Enhanced discontinuity characterization in hard rock pillars using point cloud completion and DBSCAN clustering

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.2024.106005

Chuanqi Li , Jian Zhou , Kun Du , Ming Tao

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引用次数: 0

Abstract

This paper proposes a novel strategy to characterize the discontinuities of hard rock pillars in underground mines. In this strategy, the point cloud completion technology is proposed to fill in the missing point clouds caused by defective digital photogrammetry. An improved density-based spatial clustering of applications with noise (DBSCAN) algorithm is developed for accurate discontinuity extraction. A case study is carried out to evaluate and verify the proposed strategy in characterizing discontinuities of hard rock pillars. Furthermore, the performance of the proposed method is compared with other conventional methods in extracting the pillar discontinuities, and the influence of point cloud completion on the characterization performance is discussed. The results indicate that the proposed strategy can accurately extract discontinuities, and that the proposed point cloud completion significantly improves characterization accuracy. Although the proposed strategy has not yet been applied or verified in the discontinuity extraction of other rock masses, it provides a new opinion and a reliable exploration for the discontinuity characterization of hard rock pillars.

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利用点云补全和DBSCAN聚类增强硬岩柱的不连续特征

本文提出了一种描述地下矿山硬岩柱结构面特征的新方法。在该策略中，提出了点云补全技术来填补由于数字摄影测量缺陷而导致的点云缺失。提出了一种改进的基于密度的带噪声应用空间聚类（DBSCAN）算法，用于精确提取不连续点。通过实例分析，对所提出的方法在硬岩柱结构面表征中的应用进行了评价和验证。此外，将所提方法与其他传统方法在提取柱状结构不连续面方面的性能进行了比较，并讨论了点云补全对表征性能的影响。结果表明，所提出的策略可以准确地提取不连续点，所提出的点云补全方法显著提高了表征精度。虽然该策略尚未在其他岩体的非连续性提取中得到应用或验证，但为硬岩柱的非连续性表征提供了新的观点和可靠的探索。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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.