A high-fidelity digital rock representation based on digital grinding combined with deep learning for four-dimensional lattice spring model

IF 7 1区工程技术 Q1 ENGINEERING, GEOLOGICAL International Journal of Rock Mechanics and Mining Sciences Pub Date : 2025-02-01 DOI:10.1016/j.ijrmms.2024.106004

Gao-Feng Zhao, Yu-Hang Wu, Xin-Dong Wei

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Abstract

This paper introduces a method for constructing high-fidelity digital rock using digital grinding and deep learning, specifically for the Four-Dimensional Lattice Spring Model (4D-LSM). Initially, rock sequence images are captured with a self-designed digital grinding equipment. Bicubic interpolation is then applied to fill missing pixels, ensuring uniform resolution. The images are subsequently deblurred using DeblurGAN, a deep learning network trained with existing high-definition images. This process results in high-fidelity 3D true-color digital rock geometry reconstruction. An Artificial Neural Network (ANN) identifies mineral components, which are then mapped into the 4D-LSM to create the high-fidelity 3D true-color Grain-Based Model (GBM). The mechanical behavior of the GBM is analyzed using the 4D-LSM, incorporating strength reduction factors which can be easily calibrated through a modified Newton algorithm. Results demonstrate that the high-fidelity 3D true-color GBM accurately replicates the mechanical behavior and failure processes of granite, offering improved consistency with experimental data compared to homogeneous models.

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基于数字磨削结合深度学习的四维点阵弹簧模型高保真数字岩石表示

本文介绍了一种利用数字磨削和深度学习构建高保真数字岩石的方法，特别是针对四维晶格弹簧模型（4D-LSM）。最初，岩石序列图像是用自行设计的数字研磨设备捕获的。然后应用双三次插值来填充缺失的像素，确保均匀的分辨率。随后使用DeblurGAN（一种用现有高清图像训练的深度学习网络）对图像进行去模糊处理。这一过程产生了高保真三维真彩色数字岩石几何重建。人工神经网络（ANN）识别矿物成分，然后将其映射到4D-LSM中，以创建高保真的3D真色颗粒模型（GBM）。利用4D-LSM分析了GBM的力学行为，并结合了强度折减因子，该折减因子可以通过改进的牛顿算法轻松校准。结果表明，与均质模型相比，高保真三维真彩色GBM模型准确地复制了花岗岩的力学行为和破坏过程，提高了与实验数据的一致性。

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来源期刊

International Journal of Rock Mechanics and Mining Sciences 工程技术-工程：地质

CiteScore

14.00

自引率

5.60%

发文量

196

审稿时长

18 weeks

期刊介绍： The International Journal of Rock Mechanics and Mining Sciences focuses on original research, new developments, site measurements, and case studies within the fields of rock mechanics and rock engineering. Serving as an international platform, it showcases high-quality papers addressing rock mechanics and the application of its principles and techniques in mining and civil engineering projects situated on or within rock masses. These projects encompass a wide range, including slopes, open-pit mines, quarries, shafts, tunnels, caverns, underground mines, metro systems, dams, hydro-electric stations, geothermal energy, petroleum engineering, and radioactive waste disposal. The journal welcomes submissions on various topics, with particular interest in theoretical advancements, analytical and numerical methods, rock testing, site investigation, and case studies.