Research on Engineering Optimization Based on BIM Technology
With the promulgation of national policies and the demand of market development, various industries actively carry out research based on BIM (Building Information Modelling) Technology + specialty and apply it to engineering construction. The application of BIM technology in geotechnical engineering...
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| Vydané v: | Procedia computer science Ročník 262; s. 411 - 420 |
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| Médium: | Journal Article |
| Jazyk: | English |
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Elsevier B.V
2025
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| ISSN: | 1877-0509, 1877-0509 |
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| Abstract | With the promulgation of national policies and the demand of market development, various industries actively carry out research based on BIM (Building Information Modelling) Technology + specialty and apply it to engineering construction. The application of BIM technology in geotechnical engineering provides a milestone technological change for the digital development of geotechnical engineering. In combination with the actual production needs, we will develop a digital platform based on BIM in geotechnical engineering, realize the digital platform for the whole process from exploration, design, construction and monitoring, assist enterprises to reduce costs and increase efficiency, and improve the professional status of the geotechnical industry in the construction field. |
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| AbstractList | With the promulgation of national policies and the demand of market development, various industries actively carry out research based on BIM (Building Information Modelling) Technology + specialty and apply it to engineering construction. The application of BIM technology in geotechnical engineering provides a milestone technological change for the digital development of geotechnical engineering. In combination with the actual production needs, we will develop a digital platform based on BIM in geotechnical engineering, realize the digital platform for the whole process from exploration, design, construction and monitoring, assist enterprises to reduce costs and increase efficiency, and improve the professional status of the geotechnical industry in the construction field. |
| Author | Wang, Wen |
| Author_xml | – sequence: 1 givenname: Wen surname: Wang fullname: Wang, Wen email: sdcjww@163.com organization: Shandong Urban Construction Vocational College, Ji’nan, China |
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| Cites_doi | 10.3390/su12020451 10.1016/j.autcon.2021.104114 10.3390/app11094004 10.1007/s10064-013-0568-2 10.3390/geosciences8090336 10.1061/9780784480441.061 10.1016/j.autcon.2019.102893 10.1016/j.tust.2019.103049 10.1016/j.compgeo.2023.105349 10.1155/2019/1515808 10.1109/AMCON.2018.8615004 10.3390/app10165587 10.1016/j.undsp.2017.10.003 10.1007/s12517-012-0633-3 |
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| Keywords | Geotechnical Engineering Innovation Simulation BIM |
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| References | Morin, G.; Deaton, S.L.; Chandler, R.; Miles, S. Silvertown Tunnel, London, England—A case study applying BIM principles to the geotechnical process. Geotech. Front. 2017, 587–595. Chen, L.; Shi, P.; Tang, Q.; Liu, W.; Wu, Q. Development and application of a specifification-compliant highway tunnel facility management system based on BIM. Tunn. Undergr. Space Technol. 2023. Zhou, Y.; Wang, C.; Yuan, B.; Chen, M.; Lv, J. Research on Visual Management Technology of Tunnel Construction Process Based on BIM Technology. Adv. Civ. Eng. 2023. Myriam, B.; Kristel, M.F.; Jaime, A.; Didier, B.; Agathe, R.; Santiago, M.; Claude, P. Combined geophysical and geotechnical approaches for microzonation studies in Hispaniola Island. Geosci. 2018, 8, 336. Marrugat, M. Analysis of modelling 3D bedrock surfaces using interpolation methods - A comparison between models of 3D bedrock surfaces using different interpolation methods. Stockholm, Sweden, 2023. Khan, M. S., Park, J., & Seo, J. (2021). Geotechnical Property Modeling and Construction Safety Zoning Based on GIS and BIM Integration. Mangi, M.Y.; Yue, Z.; Kalwar, S.; Ali Lashari, Z. Comparative Analysis of Urban Development Trends of Beijing and Karachi Metropolitan Areas. Sustainability 2020, 12, 451. Providakis, S.; Rogers, C.D.; Chapman, D.N. Predictions of settlement risk induced by tunnelling using BIM and 3D visualization tools. Tunn. Undergr. Space Technol. 