On the estimation of scale of fluctuation in geostatistics

Lloret-Cabot, M.; Fenton, G. A.; Hicks, M. A.

Title: On the estimation of scale of fluctuation in geostatistics
Creator: Lloret-Cabot, M.; Fenton, G. A.; Hicks, M. A.
Relation: Georisk Vol. 8, Issue 2, p. 129-140
Publisher Link: http://dx.doi.org/10.1080/17499518.2013.871189
Publisher: Taylor & Francis
Resource Type: journal article
Date: 2014
Description: Describing how soil properties vary spatially is of particular importance in stochastic analyses of geotechnical problems, because spatial variability has a significant influence on local material and global geotechnical response. In particular, the scale of fluctuation θ is a key parameter in the correlation model used to represent the spatial variability of a site through a random field. It is, therefore, of fundamental importance to accurately estimate θ in order to best model the actual soil heterogeneity. In this paper, two methodologies are investigated to assess their abilities to estimate the vertical and horizontal scales of fluctuation of a particular site using in situ cone penetration test (CPT) data. The first method belongs to the family of more traditional approaches, which are based on best fitting a theoretical correlation model to available CPT data. The second method involves a new strategy which combines information from conditional random fields with the traditional approach. Both methods are applied to a case study involving the estimation of θ at three two-dimensional sections across a site and the results obtained show general agreement between the two methods, suggesting a similar level of accuracy between the new and traditional approaches. However, in order to further assess the relative accuracy of estimates provided by each method, a second numerical analysis is proposed. The results confirm the general consistency observed in the case study calculations, particularly in the vertical direction where a large amount of data are available. Interestingly, for the horizontal direction, where data are typically scarce, some additional improvement in terms of relative error is obtained with the new approach. © 2013 Taylor & Francis.
Subject: spatial variability; random fields; soil heterogeneity; characterisation of soil/rock variability; geostatistics
Identifier: http://hdl.handle.net/1959.13/1307112
Identifier: uon:21335
Identifier: ISSN:1749-9518
Language: eng
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