2024 : 11 : 21

Bahman Ahmadi

Academic rank: Assistant Professor
ORCID:
Education: PhD.
ScopusId: 12357
HIndex:
Faculty: Faculty of Engineering
Address:
Phone:

Research

Title
Deep GMDH Neural Networks for Predictive Mapping of Mineral Prospectivity in Terrains Hosting Few but Large Mineral Deposits
Type
JournalPaper
Keywords
Deep learning, GMDH networks, Data augmentation, Large mineral deposits, Mineral prospectivity mapping
Year
2022
Journal Natural Resources Research
DOI
Researchers Mohammad Parsa ، Emmanuel John M. Carranza ، Bahman Ahmadi

Abstract

There has been in recent years a trend towards adopting deep neural networks for addressing earth science problems. Of the various deep neural networks applied to different problems in earth sciences, this study aimed to demonstrate how to apply the group method of data handling (GMDH) neural networks for mineral prospectivity mapping (MPM). GMDH neural networks are sophisticated, multilayered, robust tools for addressing complex regression problems. However, labeled data for MPM, which constitute multivariate attributes of known deposit and non-deposit sites, are often (if not always) insufficient to train neural networks adequately. Such issue triggers networks' poor generalization; that is, the networks developed fit the labeled data perfectly (i.e., low bias) but cannot predict unseen data accurately (i.e., high variance). Given this, GMDH neural networks were, in this study, coupled with a window-based data augmentation technique, an approach to generate additional geologically constrained labeled samples for MPM, and applied to a district hosting few but giant porphyry copper deposits. It was recognized that coupling the data augmentation technique with GMDH neural networks yielded robust predictive models that can handle the bias–variance tradeoff, making this combined methodology a viable option for MPM in terrains that host few but large mineral deposits.