A study for modeling path and site effects in consideration of spatial variation of earthquake ground motions

Eastern North America (ENA) is part of a region with low-to-moderate seismicity; nonetheless, some significant seismic events have occurred in the last few decades. Recent events have reemphasized the need to review ENA seismicity and ground motion models, along with continually reevaluating and updating procedures related to the seismic safety assessment of hydroelectric infrastructures, particularly large dams in Québec. Furthermore, recent researchers have shown that site-specific characteristics, topography, and valley shapes may significantly aggravate the severity of ground motions. To the best of our knowledge, very few instrumental data from actual earthquakes have been published for examining the site effects of hydroelectric dam structures located in eastern Canada. This article presents an analysis of three small earthquakes that occurred in 1999 and 2002 at the Denis-Perron (SM-3) dam. This dam, the highest in Québec, is a rockfill embankment structure with a height of 171 m and a length of 378 m; it is located in a narrow valley. The ground motion datasets of these earthquakes include the bedrock and dam crest three-component accelerometer recordings. Ground motions are analyzed both in the time and frequency domains. The spectral ratios and transfer functions obtained from these small earthquakes provide new insights into the directionality of resonant frequencies, vibration modes, and site effects for the Denis-Perron dam. The crest amplifications observed for this dam are also compared with previously published data for large dams. New statistical relationships are proposed to establish dam crest amplification on the basis of the peak ground acceleration (PGA) at the foundation.

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Variations between foundation-level recordings and free-field earthquake ground motions: numerical study at soft-soil sites

Soil Dynamics and Earthquake Engineering ◽

10.1016/j.soildyn.2020.106511 ◽

2021 ◽

Vol 141 ◽

pp. 106511

Author(s):

Francesco Cavalieri ◽

António A. Correia ◽

Rui Pinho

Keyword(s):

Numerical Study ◽

Ground Motions ◽

Soft Soil ◽

Free Field ◽

Earthquake Ground Motions

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Interstory drift based scaling of earthquake ground motions

Earthquake Engineering & Structural Dynamics ◽

10.1002/eqe.3534 ◽

2021 ◽

Author(s):

Numan Eren ◽

Halûk Sucuoğlu ◽

Rui Pinho

Keyword(s):

Ground Motions ◽

Earthquake Ground Motions ◽

Interstory Drift

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Analytical Collapse Study of Lightly Confined Reinforced Concrete Frames Subjected to Northridge Earthquake Ground Motions

Journal of Earthquake Engineering ◽

10.1080/13632460802003165 ◽

2008 ◽

Vol 12 (7) ◽

pp. 1105-1119 ◽

Cited By ~ 14

Author(s):

Wassim M. Ghannoum ◽

Jack P. Moehle ◽

Yousef Bozorgnia

Keyword(s):

Reinforced Concrete ◽

Ground Motions ◽

Northridge Earthquake ◽

Concrete Frames ◽

Reinforced Concrete Frames ◽

Earthquake Ground Motions

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Directivity in NGA Earthquake Ground Motions: Analysis Using Isochrone Theory

Earthquake Spectra ◽

10.1193/1.2928225 ◽

2008 ◽

Vol 24 (1) ◽

pp. 279-298 ◽

Cited By ~ 83

Author(s):

Paul Spudich ◽

Brian S. J. Chiou

Keyword(s):

Ground Motion ◽

Ground Motions ◽

Strike Slip ◽

Motion Prediction ◽

Spectral Acceleration ◽

Correction Factors ◽

Ground Motion Prediction ◽

Earthquake Ground Motions

We present correction factors that may be applied to the ground motion prediction relations of Abrahamson and Silva, Boore and Atkinson, Campbell and Bozorgnia, and Chiou and Youngs (all in this volume) to model the azimuthally varying distribution of the GMRotI50 component of ground motion (commonly called “directivity”) around earthquakes. Our correction factors may be used for planar or nonplanar faults having any dip or slip rake (faulting mechanism). Our correction factors predict directivity-induced variations of spectral acceleration that are roughly half of the strike-slip variations predicted by Somerville et. al. (1997), and use of our factors reduces record-to-record sigma by about 2–20% at 5 sec or greater period.

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Stochastic response of seismically isolated highway bridges with friction pendulum systems to spatially varying earthquake ground motions

Engineering Structures ◽

10.1016/j.engstruct.2005.05.016 ◽

2005 ◽

Vol 27 (13) ◽

pp. 1843-1858 ◽

Cited By ~ 26

Author(s):

Sevket Ates ◽

A. Aydin Dumanoglu ◽

Alemdar Bayraktar

Keyword(s):

Ground Motions ◽

Highway Bridges ◽

Stochastic Response ◽

Earthquake Ground Motions ◽

Seismically Isolated ◽

Friction Pendulum ◽

Spatially Varying

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Simulating and analyzing artificial nonstationary earthquake ground motions

Bulletin of the Seismological Society of America ◽

10.1785/bssa0720020615 ◽

1982 ◽

Vol 72 (2) ◽

pp. 615-636

Author(s):

Robert F. Nau ◽

Robert M. Oliver ◽

Karl S. Pister

Keyword(s):

Difference Equations ◽

Kalman Filters ◽

Ground Motions ◽

Structural Response ◽

Model Parameters ◽

Time Varying ◽

Nonparametric Method ◽

Linear Difference Equations ◽

Earthquake Ground Motions ◽

Earthquake Accelerograms

Abstract This paper describes models used to simulate earthquake accelerograms and analyses of these artificial accelerogram records for use in structural response studies. The artificial accelerogram records are generated by a class of linear linear difference equations which have been previously identified as suitable for describing ground motions. The major contributions of the paper are the use of Kalman filters for estimating time-varying model parameters, and the development of an effective nonparametric method for estimating the variance envelopes of the accelerogram records.

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