2019. Khan, N.; Ali, A.K.; Skibniewski, M.J.; Lee, D.Y.; Park, C. Excavation Safety Modeling Approach Using BIM and VPL. Adv. Civ. Eng. 2019, 15. Sun, H.; Park, Y. CO2 Emission Calculation Method during Construction Process for Developing BIM-Based Performance Evaluation System. Appl. Sci. 2020. 2023. Sideri, D.; Modis, K.; Rozos, D. Multivariate geostatistical modelling of geotechnical characteristics of the alluvial deposits in West Thessaly, Greece. Bull. Eng. Geol. Environ. 2014, 73, 709–722. Xie, P.; Zhang, R.; Zheng, J.; Li, Z. Probabilistic analysis of subway station excavation based on BIM-RF integrated technology. Autom. Constr. 2022. Wu, C.-M.; Liu, H.-L.; Huang, L.-M.; Lin, J.-F.; Hsu, M.-W. Integrating BIM and IoT technology in environmental planning and protection of urban utility tunnel construction. In Proceedings of the 2018 IEEE International Conference on Advanced Manufacturing (ICAM), Yunlin, Taiwan, 2018:198–201. Soil Classificaiton | Transcript |. Available online Liuliu, Z. Research on Parametric Layout Method of Bridge BIM Model Based on Dynamo Visual Programming; Zhejiang University: Hangzhou, China, 2023. Xie, P.; Chen, K.; Skibniewski, M.J.; Wang, J.; Luo, H. Parametric geological model update and probabilistic analysis of shield tunnel excavation: A borehole-based conditional random fields approach. Comput. Geotech. 2023. Departement of Economic and Social Affairs United Nation. World Urbanization Prospects 2018; Departement of Economic and Social Affairs United Nation: New York, 2018. . Alqadad, A.; Shahrour, I.; Sukik, A. Smart system for safe and optimal soil investigation in urban areas. Undergr. Space 2017, 2, 220–226. AEC Excellence Awards, (2017) Wanyama, D.; Bunting, E.L.; Goodwin, R.; Weil, N.; Sabbatini, P.; Andresen, J.A. Modeling land suitability for Vitis vinifera in Michigan using advanced geospatial data and methods. Atmosphere 2022. Zhang, X.C. Research on Quantitative Analysis and Calculation of Building Carbon Emission and Evaluation Method of Low-Carbon Building Structure; Harbin Institute of Technology: Harbin, China, 2022. Madani Esfahani, N.; Asghari, O. Fault detection in 3D by sequential Gaussian simulation of Rock Quality Designation (RQD): Case study: Gazestan phosphate ore deposit, Central Iran. Arab. J. Geosci. 2013, 6, 3737–3747. Liuliu, Z.; Yonggang, S.; Jinjing, X.; Yan, N. Research on the method of Dynamo visual programming to create bridge information model of high-speed railway. Low Temp. Archit. Technol. 2022, 42, 86–89. Marrugat, M. Analysis of modelling 3D bedrock surfaces using interpolation methods - A comparison between models of 3D bedrock surfaces using different interpolation methods, 2022. Tanoli, W.A.; Sharafat, A.; Park, J.; Seo, J.W. Damage Prevention for underground utilities using machine guidance. Autom. 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| References_xml | – reference: Wanyama, D.; Bunting, E.L.; Goodwin, R.; Weil, N.; Sabbatini, P.; Andresen, J.A. Modeling land suitability for Vitis vinifera in Michigan using advanced geospatial data and methods. Atmosphere 2022. – reference: Khan, N.; Ali, A.K.; Skibniewski, M.J.; Lee, D.Y.; Park, C. Excavation Safety Modeling Approach Using BIM and VPL. Adv. Civ. Eng. 2019, 15. – reference: AEC Excellence Awards, (2017), – reference: Madani Esfahani, N.; Asghari, O. Fault detection in 3D by sequential Gaussian simulation of Rock Quality Designation (RQD): Case study: Gazestan phosphate ore deposit, Central Iran. Arab. J. Geosci. 2013, 6, 3737–3747. – reference: Wu, C.-M.; Liu, H.-L.; Huang, L.-M.; Lin, J.-F.; Hsu, M.-W. Integrating BIM and IoT technology in environmental planning and protection of urban utility tunnel construction. In Proceedings of the 2018 IEEE International Conference on Advanced Manufacturing (ICAM), Yunlin, Taiwan, 2018:198–201. – reference: Myriam, B.; Kristel, M.F.; Jaime, A.; Didier, B.; Agathe, R.; Santiago, M.; Claude, P. Combined geophysical and geotechnical approaches for microzonation studies in Hispaniola Island. Geosci. 2018, 8, 336. – reference: Alqadad, A.; Shahrour, I.; Sukik, A. Smart system for safe and optimal soil investigation in urban areas. Undergr. Space 2017, 2, 220–226. – reference: Departement of Economic and Social Affairs United Nation. World Urbanization Prospects 2018; Departement of Economic and Social Affairs United Nation: New York, 2018. – reference: Xie, P.; Chen, K.; Skibniewski, M.J.; Wang, J.; Luo, H. Parametric geological model update and probabilistic analysis of shield tunnel excavation: A borehole-based conditional random fields approach. Comput. Geotech. 