Tunnel Information Constructionzone
DOI:
https://doi.org/10.53469/jrse.2024.06(07).15Keywords:
Tunnel informatization, Monitoring measurement, Advanced geological prediction, BIMAbstract
Tunnel construction as a typical geotechnical engineering, compared with other civil engineering, has the characteristics of high uncertainty, which brings great challenges to the early design, middle construction and late operation. The so-called tunnel information construction is mainly based on advanced geological prediction, monitoring and measurement data and other information, combined with the actual geological description in the excavation process, timely decision-making on the site, rapid change of construction methods, or adjustment of support structure, in order to adapt to changes in geological conditions, so as to achieve dynamic feedback construction. Because of the advantages of tunnel information construction in modern tunnel construction, and there are many successful cases at home and abroad, it is necessary to have a systematic understanding of it. Based on the above background, the research status and successful cases of tunnel informatization construction at home and abroad are summarized. Mainly summarized in the following aspects: the application of BIM technology, monitoring and measurement technology and information management of intelligent, advanced geological forecasting
References
Huang Min. Tunnel engineering Monitoring and safety Evaluation based on information construction and intelligent management [J]. Highway, 2019, 68(01): 249-255.
Zhang Minqing, Wang Jiang, Wang Wanqi, Yang Wei, JIA Dapeng. Research and Application of Information monitoring Technology for TBM construction of Railway tunnel [J]. Journal of Railway Engineering, 2022, 39(05):65-72.
Zhang Junru, Yan Bo, Gong Yanfeng, Xu Jian, LIU Dingding. Research status and prospect of intelligent monitoring and information management system for tunnel engineering [J]. Journal of Underground Space and Engineering, 201, 17(02):567-579.
Zeng Shengqiang, Feng Jianjun, Huang Yun. Application of seismic reflection method in tunnel advance prediction [J]. Sichuan Architecture, 2018, 38(03):119-120.
Qian Q H. Main progress and development direction of geological forecasting and information technology for tunnel construction [J]. Tunnel Construction, 2017, 37(03):251-263.
Chen M A. Massive data processing and application of laser scanning in subway shield tunnel [D]. Beijing Jiaotong University, 2016.
Zhao Dong, Lv Kangcheng. Development and application of rapid feedback platform for tunnel monitoring and measurement based on Mobile Internet [J]. Traffic in the north, 2015 (11): 107-110. 2015.11.028.
Deng Hongliang, Chen Kaijiang, Zhu Mingyan, Deng Qihua. Research on 3D laser scanning method and application of tunnel monitoring and measurement [J]. Bulletin of Surveying and Mapping, 2012(S1): 123-125+209.
Li Shucai, Liu Bin, Li Shuchen, Zhang Qingsong, Nie Lichao, Li Liping, Xu Zhenhao, Zhong Shihang. Research on advanced detection of water-bearing geological structures in tunnel based on stimulated polarization method [J]. Chinese Journal of Rock Mechanics and Engineering, 2011, 30(07): 1297-1309.
Liu Changjun, Ding Liuqian, Sun Dong-A. Automatic fuzzy clustering analysis and geometric information acquisition of rock mass structural plane based on laser point cloud data [J]. Chinese Journal of Rock Mechanics and Engineering, 2011, 30(02): 358-364.
Li Xingping. Research on intelligent information management and analysis System for tunnel construction monitoring and measurement [D]. Chongqing Jiaotong University, 2008.
Zhao Xingguang, Qiu Haitao. Application of fiber Bragg grating sensing technology in tunnel monitoring [J]. Chinese Journal of Rock Mechanics and Engineering, 2007(03): 587-593.
Wu Wenrong. Research on tunnel advance prediction and Informatization construction application technology [D]. Tongji University, 2007.
Qu Haifeng, Liu Zhigang, Zhu Hehua. Comprehensive advanced geological prediction technology in tunnel informatization construction [J]. Chinese Journal of Rock Mechanics and Engineering, 2006(06): 1246-1251.
Wang Guohui, Ma Li, Peng Baofu. Application of new technology of digital close-range photogrammetry for monitoring tunnel chamber displacement [J]. Railway Construction, 2005, (11):42-43.
Yang Huijun, Hu Chunlin, Chen Wenwu, Liang Shueyun. Information construction of tunnel in fault and fracture zone [J]. Chinese Journal of Rock Mechanics and Engineering, 2004(22):3917-3922.
Shifu Wan. Based on BIM tunnel under wear both railway informatization construction management research [D]. Southwest Jiaotong University, 2021.
Liu Xunfang. Research on Tunnel Dynamic Construction monitoring information System based on BIM and WEB [D]. Dalian Maritime University, 2017.
Zhang L, Wu X, Ding L, et al. Bim-Based Risk Identification System In Tunnel Construction[J]. Journal of civil engineering and management, 2016(4):22.
Li X, Xu J, Zhang Q . Research on Construction Schedule Management Based on BIM Technology[J]. Procedia Engineering, 2017, 174:657-667.
Vigneault M A, Boton C, Chong H Y, et al. An Innovative Framework of 5D BIM Solutions for Construction Cost Management: A Systematic Review[J]. Archives of Computational Methods in Engineering, 2019.
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Copyright (c) 2024 Shu-lin Dai, Zhi-heng Gao, Qiu-he Ma
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