Site Classification Using Horizontal-to-vertical Response Spectral Ratios and its Impact when Deriving Empirical Ground-motion Prediction Equations

Fukushima, Yoshimitsu; Bonilla, Luis Fabián; Scotti, Oona; Douglas, John

doi:10.1080/13632460701457116

Cited by 63 publications

(53 citation statements)

References 12 publications

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“…They introduced an empirical site classification method based on the mean horizontal to vertical ratio of the acceleration response spectra (HVRSR), calculated assuming a 5% damping, across all periods for strong-motion stations in Japan. Fukushima et al (2007) classified sites based on their predominant period computed using average horizontal-to-vertical response spectra ratios and examined the impact of this classification scheme on empirical ground-motion prediction equations. The classification scheme was applied to the database by Fukushima et al (2003), and the aleatoric variability of these equations (measured by their standard deviations) was slightly lower than those derived using the simple soil or rock subdivision.…”

Section: Introductionmentioning

confidence: 99%

Proposal for a soil classification based on parameters alternative or complementary to Vs,30

Luzi

Puglia

Pacor

et al. 2011

Bull Earthquake Eng

114

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The selection of specific elastic response spectra according to soil categories is the easiest way to account for site effects in engineering projects and general-purpose hazard maps. Most of the international seismic codes make use of the average shear wave velocity of the upper 30 m (Vs ,30 ) to discriminate soil categories, although some doubts arose about the capability of Vs ,30 to predict actual soil amplification. In this work we propose two soil classifications in which the soil fundamental frequency (f 0 ) becomes either an alternative or a complement to Vs ,30 . The performance of the derived categorizations is achieved through the estimation of the standard deviation associated to ground motion prediction equations of acceleration response spectra, considering recordings extracted from the Italian strong motion data base. The results indicate that there is a significant reduction of the standard deviation when the classification is based on the couple of variables Vs ,30 -f 0 , although a classification based of the single f 0 also leads to satisfactory results, comparable with those obtained assuming a classification scheme based on Vs ,30 .

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Section: Introductionmentioning

confidence: 99%

Proposal for a soil classification based on parameters alternative or complementary to Vs,30

Luzi

Puglia

Pacor

et al. 2011

Bull Earthquake Eng

114

View full text Add to dashboard Cite

show abstract

“…Following Zhao et al [2], Fukushima et al [21] and Di Alessandro et al [1], we first evaluated the H/V ratios of the 5%-damped response spectra of the recorded earthquakes. The use of the response spectra instead of classical Fourier spectra is justified because it is largely used by engineers and has the advantage that the damping automatically removes most of the spikes in the spectra obtaining a smoothed shape [26].…”

Section: Methodsmentioning

confidence: 99%

Site classification for strong motion stations in Gujarat, India using response spectral ratio

Choudhury

Chopra

Roy

2016

Soil Dynamics and Earthquake Engineering

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“…When classifying site classes of Taiwan free-field strong motion stations, Lee et al (2001) concluded that this method is very helpful for evaluating class of a site where the geological and geotechnical information is lacking, and its classification results are reliable by comparing with the results of Kuo (1992Kuo ( , 1993Kuo ( , 1994. Fukushima et al (2007) discussed that although the HVSR method has a shortcoming for the site with a broadband response, in most cases it is useful for site classification even when information on the soil profile is lacking. Furthermore, the HVSR method is improved by designing a new index for probabilistic distribution of spectral shape (Ghasemi et al, 2009), or using neural network technique (self-organizing map, SOM) (Garniel et al, 2009), which makes the method more reasonable.…”

Section: Hvsr Classificationmentioning

confidence: 98%

Preliminary site classification of free-field strong motion stations based on Wenchuan earthquake records

et al. 2010

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During the great Wenchuan earthquake, about 460 permanent free-field stations in National Strong Motion Observation Network System (NSMONS) of China captured the main shock acceleration records. These records can be applied to site effect analyses, and then the site classification of those permanent stations can be carried out firstly, which will served as the fundamental information for further research. In this paper, the site of near-fault stations is classified by horizontal-to-vertical spectral ratio (HVSR) method according to the site class description of Japan earthquake resistant design code and response spectral shapes (RSS) method following the site class description of the 1997 Uniform Building Code (UBC) provisions. Then based on the detailed borehole data of those free-field stations, the equivalent shear wave velocity and overburden thickness are calculated and the site classifications are given by Chinese code for seismic design of buildings. Furthermore, for the stations having successful microtremor test data, the site dominant periods are computed to verify the results of site classification. Finally, combined with all the above results, the recommended site classes of near-fault permanent free-field stations are given.

show abstract

Site Classification Using Horizontal-to-vertical Response Spectral Ratios and its Impact when Deriving Empirical Ground-motion Prediction Equations

Cited by 63 publications

References 12 publications

Proposal for a soil classification based on parameters alternative or complementary to Vs,30

Proposal for a soil classification based on parameters alternative or complementary to Vs,30

Site classification for strong motion stations in Gujarat, India using response spectral ratio

Preliminary site classification of free-field strong motion stations based on Wenchuan earthquake records

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