Bayesian Surface Warping Approach For Rectifying Geological Boundaries Using Displacement Likelihood And Evidence From Geochemical Assays

Autor: Leung, Raymond, Lowe, Alexander, Chlingaryan, Anna, Melkumyan, Arman, Zigman, John
Rok vydání: 2020
Předmět:
Zdroj: ACM Transactions on Spatial Algorithms and Systems, 2021
Druh dokumentu: Working Paper
DOI: 10.1145/3476979
Popis: This paper presents a Bayesian framework for manipulating mesh surfaces with the aim of improving the positional integrity of the geological boundaries that they seek to represent. The assumption is that these surfaces, created initially using sparse data, capture the global trend and provide a reasonable approximation of the stratigraphic, mineralisation and other types of boundaries for mining exploration, but they are locally inaccurate at scales typically required for grade estimation. The proposed methodology makes local spatial corrections automatically to maximise the agreement between the modelled surfaces and observed samples. Where possible, vertices on a mesh surface are moved to provide a clear delineation, for instance, between ore and waste material across the boundary based on spatial and compositional analysis; using assay measurements collected from densely spaced, geo-registered blast holes. The maximum a posteriori (MAP) solution ultimately considers the chemistry observation likelihood in a given domain. Furthermore, it is guided by an apriori spatial structure which embeds geological domain knowledge and determines the likelihood of a displacement estimate. The results demonstrate that increasing surface fidelity can significantly improve grade estimation performance based on large-scale model validation.
Comment: Keywords: Geochemistry-based Bayesian deformable surface (GC-BDS) model, Bayesian computation, mesh geometry, surface warping, spatial correction, displacement likelihood, geological boundaries, model integrity. 19 page article, 15 figures, 3 tables
Databáze: arXiv