Study on underground engineering auxiliary planning and design technology based on BIM+GIS
Authors: 
Juntang Yang, Xingtao Ren, Jianbo Ren, Ke Lu, Linxing Qiu, Jiantao PeiAuthors Info & Claims
Pages 2163 - 2174
Abstract
Engineering Planning is the primary task of underground engineering. The planning dimension of underground engineering still remains at the two-dimensional level, lacking a technical platform for processing and analyzing multi-dimensional and multi-source information. Especially due to insufficient information under hidden geological conditions, the quality of subsequent design and construction cannot be guaranteed. BIM+GIS can achieve the unification and technical application of data at the macro scale and three-dimensional models at the micro scale. Therefore, based on BIM+GIS, the technical architecture of an underground engineering auxiliary planning and design platform was established, Taking the underground pipe gallery project as an example, simulation analysis was conducted A comprehensive model integrating engineering and three-dimensional geology has been established. Based on the three-dimensional spatial conflict analysis results of geological and underground pipe gallery engineering, optimization design was carried out. The research results can clearly demonstrate the correlation between underground pipe gallery engineering and geographical environment, enabling planners to carry out planning and design work from both macro and micro perspectives, improving the technical level of planning and design, and providing new avenues for innovation in underground engineering planning and design technology.
References
[1]
Bansal VK. Integrated CAD and GIS-Based framework to support construction planning: case study. J Archit Eng. 2017; 23(3): 05017005.1-05017005.13.
[2]
Ali G, John T, Amirhosein G, et al. Building Information Modelling (BIM) uptake: clear benefits, understanding its implementation, risks and challenges. Renew Sust Energ Rev. 2016; (75): 1046-1053.
[3]
Patricia R, Conrado SR, Jouke M. Integration of BIM and design for deconstruction to improve circular economy of buildings. J Build Eng. 2023; (80): 108015.
[4]
Vítor P, José S, Fernanda L, et al. Using BIM to improve building energy efficiencya scient metric and systematic review. Energ Buildings. 2021; (250): 111292.
[5]
Yamamura S, Fan L, Suzuki Y. Assessment of urban energy performance through integration of BIM and GIS for smart city planning. Procedia Engineering. 2017; (180): 1462-1472.
[6]
Zhang SR, Hou DJ, Wang C, et al. Integrating and managing BIM in 3D web-based GIS for hydraulic and hydropower engineering projects. Automat Constr. 2020; (112): 103114.
[7]
Zhang JH, Li JY, Liu BS, et al. The design and application of BIM + refined management and control platform for the Jingxiong railway bridge. High-Speed Railway. 2023; (1): 211-218.
[8]
Wang MZ, Deng YC, Won JS, et al. An integrated underground utility management and decision support based on BIM and GIS. Automat Constr. 2019; (107): 102931.
[9]
Yishak S, Solomon T. Historic building information modeling using image: example of port city Massawa, Eritrea. J Build Eng. 2023; (78): 107662.
[10]
Han CG, Tang FL, Ma T, et al. Construction quality evaluation of asphalt pavement based on BIM and GIS. Automat Constr. 2022; (141): 104398.
[11]
Masoud Z, Vahid S, Abdollah A, et al. Multi-objective optimization of dynamic construction site layout using BIM and GIS. J Build Eng. 2022; (52): 104518.
[12]
Huang MQ, Ninić J, Zhang QB. BIM, machine learning and computer vision techniques in underground construction: current status and future perspectives. Tunn Undergr SP Tech. 2021; (108): 103677.
[13]
Tang YC, Xia NN, Lu Y, et al. BIM-based safety design for emergency evacuation of metro stations. Automat Constr. 2021; (123): 103511.
[14]
Shi JY, Pan ZY, Jiang L, et al. An ontology-based methodology to establish city information model of digital twin city by merging BIM, GIS and IoT. Adv Eng Inform. 2023; (57): 102114.
[15]
Cho J, Kim C, Kyoung JL, et al. Web-based agricultural infrastructure digital twin system integrated with GIS and BIM concepts. Comput Electron AGR. 2023; (215): 108441.
[16]
Cáceres NR, Antonio GM, Carlos GC. Use of GIS and BIM tools in determining the life cycle impact of urban systems. Case study: residential buildings which apply the eco-efficiency matrix in the city of Quito, Ecuador. J Clean Prod. 2023; (383): 135485.
[17]
Fabrizio A, Alessandro C, Eleonora S, et al. BIM and GIS data integration: a novel approach of technical/environmental decision-making process in transport infrastructure design. Transportation Research Procedia. 2020; (45): 803-810.
Index Terms
- Study on underground engineering auxiliary planning and design technology based on BIM+GIS
Index terms have been assigned to the content through auto-classification.
Recommendations
GIS Based Urban Flood Inundation Modeling
GCIS '10: Proceedings of the 2010 Second WRI Global Congress on Intelligent Systems - Volume 02Flooding is a complex process affected by many factors in which the flood discharge characteristics and the topography of the inundated region are of great importance. This study aimed at the development of a manageable method for flood inundation ...
The Study and Application of GIS-Based Distributed Hydrological Model
ETTANDGRS '08: Proceedings of the 2008 International Workshop on Education Technology and Training & 2008 International Workshop on Geoscience and Remote Sensing - Volume 02Based on the multi-angled underlaying surface information provided and generated by GIS, the authors took into account topology, vegetation and soil’s effects in the developmental process of runoff and built a spatial distributed model of basin water ...
Assessment of Soil Erosion in Suihua City Based on RUSLE and GIS
CDCIEM '11: Proceedings of the 2011 International Conference on Computer Distributed Control and Intelligent Environmental MonitoringVarious factors affecting soil erosion were calculated, and the distribution map of soil erosion in Suihua in 2004 is obtained based on revised universal soil loss equation RUSLE ©and GIS technology and soil erosion of different land use types and ...
Comments
Please enable JavaScript to view thecomments powered by Disqus.Information & Contributors
Information
Published In
© 2024 – IOS Press. All rights reserved.
Publisher
IOS Press
Netherlands
Publication History
Published: 14 August 2024
Author Tags
Qualifiers
- Research-article
Contributors
Other Metrics
Bibliometrics & Citations
Bibliometrics
Article Metrics
- 0Total Citations
- 0Total Downloads
- Downloads (Last 12 months)0
- Downloads (Last 6 weeks)0
Reflects downloads up to 12 Nov 2024
Other Metrics
Citations
View Options
View options
Get Access
Login options
Check if you have access through your login credentials or your institution to get full access on this article.
Sign in