Probabilistic characterization of two-dimensional soil profile by integrating cone penetration test (CPT) with multi-channel analysis of surface wave (MASW) data
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- Jinsong Huang
- School of Civil Engineering and Architecture, Nanchang University, 999 Xuefu Road, Nanchang 330031, People’s Republic of China.
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- Dong Zheng
- State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University, 8 Donghu South Road, Wuhan, 430072, People’s Republic of China.
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- Dian-Qing Li
- State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University, 8 Donghu South Road, Wuhan, 430072, People’s Republic of China.
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- Richard Kelly
- SMEC, Australia & New Zealand Division, 480 St Pauls Tce, Fortitude Valley, QLD 4006, Australia.
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- Scott William Sloan
- ARC Centre of Excellence for Geotechnical Science and Engineering, The University of Newcastle, Callaghan, NSW 2308, Australia.
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説明
<jats:p>In situ, laboratory, and geophysical tests are currently used in site characterization. These tests explore different parts of a site measuring different engineering properties at different resolutions or scales. The test results are then used to derive a design profile. In traditional approaches, the positions of boundaries between geological units are identified first, and the soil profile is divided into several layers. Constant engineering properties are assigned to each geological unit and the variabilities within each layer are ignored. To take the uncertainties into account, characteristic design values are assigned. There are no commonly accepted guidelines for choosing design values, however, which introduces additional subjective uncertainties. This paper proposes a probabilistic site characterization approach, based on Bayesian statistical methods, that allows a design profile involving uncertainty to be determined automatically. The derived soil profile is not modelled by uniform layers, but by random fields, which can be used directly in probabilistic analysis. The proposed approach is verified by a synthetic example, and further applied to a soft soil test site in Ballina, New South Wales, Australia, and compared with traditional approaches. The results show that by gradually incorporating more data into the Bayesian inversion, the uncertainty in the soil profile is greatly reduced.</jats:p>
収録刊行物
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- Canadian Geotechnical Journal
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Canadian Geotechnical Journal 55 (8), 1168-1181, 2018-08
Canadian Science Publishing
