Earthquake source parameters from GPS-measured static displacements with potential for real-time application

Publication date

2013

Authors

O'Toole, T.B.
Valentine, A.P.
Woodhouse, J.H.

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

(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.

Keywords

Citation