论文信息 - Delineation of geological facies from poorly differentiated data

Delineation of geological facies from poorly differentiated data

The ability to delineate geologic facies and to estimate their properties from sparse data is essential for modeling physical and biochemical processes occurring in the subsurface. If such data are poorly differentiated, this challenging task is complicated further by the absence of a clear distinction between different hydrofacies at locations where data are available. We consider three alternative approaches for analysis of poorly differentiated data: a k-means clustering algorithm, an expectation–maximization algorithm, and a minimum-variance algorithm. Two distinct synthetically generated geological settings are used to analyze the ability of these algorithms to assign accurately the membership of such data in a given geologic facies. On average, the minimum-variance algorithm provides a more robust performance than its two counterparts, and when combined with a nearest neighbor algorithm, it also yields the most accurate reconstruction of the boundaries between the facies.

Daniel M. Tartakovsky | Brendt Wohlberg

[1] Daniel M. Tartakovsky,et al. Probabilistic risk analysis in subsurface hydrology , 2007 .

[2] Y. Rubin. Applied Stochastic Hydrogeology , 2003 .

[3] Daniel M. Tartakovsky,et al. Delineation of geologic facies with statistical learning theory , 2004 .

[4] Trevor Hastie,et al. The Elements of Statistical Learning , 2001 .

[5] Dennis McLaughlin,et al. Identification of large-scale spatial trends in hydrologic data. , 1990 .

[6] J. Caers,et al. Stochastic estimation of facies using ground penetrating radar data , 2003 .

[7] S. P. Neuman. Relationship between juxtaposed, overlapping, and fractal representations of multimodal spatial variability , 2003 .

[8] Jan W. Hopmans,et al. Determination of phase-volume fractions from tomographic measurements in two-phase systems , 1999 .

[9] Daniel M. Tartakovsky,et al. Probabilistic reconstruction of geologic facies , 2004 .

[10] Clayton V. Deutsch,et al. Geostatistical Software Library and User's Guide , 1998 .

[11] J. MacQueen. Some methods for classification and analysis of multivariate observations , 1967 .

[12] Daniel M. Tartakovsky,et al. Nearest‐neighbor classification for facies delineation , 2007 .

[13] Daniel M. Tartakovsky,et al. Subsurface characterization with support vector machines , 2006, IEEE Transactions on Geoscience and Remote Sensing.

[14] Daniel M. Tartakovsky,et al. Mean Flow in composite porous media , 2000 .