Earthquake source parameters from GPS-measured static displacements with potential for real-time application
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Publication date
2013
Authors
O'Toole, T.B.
Valentine, A.P.
Woodhouse, J.H.
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Document Type
Article
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(c) UU Universiteit Utrecht, 2013
Abstract
We describe a method for determining an optimal centroid–
moment tensor solution of an earthquake from a set
of static displacements measured using a network of Global
Positioning System receivers. Using static displacements
observed after the 4 April 2010, MW 7.2 El Mayor-Cucapah,
Mexico, earthquake, we perform an iterative inversion to
obtain the source mechanism and location, which minimize
the least-squares difference between data and synthetics.
The efficiency of our algorithm for forward modeling static
displacements in a layered elastic medium allows the inversion
to be performed in real-time on a single processor without
the need for precomputed libraries of excitation kernels;
we present simulated real-time results for the El Mayor-
Cucapah earthquake. The only a priori information that
our inversion scheme needs is a crustal model and approximate
source location, so the method proposed here may represent
an improvement on existing early warning
approaches that rely on foreknowledge of fault locations
and geometries.