露天矿结构控制失效的机器学习反分析

IF 2.2 4区 工程技术 Q3 ENGINEERING, GEOLOGICAL
Alison McQuillan, Amichai Mitelman, Davide Elmo
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引用次数: 0

摘要

在过去的几十年里,数值模拟已经成为岩石力学应用的一个强大工具。然而,岩体输入参数的准确估计仍然是一个重大挑战。最近集成了机器学习(ML)工具来增强和加速数值建模过程。在本文中,我们展示了机器学习工具的新用途,用于校准露天矿中运动结构控制失效事件的最先进的三维(3D)有限元(FE)模型。破坏事件涉及一个大楔的分离,从而允许精确识别岩石节理的几何形状。根据关节输入参数的估计范围自动生成有限元模型。随后,利用ML工具对合成数据进行分析,并对岩石节理的强度参数进行校正。我们的研究结果表明,为此目的需要相对少量的模型,使得ML即使对于计算要求很高的FE模型也是非常有用的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Back-Analysis of Structurally Controlled Failure in an Open-Pit Mine with Machine Learning Tools
Over the past decades, numerical modelling has become a powerful tool for rock mechanics applications. However, the accurate estimation of rock mass input parameters remains a significant challenge. Machine learning (ML) tools have recently been integrated to enhance and accelerate numerical modelling processes. In this paper, we demonstrate the novel use of ML tools for calibrating a state-of-the-art three-dimensional (3D) finite-element (FE) model of a kinematic structurally controlled failure event in an open-pit mine. The failure event involves the detachment of a large wedge, thus allowing for the accurate identification of the geometry of the rock joints. FE models are automatically generated according to estimated ranges of joint input parameters. Subsequently, ML tools are used to analyze the synthetic data and calibrate the strength parameters of the rock joints. Our findings reveal that a relatively small number of models are needed for this purpose, rendering ML a highly useful tool even for computationally demanding FE models.
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来源期刊
Environmental geotechnics
Environmental geotechnics Environmental Science-Water Science and Technology
CiteScore
6.20
自引率
18.20%
发文量
53
期刊介绍: In 21st century living, engineers and researchers need to deal with growing problems related to climate change, oil and water storage, handling, storage and disposal of toxic and hazardous wastes, remediation of contaminated sites, sustainable development and energy derived from the ground. Environmental Geotechnics aims to disseminate knowledge and provides a fresh perspective regarding the basic concepts, theory, techniques and field applicability of innovative testing and analysis methodologies and engineering practices in geoenvironmental engineering. The journal''s Editor in Chief is a Member of the Committee on Publication Ethics. All relevant papers are carefully considered, vetted by a distinguished team of international experts and rapidly published. Full research papers, short communications and comprehensive review articles are published under the following broad subject categories: geochemistry and geohydrology, soil and rock physics, biological processes in soil, soil-atmosphere interaction, electrical, electromagnetic and thermal characteristics of porous media, waste management, utilization of wastes, multiphase science, landslide wasting, soil and water conservation, sensor development and applications, the impact of climatic changes on geoenvironmental, geothermal/ground-source energy, carbon sequestration, oil and gas extraction techniques, uncertainty, reliability and risk, monitoring and forensic geotechnics.
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