Journal Article10.1785/GSSRL.68.1.128
Equations for Estimating Horizontal Response Spectra and Peak Acceleration from Western North American Earthquakes: A Summary of Recent Work
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TL;DR: In this article, the authors provide tables for estimating random horizontal component peak acceleration and 5 percent damped pseudo-acceleration response spectra in terms of the natural, rather than common, logarithm of the ground-motion parameter.
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Abstract: In this paper we summarize our recently-published work on estimating horizontal response spectra and peak acceleration for shallow earthquakes in western North America. Although none of the sets of coefficients given here for the equations are new, for the convenience of the reader and in keeping with the style of this special issue, we provide tables for estimating random horizontal-component peak acceleration and 5 percent damped pseudo-acceleration response spectra in terms of the natural, rather than common, logarithm of the ground-motion parameter. The equations give ground motion in terms of moment magnitude, distance, and site conditions for strike-slip, reverse-slip, or unspecified faulting mechanisms. Site conditions are represented by the shear velocity averaged over the upper 30 m, and recommended values of average shear velocity are given for typical rock and soil sites and for site categories used in the National Earthquake Hazards Reduction Program's recommended seismic code provisions. In addition, we stipulate more restrictive ranges of magnitude and distance for the use of our equations than in our previous publications. Finally, we provide tables of input parameters that include a few corrections to site classifications and earthquake magnitude (the corrections made a small enough difference in the ground-motion predictions that we chose not to change the coefficients of the prediction equations).
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Citations
Preliminary Analysis of Strong-motion Recordings from the 28 September 2004 Parkfield, California Earthquake
Anthony F. Shakal,Vladimir Graizer,Moh Huang,Roger D. Borcherdt,Hamid Haddadi,Kuo-Wan Lin,C.D. Stephens,Peter Roffers +7 more
TL;DR: Langbein et al. as mentioned in this paper provided a detailed description of the arrays and the resultant strong-motion measurements of the mainshock, as well as preliminary observations.
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How Can Seismic Hazard around the New Madrid Seismic Zone Be Similar to That in California
TL;DR: In this paper, the authors explain how seismic hazard at low probability levels can be similar, for some ground-motion parameters, in the vicinity of the New Madrid seismic zone in the central U.S. to the hazard in parts of California, despite the different earthquake recurrence rates in the two areas.
Determination of inelastic seismic demands of RC moment resisting setback frames
TL;DR: In this paper, an extensive parametric study is conducted on plane RC moment resisting frames with setbacks, and a parameter called "irregularity index" is proposed based on the dynamic characteristics of the frame to quantify the setback irregularity.
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Empirical equations for the prediction of the equivalent number of cycles of earthquake ground motion
TL;DR: In this paper, the strong motion database assembled in the Next Generation of Attenuation (NGA) project is used to derive equations for two different measures of the effective numbers of cycles of ground motion as functions of magnitude, distance, and site classification.
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Influence of ground-motion correlation on probabilistic assessments of seismic hazard and loss: sensitivity analysis
TL;DR: In this paper, the effects of variations in the between-earthquake correlation and in the site-to-site correlation on probabilistic estimations of seismic damage and loss for the extended objects (hypothetical portfolio) and critical elements (e.g. bridges) of a network were compared.
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