Sampling Strategies for Uncertainty Reduction in Categorical Random Fields: Formulation, Mathematical Analysis and Application to Multiple-Point Simulations
Keywords: information theory, geostatistics, sampling strategies, optimal sampling design, entropy and conditional entropy, uncertainty reduction, multiple-point simulations, channelized facies models
Abstract
The task of optimal sampling for the statistical simulation of a discrete random field is addressed from the perspective of minimizing the posterior uncertainty of non-sensed positions given the information of the sensed positions. In particular, information theoretic measures are adopted to formalize the problem of optimal sampling design for field characterization, where concepts like information of the measurements, average posterior uncertainty, and the resolvability of the field are introduced. The use of the entropy and related information measures are justified by connecting the task of simulation with a source coding problem, where it is well known that entropy offers a fundamental performance limit. On the application, a one-dimensional Markov chain model is explored where the statistics of the random object are known, and then the more relevant case of multiplepoint simulations of channelized facies fields is studied, adopting in this case a training image to infer the statistics of a non-parametric model. On both contexts, the superiority of information-driven sampling strategies is proved in different settings and conditions, with respect to random or regular sampling
Más información
Título de la Revista: | MATHEMATICAL GEOSCIENCES |
Volumen: | - |
Número: | - |
Editorial: | SPRINGER HEIDELBERG |
Fecha de publicación: | 2018 |
Página de inicio: | - |
Página final: | - |
Idioma: | english |
Notas: | ISI |