Integration of three dimensional discontinuous deformation analysis (DDA) with binocular photogrammetry for stability analysis of tunnels in blocky rockmass

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Hehua Zhu
  • Wei Wu
  • Jianqin Chen
  • Guowei Ma
  • Xingen Liu
  • Xiaoying Zhuang

Externe Organisationen

  • Tongji University
  • University of Western Australia
  • Shanghai Tongyan Civil Engineering Technology Co. Ltd
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)30-40
Seitenumfang11
FachzeitschriftTunnelling and Underground Space Technology
Jahrgang51
PublikationsstatusVeröffentlicht - 22 Okt. 2015
Extern publiziertJa

Abstract

This paper demonstrates and evaluates an integrated system coupling 3-dimensional binocular photogrammetry and discontinuous deformation analysis (DDA) for stability analysis of tunnels in blocky rockmass. 3D DDA is an effective numerical method for discontinuous and large displacement problems. In stability analysis of rockmass, especially for tunnels, one of the primary bottlenecks in 3D DDA is generating discontinuous models. For tunnel constructions requiring small interval time for blasting, traditional geotechnical data collection approaches such as hand-mapping and geologic compass are always lacking in efficiency and accuracy. 3D photogrammetry is an economical and efficient method for collecting geometric features and surface data. An integrated system connecting geometrical data acquisition and discontinuous numerical analysis automatically, is valid for improving safety in tunnel construction. This system includes photogrammetry module, modeling module and analysis module. In the photogrammetry module, binocular photogrammetry devices and image reconstruction technique are implemented for geometric data of rockmass. Then location, dip direction and dip angle of joints as well as other geometric information of tunnels are input into the modeling module to generate 3-dimensional discontinuous models. The analysis module using 3-dimensional DDA to evaluate the stability of the surrounding rock in tunnels. The integrated system is implemented in an engineering instance, Suocaopo Tunnel in Guizhou, China.

ASJC Scopus Sachgebiete

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Integration of three dimensional discontinuous deformation analysis (DDA) with binocular photogrammetry for stability analysis of tunnels in blocky rockmass. / Zhu, Hehua; Wu, Wei; Chen, Jianqin et al.
in: Tunnelling and Underground Space Technology, Jahrgang 51, 22.10.2015, S. 30-40.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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title = "Integration of three dimensional discontinuous deformation analysis (DDA) with binocular photogrammetry for stability analysis of tunnels in blocky rockmass",
abstract = "This paper demonstrates and evaluates an integrated system coupling 3-dimensional binocular photogrammetry and discontinuous deformation analysis (DDA) for stability analysis of tunnels in blocky rockmass. 3D DDA is an effective numerical method for discontinuous and large displacement problems. In stability analysis of rockmass, especially for tunnels, one of the primary bottlenecks in 3D DDA is generating discontinuous models. For tunnel constructions requiring small interval time for blasting, traditional geotechnical data collection approaches such as hand-mapping and geologic compass are always lacking in efficiency and accuracy. 3D photogrammetry is an economical and efficient method for collecting geometric features and surface data. An integrated system connecting geometrical data acquisition and discontinuous numerical analysis automatically, is valid for improving safety in tunnel construction. This system includes photogrammetry module, modeling module and analysis module. In the photogrammetry module, binocular photogrammetry devices and image reconstruction technique are implemented for geometric data of rockmass. Then location, dip direction and dip angle of joints as well as other geometric information of tunnels are input into the modeling module to generate 3-dimensional discontinuous models. The analysis module using 3-dimensional DDA to evaluate the stability of the surrounding rock in tunnels. The integrated system is implemented in an engineering instance, Suocaopo Tunnel in Guizhou, China.",
keywords = "Discontinuous deformation analysis, Integrated system, Photogrammetry, Three dimensional stability analysis, Tunnel modeling",
author = "Hehua Zhu and Wei Wu and Jianqin Chen and Guowei Ma and Xingen Liu and Xiaoying Zhuang",
note = "Funding information: The authors gratefully acknowledge the supports from the Key Programme from Natural Science Foundation of China ( 41130751 ), the Ministry of Science and Technology of China (Grant No. SLDRCE 14-A-09 ) and Shanghai Chenguang Program ( 12CG20 ).",
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T1 - Integration of three dimensional discontinuous deformation analysis (DDA) with binocular photogrammetry for stability analysis of tunnels in blocky rockmass

AU - Zhu, Hehua

AU - Wu, Wei

AU - Chen, Jianqin

AU - Ma, Guowei

AU - Liu, Xingen

AU - Zhuang, Xiaoying

N1 - Funding information: The authors gratefully acknowledge the supports from the Key Programme from Natural Science Foundation of China ( 41130751 ), the Ministry of Science and Technology of China (Grant No. SLDRCE 14-A-09 ) and Shanghai Chenguang Program ( 12CG20 ).

PY - 2015/10/22

Y1 - 2015/10/22

N2 - This paper demonstrates and evaluates an integrated system coupling 3-dimensional binocular photogrammetry and discontinuous deformation analysis (DDA) for stability analysis of tunnels in blocky rockmass. 3D DDA is an effective numerical method for discontinuous and large displacement problems. In stability analysis of rockmass, especially for tunnels, one of the primary bottlenecks in 3D DDA is generating discontinuous models. For tunnel constructions requiring small interval time for blasting, traditional geotechnical data collection approaches such as hand-mapping and geologic compass are always lacking in efficiency and accuracy. 3D photogrammetry is an economical and efficient method for collecting geometric features and surface data. An integrated system connecting geometrical data acquisition and discontinuous numerical analysis automatically, is valid for improving safety in tunnel construction. This system includes photogrammetry module, modeling module and analysis module. In the photogrammetry module, binocular photogrammetry devices and image reconstruction technique are implemented for geometric data of rockmass. Then location, dip direction and dip angle of joints as well as other geometric information of tunnels are input into the modeling module to generate 3-dimensional discontinuous models. The analysis module using 3-dimensional DDA to evaluate the stability of the surrounding rock in tunnels. The integrated system is implemented in an engineering instance, Suocaopo Tunnel in Guizhou, China.

AB - This paper demonstrates and evaluates an integrated system coupling 3-dimensional binocular photogrammetry and discontinuous deformation analysis (DDA) for stability analysis of tunnels in blocky rockmass. 3D DDA is an effective numerical method for discontinuous and large displacement problems. In stability analysis of rockmass, especially for tunnels, one of the primary bottlenecks in 3D DDA is generating discontinuous models. For tunnel constructions requiring small interval time for blasting, traditional geotechnical data collection approaches such as hand-mapping and geologic compass are always lacking in efficiency and accuracy. 3D photogrammetry is an economical and efficient method for collecting geometric features and surface data. An integrated system connecting geometrical data acquisition and discontinuous numerical analysis automatically, is valid for improving safety in tunnel construction. This system includes photogrammetry module, modeling module and analysis module. In the photogrammetry module, binocular photogrammetry devices and image reconstruction technique are implemented for geometric data of rockmass. Then location, dip direction and dip angle of joints as well as other geometric information of tunnels are input into the modeling module to generate 3-dimensional discontinuous models. The analysis module using 3-dimensional DDA to evaluate the stability of the surrounding rock in tunnels. The integrated system is implemented in an engineering instance, Suocaopo Tunnel in Guizhou, China.

KW - Discontinuous deformation analysis

KW - Integrated system

KW - Photogrammetry

KW - Three dimensional stability analysis

KW - Tunnel modeling

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