A global database of strong-motion displacement GNSS recordings and an example application to PGD scaling
Author
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Ruhl, Christine J.
Author
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Melgar, Diego
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Allen, Richard M.
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Geng, Jianghui
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Goldberg, Dara E.
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Bock, Yehuda
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Crowell, Brendan W.
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Barrientos, Sergio
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Riquelme, Sebastian
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Baez, Juan Carlos
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Cabral-Cano, Enrique
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Pérez-Campos, Xyoli
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Hill, Emma M.
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Protti, Marino
Author
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Ganas, Atha
Admission date
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2019-10-15T12:26:10Z
Available date
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2019-10-15T12:26:10Z
Publication date
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2019
Cita de ítem
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Seismological Research Letters, Volumen 90, Issue 1, 2019, Pages 271-279
Identifier
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19382057
Identifier
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08950695
Identifier
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10.1785/0220180177
Identifier
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https://repositorio.uchile.cl/handle/2250/171761
Abstract
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Displacement waveforms derived from Global Navigation Satellite System (GNSS) data have become more commonly used by seismologists in the past 15 yrs. Unlike strong-motion accelerometer recordings that are affected by baseline offsets during very strong shaking, GNSS data record displacement with fidelity down to 0 Hz. Unfortunately, fully processed GNSS waveform data are still scarce because of limited public availability and the highly technical nature of GNSS processing. In an effort to further the use and adoption of high-rate (HR) GNSS for earthquake seismology, ground-motion studies, and structural monitoring applications, we describe and make available a database of fully curated HR-GNSS displacement waveforms for significant earthquakes. We include data from HR-GNSS networks at near-source to regional distances (1–1000 km) for 29 earthquakes between M w 6.0 and 9.0 worldwide. As a demonstration of the utility of this