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Obtaining 2-D High-Resolution Cone Tip Resistance Fields

Zheng, Dong / Huang, Jinsong / Li, Dianqing

This paper proposes a novel Bayesian approach for stochastic site characterization. The one dimensional (1-D) high-resolution corrected cone tip resistance field obtained from piezocone tests and 2-D low-resolution shear wave velocity field obtained from multichannel analysis of surface waves (MASW) are combined. The outputs are 2-D high-resolution corrected cone tip resistance fields. The proposed method is applied to a synthetic example. The results show that by gradually incorporating more measurements, the uncertainty of soil profile is substantially reduced.

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Obtaining 2-D High-Resolution Cone Tip Resistance Fields

Zheng, Dong / Huang, Jinsong / Li, Dianqing

This paper proposes a novel Bayesian approach for stochastic site characterization. The one dimensional (1-D) high-resolution corrected cone tip resistance field obtained from piezocone tests and 2-D low-resolution shear wave velocity field obtained from multichannel analysis of surface waves (MASW) are combined. The outputs are 2-D high-resolution corrected cone tip resistance fields. The proposed method is applied to a synthetic example. The results show that by gradually incorporating more measurements, the uncertainty of soil profile is substantially reduced.

Obtaining 2-D High-Resolution Cone Tip Resistance Fields

Zheng, Dong / Huang, Jinsong / Li, Dianqing

This paper proposes a novel Bayesian approach for stochastic site characterization. The one dimensional (1-D) high-resolution corrected cone tip resistance field obtained from piezocone tests and 2-D low-resolution shear wave velocity field obtained from multichannel analysis of surface waves (MASW) are combined. The outputs are 2-D high-resolution corrected cone tip resistance fields. The proposed method is applied to a synthetic example. The results show that by gradually incorporating more measurements, the uncertainty of soil profile is substantially reduced.

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Order at Subito €

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Document information

Title:

Obtaining 2-D High-Resolution Cone Tip Resistance Fields

Contributors:

Zheng, Dong (author) / Huang, Jinsong (author) / Li, Dianqing (author)

Conference:

Geo-Risk 2017 ; 2017 ; Denver, Colorado

Published in:

Geo-Risk 2017 ; 62-68

Publication date:

2017-06-01

ISBN:

DOI:

https://doi.org/10.1061/9780784480724.006

Type of media:

Conference paper

Type of material:

Electronic Resource

Language:

English

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