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Hauptverfasser: Shen, Jian, Liu, Liu, Li, Shaojun, Shi, Zhenming, Wang, Yiteng, Peng, Ming, Zheng, Minzong
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2410.11350
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author Shen, Jian
Liu, Liu
Li, Shaojun
Shi, Zhenming
Wang, Yiteng
Peng, Ming
Zheng, Minzong
author_facet Shen, Jian
Liu, Liu
Li, Shaojun
Shi, Zhenming
Wang, Yiteng
Peng, Ming
Zheng, Minzong
contents Single borehole radar detection suffers from azimuthal ambiguity, while borehole optical tests only provide information about the borehole wall. These limitations prevent either detection method from revealing the complete spatial patterns of rock fractures on their own. In this paper, we address these challenges by proposing a joint imaging method that combines the advantages of both borehole detection methods. Geological azimuthal parameters are extracted from optical images by fitting the fracture curves to sinusoidal functions. A 2D Kirchhoff time migration is then implemented using radar common offset gather. Up-dip and down-dip events are separated by the f-k transform or z-s transform, depending on their geometric relation. The complete fracture planes, including trend, dip angle, gap width, and extension length, are finally reconstructed in 3D space by mapping the migration profile using azimuthal information from optical images. The method is proven reliable and high-resolution through both numerical tests and real field data.
format Preprint
id arxiv_https___arxiv_org_abs_2410_11350
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Azimuthal imaging of rock fractures by incorporating single borehole radar and optical data
Shen, Jian
Liu, Liu
Li, Shaojun
Shi, Zhenming
Wang, Yiteng
Peng, Ming
Zheng, Minzong
Geophysics
Single borehole radar detection suffers from azimuthal ambiguity, while borehole optical tests only provide information about the borehole wall. These limitations prevent either detection method from revealing the complete spatial patterns of rock fractures on their own. In this paper, we address these challenges by proposing a joint imaging method that combines the advantages of both borehole detection methods. Geological azimuthal parameters are extracted from optical images by fitting the fracture curves to sinusoidal functions. A 2D Kirchhoff time migration is then implemented using radar common offset gather. Up-dip and down-dip events are separated by the f-k transform or z-s transform, depending on their geometric relation. The complete fracture planes, including trend, dip angle, gap width, and extension length, are finally reconstructed in 3D space by mapping the migration profile using azimuthal information from optical images. The method is proven reliable and high-resolution through both numerical tests and real field data.
title Azimuthal imaging of rock fractures by incorporating single borehole radar and optical data
topic Geophysics
url https://arxiv.org/abs/2410.11350