Matching of crushed highly decomposed granite particles using 3D SHOT descriptors

IF 4.2 1区工程技术 Q1 ENGINEERING, GEOLOGICAL Geotechnique Pub Date : 2023-11-09 DOI:10.1680/jgeot.23.00095

Zhiren Zhu, Jianfeng Wang

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Abstract

Owing to the complex morphology and the fragility of highly decomposed granite (HDG), it is still a challenge to track the breakage process of HDG particles within a deformed sample in geomechanics research. An HDG particle matching method is proposed in this paper for the first time to track and match HDG fragments with their mother particles from which they break off. First, the X-ray micro-computed tomography (μCT) images of HDG particles were acquired from a one-dimensional compression test and a certain number of HDG particles and fragments were selected and reconstructed. Second, the original and fracture surfaces of the fragments were identified and segmented. Then, the essential morphological features of the particles and fragments were represented with the key points. The neighbourhood information around the key points was encoded by the three-dimensional (3D) feature descriptor. Next, the mismatches were filtered out by the random sample consensus (RANSAC) algorithm based on the similarity of the local neighbourhood information. Finally, the influences of several parameters on the matching results were investigated. The capability and efficiency of the HDG particle matching method were demonstrated using the μCT data of ten HDG particles and 32 fragments that resulted from the crushing of these particles.

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使用3D SHOT描述符匹配破碎的高度分解的花岗岩颗粒

由于高分解花岗岩(HDG)的复杂形态和易碎性，在地质力学研究中，对变形试样中高分解花岗岩颗粒的破碎过程进行跟踪仍然是一个挑战。本文首次提出了一种HDG粒子匹配方法，将HDG碎片与其分离的母粒子进行跟踪和匹配。首先，通过一维压缩试验获得HDG颗粒的x射线微计算机断层扫描(μCT)图像，选择一定数量的HDG颗粒和碎片进行重构;其次，对碎片的原始表面和断裂表面进行识别和分割;然后，用关键点表示粒子和碎片的基本形态特征;关键点周围的邻域信息由三维特征描述符编码。其次，采用基于局部邻域信息相似性的随机样本一致性(RANSAC)算法对不匹配进行过滤;最后，研究了多个参数对匹配结果的影响。通过10个HDG颗粒和32个破碎后的HDG颗粒的μCT数据，验证了HDG颗粒匹配方法的能力和效率。

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来源期刊

Geotechnique 工程技术-地球科学综合

CiteScore

9.80

自引率

10.30%

发文量

168

审稿时长

7 months

期刊介绍： Established in 1948, Géotechnique is the world''s premier geotechnics journal, publishing research of the highest quality on all aspects of geotechnical engineering. Géotechnique provides access to rigorously refereed, current, innovative and authoritative research and practical papers, across the fields of soil and rock mechanics, engineering geology and environmental geotechnics.