Geologically Constrained Convolutional Neural Network for Mineral Prospectivity Mapping

IF 2.8 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Fanfan Yang, Renguang Zuo
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引用次数: 0

Abstract

Various deep learning algorithms (DLAs) have been successfully employed for mineral prospectivity mapping (MPM) to support mineral exploration, due to their superior nonlinear extraction capabilities. DLAs algorithms are typically purely data-driven approaches that may ignore the geological domain knowledge. This renders the predictive results inconsistent with the mineralization mechanism and results in poor interpretation. In this study, a geologically constrained convolutional neural network (CNN) that involves soft and hard geological constraints was proposed for mapping gold polymetallic mineralization potential in western Henan Province of China. A penalty term based on the controlling equation of the spatial coupling relationship between the ore-controlling strata and gold deposits was constructed as a soft constraint to guide the CNN model training according to additional prior geological knowledge. In addition, domain knowledge related to mineralization processes and a geochemical indicator were simultaneously embedded as hard constraints in the feature extractor and classifier of the CNN, respectively, to control the model training based on the mineralization mechanism. The comparative experiments demonstrated that the geologically constrained CNN was superior to other models, thus indicating that the coupling of data and domain knowledge is effective for MPM and further improves the rationality and interpretability of the obtained results.

Abstract Image

用于绘制矿产远景图的地质约束卷积神经网络
各种深度学习算法(DLAs)因其卓越的非线性提取能力,已成功应用于矿产远景测绘(MPM),为矿产勘探提供支持。DLAs 算法通常是纯数据驱动的方法,可能会忽略地质领域的知识。这使得预测结果与成矿机制不一致,导致解释效果不佳。本研究提出了一种包含软地质约束和硬地质约束的地质约束卷积神经网络(CNN),用于绘制中国河南省西部金多金属成矿潜力图。根据控矿地层与金矿床之间空间耦合关系的控制方程,构建了一个惩罚项作为软约束,以根据额外的先验地质知识指导 CNN 模型训练。此外,与成矿过程相关的领域知识和地球化学指标同时作为硬约束分别嵌入到 CNN 的特征提取器和分类器中,以控制基于成矿机制的模型训练。对比实验表明,地质约束 CNN 优于其他模型,从而表明数据与领域知识的耦合对于 MPM 是有效的,并进一步提高了所得结果的合理性和可解释性。
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来源期刊
Mathematical Geosciences
Mathematical Geosciences 地学-地球科学综合
CiteScore
5.30
自引率
15.40%
发文量
50
审稿时长
>12 weeks
期刊介绍: Mathematical Geosciences (formerly Mathematical Geology) publishes original, high-quality, interdisciplinary papers in geomathematics focusing on quantitative methods and studies of the Earth, its natural resources and the environment. This international publication is the official journal of the IAMG. Mathematical Geosciences is an essential reference for researchers and practitioners of geomathematics who develop and apply quantitative models to earth science and geo-engineering problems.
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