Correlation between shear-wave velocity and topographic slope

The method of using topography as a proxy for average shear wave velocity of upper 30 meters has become an increasingly interesting topic for seismic research mainly because of the advantages it offers such as low cost, simplicity, automation, and its ability to generate extensive maps with first or...

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Main Author: Fong, Rodney.
Other Authors: Kusnowidjaja Megawati
Format: Final Year Project
Language:English
Published: 2011
Subjects:
Online Access:http://hdl.handle.net/10356/45404
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-454042023-03-03T17:12:14Z Correlation between shear-wave velocity and topographic slope Fong, Rodney. Kusnowidjaja Megawati School of Civil and Environmental Engineering DRNTU::Engineering::Civil engineering::Geotechnical The method of using topography as a proxy for average shear wave velocity of upper 30 meters has become an increasingly interesting topic for seismic research mainly because of the advantages it offers such as low cost, simplicity, automation, and its ability to generate extensive maps with first order assessment of seismic site conditions. This method is largely based on the correlation of gradient slope and Vs30. In this project, Vs30 values are obtained from Standard Penetration Test (SPT) N values of borehole logs. These borehole investigations were conducted across Singapore where their soil profile data are available. Next, calculation and tabulation of Vs30 from all 531 borehole logs were made. SPT N values and their various depths were used to obtain the computed Vs30 values; the computations were based on empirical correlation equations for SPT N & Vs30. These SPT N correlations were formulated in a way that they are catered for different soil types such as fill (sand and silt), alluvium deposits (sand), alluvium and marine clay, residual soil and completely weathered sedimentary rock, and residual soil and completely weathered granite. After all computed Vs30 values are obtained, a database was constructed from these computed Vs30 values and their corresponding topographic slope, which was derived from elevation data and the ArcGIS software. The database is than manipulated to formulate different correlations between topographic slope and Vs30. Bachelor of Engineering (Civil) 2011-06-13T06:41:03Z 2011-06-13T06:41:03Z 2011 2011 Final Year Project (FYP) http://hdl.handle.net/10356/45404 en Nanyang Technological University 59 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Civil engineering::Geotechnical
spellingShingle DRNTU::Engineering::Civil engineering::Geotechnical
Fong, Rodney.
Correlation between shear-wave velocity and topographic slope
description The method of using topography as a proxy for average shear wave velocity of upper 30 meters has become an increasingly interesting topic for seismic research mainly because of the advantages it offers such as low cost, simplicity, automation, and its ability to generate extensive maps with first order assessment of seismic site conditions. This method is largely based on the correlation of gradient slope and Vs30. In this project, Vs30 values are obtained from Standard Penetration Test (SPT) N values of borehole logs. These borehole investigations were conducted across Singapore where their soil profile data are available. Next, calculation and tabulation of Vs30 from all 531 borehole logs were made. SPT N values and their various depths were used to obtain the computed Vs30 values; the computations were based on empirical correlation equations for SPT N & Vs30. These SPT N correlations were formulated in a way that they are catered for different soil types such as fill (sand and silt), alluvium deposits (sand), alluvium and marine clay, residual soil and completely weathered sedimentary rock, and residual soil and completely weathered granite. After all computed Vs30 values are obtained, a database was constructed from these computed Vs30 values and their corresponding topographic slope, which was derived from elevation data and the ArcGIS software. The database is than manipulated to formulate different correlations between topographic slope and Vs30.
author2 Kusnowidjaja Megawati
author_facet Kusnowidjaja Megawati
Fong, Rodney.
format Final Year Project
author Fong, Rodney.
author_sort Fong, Rodney.
title Correlation between shear-wave velocity and topographic slope
title_short Correlation between shear-wave velocity and topographic slope
title_full Correlation between shear-wave velocity and topographic slope
title_fullStr Correlation between shear-wave velocity and topographic slope
title_full_unstemmed Correlation between shear-wave velocity and topographic slope
title_sort correlation between shear-wave velocity and topographic slope
publishDate 2011
url http://hdl.handle.net/10356/45404
_version_ 1759857379831185408