NGA Project Strong-Motion Database

Chiou, Brian; Darragh, Robert B.; Gregor, Nick; Silva, Walter

doi:10.1193/1.2894831

Cited by 667 publications

(374 citation statements)

References 26 publications

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“…used to compute the spectra [Boore et al, 2012;Chiou et al, 2008]. The response spectra were also computed for each horizontal component of the records following the Nigam and Jennings [1969] method with a damping of 5%.…”

Section: 1002/2017gl073023mentioning

confidence: 99%

An 8 month slow slip event triggers progressive nucleation of the 2014 Chile megathrust

Socquet

Valdes

Jara

et al. 2017

Geophysical Research Letters

181

145

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The mechanisms leading to large earthquakes are poorly understood and documented. Here we characterize the long‐term precursory phase of the 1 April 2014 Mw8.1 North Chile megathrust. We show that a group of coastal GPS stations accelerated westward 8 months before the main shock, corresponding to a Mw6.5 slow slip event on the subduction interface, 80% of which was aseismic. Concurrent interface foreshocks underwent a diminution of their radiation at high frequency, as shown by the temporal evolution of Fourier spectra and residuals with respect to ground motions predicted by recent subduction models. Such ground motions change suggests that in response to the slow sliding of the subduction interface, seismic ruptures are progressively becoming smoother and/or slower. The gradual propagation of seismic ruptures beyond seismic asperities into surrounding metastable areas could explain these observations and might be the precursory mechanism eventually leading to the main shock.

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Section: 1002/2017gl073023mentioning

confidence: 99%

An 8 month slow slip event triggers progressive nucleation of the 2014 Chile megathrust

Socquet

Valdes

Jara

et al. 2017

Geophysical Research Letters

181

145

View full text Add to dashboard Cite

show abstract

“…The two prevailing modes define the modal principal axes of Pedini bridge ( Figure 6, system O-M1-M2) and they become identical with the geometric principal axes ( Figure 6, system Oxy), something that is caused by the straight in plan geometry of the selected bridge. At first, the dynamic response of the selected bridge for different angles of incidence of the bidirectional excitation is investigated in comparison to the simpler case of unidirectional excitation for seven ground motions (Table 2), which have been selected according to the following procedure: At first, 30 ground motions with magnitude, M, from 5.8 to 6.8 and epicentral distance, R, from 15km to 40km were selected; 5 of them are records from greek earthquakes and they were extracted from the European Strong Motion Database (Ambraseys et al 2000), while the rest 25 are records from all over the world and they were extracted from the PEER-NGA database (Chiou et al 2008) using the ISSARS software (Katsanos et al 2011). Apart from the (M, R) criterion, the similarity of the response spectra of the records and those of the spectrum used for the design of the bridge (A g = 0.16g, Soil C) was also considered in the selection, while an effort was also made to select records from different earthquakes, to avoid bias in the results.…”

Section: Derivation Of Multidirectional Pushover Curvesmentioning

confidence: 99%

Assessment of concrete bridges subjected to ground motion with an arbitrary angle of incidence: static and dynamic approach

Moschonas

Kappos

2012

Bull Earthquake Eng

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“…When processing strong-motion data for the Next Generation Attenuation (NGA) database the cut-off frequencies of both low-and high-cut filters were selected by visual inspection of each time series and associated FAS (Darragh et al, 2004;Chiou et al, 2008). This is unusual, as the individual selection of high-cut filters has not generally been standard practice in processing strong-motion data, for even if care is taken in the choice of low-cut filters, uniform high-cut filters are often employed (e.g.…”

Section: Previous Studiesmentioning

confidence: 99%

High-frequency filtering of strong-motion records

Douglas

Boore

2010

Bull Earthquake Eng

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The influence of noise in strong-motion records is most problematic at low and high frequencies where the signal to noise ratio is commonly low compared to that in the mid-spectrum. The impact of low-frequency noise (< 1 Hz) on strong-motion intensity parameters such as ground velocities, displacements and response spectral ordinates can be dramatic and consequentially it has become standard practice to low-cut (high-pass) filter strong-motion data with corner frequencies often chosen based on the shape of Fourier amplitude spectra and the signal-to-noise ratio. It has been shown that response spectral ordinates should not be used beyond some fraction of corner period (reciprocal of the corner frequency) of the low-cut filter. This article examines the effect of high-frequency noise (> 5 Hz) on computed pseudo-absolute response spectral accelerations (PSAs). In contrast to the case of low-frequency noise our analysis shows that filtering to remove high-frequency noise is only necessary in certain situations and that PSAs can often be used up to 100 Hz even if much lower high-cut corner frequencies are required to remove the noise. This apparent contradiction can be explained by the fact that PSAs are often controlled by ground accelerations associated with much lower frequencies than the natural frequency of the oscillator because path and site attenuation (often modelled by Q and κ, respectively) have removed the highest frequencies. We demonstrate that if high-cut filters are to be used, then

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NGA Project Strong-Motion Database

Cited by 667 publications

References 26 publications

An 8 month slow slip event triggers progressive nucleation of the 2014 Chile megathrust

An 8 month slow slip event triggers progressive nucleation of the 2014 Chile megathrust

Assessment of concrete bridges subjected to ground motion with an arbitrary angle of incidence: static and dynamic approach

High-frequency filtering of strong-motion records

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