A Probabilistic Seismic Hazard Analysis of Northeast India

Das, Sandip; Gupta, I. D.; Gupta, Vinay K.

doi:10.1193/1.2163914

Cited by 99 publications

(24 citation statements)

References 22 publications

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“…The design value is the ground-motion level that corresponds to a preselected design return period (BOMMER et al, 2000). The PSHA is able to reflect the actual hazard level due to earthquakes along with bigger and smaller events, which are also important in hazard estimation due to their higher occurrence rates (DAS et al, 2006). The PSHA is able to correctly reflect the actual knowledge of seismicity (OROZOVA and SUHADOLC, 1999) and calculates the rate at which different levels of ground motion are exceeded at the site by considering the effects of all possible combinations of magnitude-distance scenarios.…”

Section: Methodsmentioning

confidence: 99%

“…The goal of PSHA is to quantify the rate or probability of exceeding various ground motion levels at a site or a map of sites given all possible earthquakes (FRANKEL, 1995). CORNELL (1968) first formalized the numerical/analytical approach to PSHA and its computer code was developed by MCGUIRE (1976MCGUIRE ( , 1978 and ALGERMIS- SEN and PERKINS (1976 BHATIA et al (1999), SEEBER et al (1999), IYENGAR and GHOSH (2004), JAISWAL and SINHA (2007), RAGHUKANTH and IYENGAR (2006), DAS et al (2006), etc. This PSHA approach is widely used to estimate seismic-design loads for engineering purposes.…”

Section: Methodsmentioning

confidence: 99%

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A New Insight into Probabilistic Seismic Hazard Analysis for Central India

Mandal

Shukla

Khan

et al. 2013

Pure Appl. Geophys.

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Abstract-The Son-Narmada-Tapti lineament and its surroundings of Central India (CI) is the second most important tectonic regime following the converging margin along HimalayasMyanmar-Andaman of the Indian sub-continent, which attracted several geoscientists to assess its seismic hazard potential. Our study area, a part of CI, is bounded between latitudes 18°-26°N and longitudes 73°-83°E, representing a stable part of Peninsular India. Past damaging moderate magnitude earthquakes as well as continuing microseismicity in the area provided enough data for seismological study. Our estimates based on regional GutenbergRichter relationship showed lower b values (i.e., between 0.68 and 0.76) from the average for the study area. The Probabilistic Seismic Hazard Analysis carried out over the area with a radius of *300 km encircling Bhopal yielded a conspicuous relationship between earthquake return period (T) and peak ground acceleration (PGA). Analyses of T and PGA shows that PGA value at bedrock varies from 0.08 to 0.15 g for 10 % (T = 475 years) and 2 % (T = 2,475 years) probabilities exceeding 50 years, respectively. We establish the empirical relationships ZPA These demonstrate that the ZPA values decrease with increasing shear wave velocity, suggesting a diagnostic indicator for designing the structures at a specific site of interest. The predictive designed response spectra generated at a site for periods up to 4.0 s at 10 and 2 % probability of exceedance of ground motion for 50 years can be used for designing duration dependent structures of variable vertical dimension. We infer that this concept of assimilating uniform hazard response spectra and predictive design at 10 and 2 % probability of exceedance in 50 years at 5 % damping at bedrocks of different categories may offer potential inputs for designing earthquake resistant structures of variable dimensions for the CI region under the National Earthquake Hazard Reduction Program for India.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

A New Insight into Probabilistic Seismic Hazard Analysis for Central India

Mandal

Shukla

Khan

et al. 2013

Pure Appl. Geophys.

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“…The annual occurrence rate of earthquakes, n(M j R i ), is obtained by spatially distributing the seismicity calculated from GutenbergRichter relationship. The detail of the procedure followed here is well explained in Das et al [13].…”

Section: Estimation Of Spectral Acceleration Hazardmentioning

confidence: 99%

“…There are several studies on attenuation model for this part of India and an excellent review for peak ground motion predictions for rock sites in India is worth mentioning [14] in this regard. For the present study, the attenuation model proposed by Das et al [13] is adopted. Quantity n(M j R i ) in Eq.…”

Section: Estimation Of Spectral Acceleration Hazardmentioning

confidence: 99%

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Seismic performance of reinforced concrete building in Guwahati city, northeast India

Ghosh

Chakraborty

2017

Scientia Iranica

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Abstract. The seismic risk of reinforced concrete building frame located in the Guwahati City of northeast India is evaluated. To do so, we rst conduct a site-speci c probabilistic seismic hazard analysis to obtain hazard curve and implement proper selection of ground motion records for nonlinear time history analyses (NLTHA). Subsequently, the NLTHA of the building frame is performed to obtain the drift demand for any particular ground motion level. As the recorded accelerograms in the region are limited, the synthetic and arti cial ground motion data are also generated to supplement the data base. Thereafter, the probabilistic structural capacity parameters at various limit states are obtained from random pushover analyses. Based on the knowledge of seismic hazard, demand, and capacity parameters, fragility curves are obtained corresponding to di erent structural performance levels. The annual probability of failure of the representative example frame is also estimated. The results of the seismic risk analysis indicate that a medium-rise reinforced concrete building frame in the study area with moderate fundamental period is most likely to perform beyond its elastic range. However, such structures designed according to the Indian codes are expected to be su cient enough to prevent life-threatening risk and complete collapse.

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