Rapidness and Robustness of Finite-Source Inversion of the 2011 M^sub w^ 9.0 Tohoku Earthquake by an Elliptical-Patches Method Using Continuous GPS and Acceleration Data

Issue Title: Special issue: Tsunami Science. Ten Years after the 2004 Indian Ocean Tsunami. Volume II The kinematic rupture process of the 2011 M^sub w^ 9.0 Tohoku earthquake is inverted with an elliptical-patches method, using a genetic algorithm, for the purpose of rapid and robust estimation of t...

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Veröffentlicht in:	Pure and applied geophysics 2015-12, Vol.172 (12), p.3439
Hauptverfasser:	Ulrich, Thomas, Aochi, Hideo
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Sprache:	eng
Schlagworte:	Earthquakes Global positioning systems GPS Kinematics Seismic activity Tsunamis
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description	Issue Title: Special issue: Tsunami Science. Ten Years after the 2004 Indian Ocean Tsunami. Volume II The kinematic rupture process of the 2011 M^sub w^ 9.0 Tohoku earthquake is inverted with an elliptical-patches method, using a genetic algorithm, for the purpose of rapid and robust estimation of the source parameters of a mega-earthquake. We use the ground-displacement field provided by a continuous GPS network and the ground-velocity field recorded by acceleration networks. In addition to the typical inversion procedure in which a data duration long enough to cover the whole rupture process is used, inversions based on shorter signals, giving an incomplete view over the ground shaking sequence, are also carried out. How fast can a robust estimation of the source parameters be obtained? Using the elliptical approximation, we find that robust solutions of M^sub w^ ~ 9.0-earthquakes are rather quickly obtained regardless of the frequency band and the elliptical patch description. It is also confirmed that, because of the absence of off-shore recording stations on the east side of the fault, some uncertainties in the rupture process cannot be completely removed. In fact, at the very low frequencies considered, the western part of the fault (deeper portion) contributes more significantly to the recorded signals than does the other end close to the trench. This problem also prevents refinement of the description of the rupture process, in particular when using more than one ellipse.
doi_str_mv	10.1007/s00024-014-0857-0
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It is also confirmed that, because of the absence of off-shore recording stations on the east side of the fault, some uncertainties in the rupture process cannot be completely removed. In fact, at the very low frequencies considered, the western part of the fault (deeper portion) contributes more significantly to the recorded signals than does the other end close to the trench. 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It is also confirmed that, because of the absence of off-shore recording stations on the east side of the fault, some uncertainties in the rupture process cannot be completely removed. In fact, at the very low frequencies considered, the western part of the fault (deeper portion) contributes more significantly to the recorded signals than does the other end close to the trench. This problem also prevents refinement of the description of the rupture process, in particular when using more than one ellipse.</abstract><cop>Basel</cop><pub>Springer Nature B.V</pub><doi>10.1007/s00024-014-0857-0</doi></addata></record>
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subjects	Earthquakes Global positioning systems GPS Kinematics Seismic activity Tsunamis
title	Rapidness and Robustness of Finite-Source Inversion of the 2011 M^sub w^ 9.0 Tohoku Earthquake by an Elliptical-Patches Method Using Continuous GPS and Acceleration Data
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