, construction of solutions that are extremal in some sense, and many others. Some of these techniques are even used. This workshop will explore the capabilities and shortcomings of current methodology in a wide variety of contexts. The juxtaposition of many different applications in which roughly the same uncertainty questions arise is meant to provoke much needed progress towards better understanding of the information content of geophysical data.
Keywords: tomography---whole Earth, crustal, crosswell, ocean acoustic; imaging/inversion--crustal, exploration/exploitation, near surface multispectral imaging, remote sensing gravity, magnetics, electromagnetics; helioseismology; earthquake source mechanisms
Date received: January 31, 2001, revised September 09, 2002
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