A flexible true plurigaussian code for spatial facies simulations |
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| Authors: | Chaoshui Xu Peter Alan Dowd Kanti V Mardia Robert J Fowell |
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| Affiliation: | aDepartment of Mining and Mineral Engineering, University of Leeds, Leeds, LS2 9JT, UK;bFaculty of Engineering, Computer and Mathematical Sciences, University of Adelaide, SA 5005, Australia;cDepartment of Statistics, University of Leeds, Leeds, LS2 9JT, UK |
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| Abstract: | The current forms of plurigaussian simulation have serious limitations for applications to large numbers of geological facies, or units, which have complex contact relations. In this paper the authors present a true plurigaussian simulation (PGS) method, which can be applied in a simple way to any number of geological facies by using any number of Gaussians. A recursive technique is used for multi-dimensional integration of the Gaussian functions, which forms the major part of the PGS computation. A binary, dynamic contact matrix (DCM) is used to specify the contact relations among the facies; this method has proved to be simple, flexible and capable of dealing with general, complex contact relations. A method for incorporating into PGS multivariate correlations among any number of random variables is also included. A simulated example is used to demonstrate the application of the generalised PGS. This example shows that PGS is more robust to under-sampling than traditional direct indicator simulation. |
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| Keywords: | Geostatistical simulation Plurigaussian simulation Spatial facieses simulation Spatial modelling Multivariate correlation Contact relations Dynamic contact matrix Recursive integration |
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