Publication Type

Journal Article

Publication Date (Issue Year)

2025

Journal Name

Mining, Metallurgy & Exploration

Abstract

Accurate lithology classification is essential as variations in rock formations can significantly impact the cost and efficiency of mineral exploration and mining. Initial exploration maps provide insights into subsurface formations, though typically collected at widely spaced intervals. This study examines the use of early exploration data and Measurement While Drilling (MWD) data for lithology prediction through machine learning. The research specifically evaluates the benefit of incorporating spatial coordinates with MWD parameters to enhance classification accuracy, using support vector machine (SVM), random forest (RF), and extra gradient boosting (XGBoost) classifiers with tenfold cross-validation. The models were trained on 235,501 data points of six MWD parameters from 308 drill holes. The effects of raw (imbalanced) versus Synthetic Minority Oversampling Technique combined with Edited Nearest Neighbor (SMOTEENN) (balanced) data were analyzed, along with a comparison between random and spatial data splits. Results indicate that SMOTEENN-balanced data paired with a spatial split strategy consistently improved model stability, with the XGBoost model achieving the highest performance, with a precision of 95.60% and an F1 score of 94.41% on unseen data. Additionally, the study revealed that integrating spatial coordinates of drilling locations consistently enhanced lithology classification, with a notable F1 score improvement of 27.97% using XGBoost. The findings highlight the value of combining spatial coordinates and MWD data for improved lithology classification and offer potential support for geological modeling and sustainable mining practices

Keywords

Lithology classification, Machine learning, Spatial data, MWD parameters, Geological modeling

Rsif Scholar Name

Gbetoglo Charles Komadja

Rsif Scholar Nationality

Benin

Cohort

Cohort 3

Thematic Area

Minerals, Mining and Materials Engineering

Africa Host University (AHU)

African University of Science and Technology (AUST), Nigeria

Funding Statement

This research is the outcome of a collaboration between the Mining and Minerals Engineering Department, Virginia Tech., Blacksburg, USA, and the African University of Science and Technology, Abuja, Nigeria. The first author acknowledges the financial support of the Partnership for Skills in Applied Sciences, Engineering and Technology (PASET).

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