Empirical Model for Basin Effects Accounts for Basin Depth and Source Location

doi:10.1785/0120040208

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Bulletin of the Seismological Society of America; August 2005; v. 95; no. 4; p. 1412-1427; DOI: 10.1785/0120040208
© 2005 Seismological Society of America

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Empirical Model for Basin Effects Accounts for Basin Depth and Source Location

Yoojoong Choi¹, Jonathan P. Stewart² and Robert W. Graves³

¹ GeoPentech
Santa Ana, California
Yoojoong-choi{at}geopentech.com
(Y.C.)

² Civil and Environmental Engineering Department
University of California
5731 Boelter Hall
Los Angeles, California 90095
jstewart{at}seas.ucla.edu
(J.P.S.)

³ URS Corporation
Pasadena, California
Robert-Graves{at}URScorp.com
(R.W.G.)

Empirical relationships are developed to predict amplificationfactors for 5% damped response spectral acceleration that incorporatebasin response effects. The parameters considered are depthto the 1.5 km/sec shear-wave isosurface (z_1.5) as well as thelocation of the source beneath or outside the perimeter of the basin in which the site is located. Sites located in a basinoverlying the source are denoted as having coincident sourceand site basin locations (CBL) and are differentiated from distinctsource and site basin locations (DBL). Amplification factorsfor CBL and DBL sites are evaluated from simulated data (developedby others) and strong-motion data. Amplification factors derivedfrom strong-motion recordings are taken as residuals of rockattenuation relations coupled with amplification factors forshallow-site conditions. Models relating amplification to z_1.5were developed separately for the CBL and DBL data groups. Theresults indicate that the use of basin models is generally worthwhilefor periods T $≥$ 0.75 sec. At those long periods, residuals aresignificantly sensitive to z_1.5 for CBL but not for DBL. Thestandard deviation is also reduced for long periods to an extentthat the standard deviations for long and short periods aresimilar.

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