A framework for fast probabilistic centroid-moment-tensor determination-inversion of regional static displacement measurements

Publication date

2014

Authors

Käufl, PaulISNI 0000000506769694
Valentine, AndrewISNI 0000000419558581
O'Toole, T.B.
Trampert, JeannotISNI 0000000392661211

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Document Type

Article
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Abstract

The determination of earthquake source parameters is an important task in seismology. For many applications, it is also valuable to understand the uncertainties associated with these determinations, and this is particularly true in the context of earthquake early warning (EEW) and hazard mitigation. In this paper, we develop a framework for probabilistic moment tensor point source inversions in near real time. Our methodology allows us to find an approximation to p(md), the conditional probability of source models (m) given observations (d). This is obtained by smoothly interpolating a set of random prior samples, using Mixture Density Networks (MDNs)-a class of neural networks which output the parameters of a Gaussian mixture model. By combining multiple networks as 'committees', we are able to obtain a significant improvement in performance over that of a single MDN. Once a committee has been constructed, new observations can be inverted within milliseconds on a standard desktop computer. The method is therefore well suited for use in situations such as EEW, where inversions must be performed routinely and rapidly for a fixed station geometry. To demonstrate the method, we invert regional static GPS displacement data for the 2010 MW 7.2 El Mayor Cucapah earthquake in Baja California to obtain estimates of magnitude, centroid location and depth and focal mechanism. We investigate the extent to which we can constrain moment tensor point sources with static displacement observations under realistic conditions. Our inversion results agree well with published point source solutions for this event, once the uncertainty bounds of each are taken into account.

Keywords

Neural networks, fuzzy logic, Inverse theory, Probabilistic forecasting, Probability distributions, Earthquake source observations, Early warning

Citation

Käufl, P J, Valentine, A P, O'Toole, T B & Trampert, J 2014, 'A framework for fast probabilistic centroid-moment-tensor determination-inversion of regional static displacement measurements', Geophysical Journal International, vol. 196, no. 3, pp. 1676-1693. https://doi.org/10.1093/gji/ggt473