2023. – reference: Mangi, M.Y.; Yue, Z.; Kalwar, S.; Ali Lashari, Z. Comparative Analysis of Urban Development Trends of Beijing and Karachi Metropolitan Areas. Sustainability 2020, 12, 451. – reference: Chen, L.; Shi, P.; Tang, Q.; Liu, W.; Wu, Q. Development and application of a specifification-compliant highway tunnel facility management system based on BIM. Tunn. Undergr. Space Technol. 2023. – reference: Tanoli, W.A.; Sharafat, A.; Park, J.; Seo, J.W. Damage Prevention for underground utilities using machine guidance. Autom. Constr. 2019, 107, 102893. – reference: Liuliu, Z. Research on Parametric Layout Method of Bridge BIM Model Based on Dynamo Visual Programming; Zhejiang University: Hangzhou, China, 2023. – reference: , 2023. – reference: Providakis, S.; Rogers, C.D.; Chapman, D.N. Predictions of settlement risk induced by tunnelling using BIM and 3D visualization tools. Tunn. Undergr. Space Technol. 2019. – reference: Zhang, X.C. Research on Quantitative Analysis and Calculation of Building Carbon Emission and Evaluation Method of Low-Carbon Building Structure; Harbin Institute of Technology: Harbin, China, 2022. – reference: Zhou, Y.; Wang, C.; Yuan, B.; Chen, M.; Lv, J. Research on Visual Management Technology of Tunnel Construction Process Based on BIM Technology. Adv. Civ. Eng. 2023. – reference: . – reference: Marrugat, M. Analysis of modelling 3D bedrock surfaces using interpolation methods - A comparison between models of 3D bedrock surfaces using different interpolation methods. Stockholm, Sweden, 2023. – reference: Sideri, D.; Modis, K.; Rozos, D. Multivariate geostatistical modelling of geotechnical characteristics of the alluvial deposits in West Thessaly, Greece. Bull. Eng. Geol. Environ. 2014, 73, 709–722. – reference: Sun, H.; Park, Y. CO2 Emission Calculation Method during Construction Process for Developing BIM-Based Performance Evaluation System. Appl. Sci. 2020. – reference: Khan, M. S., Park, J., & Seo, J. (2021). Geotechnical Property Modeling and Construction Safety Zoning Based on GIS and BIM Integration. – reference: Morin, G.; Deaton, S.L.; Chandler, R.; Miles, S. Silvertown Tunnel, London, England—A case study applying BIM principles to the geotechnical process. Geotech. Front. 2017, 587–595. – reference: Liuliu, Z.; Yonggang, S.; Jinjing, X.; Yan, N. Research on the method of Dynamo visual programming to create bridge information model of high-speed railway. Low Temp. Archit. Technol. 2022, 42, 86–89. – reference: Soil Classificaiton | Transcript |. Available online: – reference: Marrugat, M. Analysis of modelling 3D bedrock surfaces using interpolation methods - A comparison between models of 3D bedrock surfaces using different interpolation methods, 2022. – reference: Xie, P.; Zhang, R.; Zheng, J.; Li, Z. Probabilistic analysis of subway station excavation based on BIM-RF integrated technology. Autom. Constr. 2022. – ident: 10.1016/j.procs.2025.05.069_bib6 doi: 10.3390/su12020451 – ident: 10.1016/j.procs.2025.05.069_bib21 – ident: 10.1016/j.procs.2025.05.069_bib25 doi: 10.1016/j.autcon.2021.104114 – ident: 10.1016/j.procs.2025.05.069_bib1 doi: 10.3390/app11094004 – ident: 10.1016/j.procs.2025.05.069_bib23 – ident: 10.1016/j.procs.2025.05.069_bib12 doi: 10.1007/s10064-013-0568-2 – ident: 10.1016/j.procs.2025.05.069_bib9 – ident: 10.1016/j.procs.2025.05.069_bib5 – ident: 10.1016/j.procs.2025.05.069_bib13 doi: 10.3390/geosciences8090336 – ident: 10.1016/j.procs.2025.05.069_bib19 – ident: 10.1016/j.procs.2025.05.069_bib15 – ident: 10.1016/j.procs.2025.05.069_bib3 doi: 10.1061/9780784480441.061 – ident: 10.1016/j.procs.2025.05.069_bib10 doi: 10.1016/j.autcon.2019.102893 – ident: 10.1016/j.procs.2025.05.069_bib14 – ident: 10.1016/j.procs.2025.05.069_bib4 doi: 10.1016/j.tust.2019.103049 – ident: 10.1016/j.procs.2025.05.069_bib20 – ident: 10.1016/j.procs.2025.05.069_bib24 doi: 10.1016/j.compgeo.2023.105349 – ident: 10.1016/j.procs.2025.05.069_bib22 – ident: 10.1016/j.procs.2025.05.069_bib7 doi: 10.1155/2019/1515808 – ident: 10.1016/j.procs.2025.05.069_bib2 doi: 10.1109/AMCON.2018.8615004 – ident: 10.1016/j.procs.2025.05.069_bib17 doi: 10.3390/app10165587 – ident: 10.1016/j.procs.2025.05.069_bib18 – ident: 10.1016/j.procs.2025.05.069_bib8 doi: 10.1016/j.undsp.2017.10.003 – ident: 10.1016/j.procs.2025.05.069_bib11 doi: 10.1007/s12517-012-0633-3 – ident: 10.1016/j.procs.2025.05.069_bib16 |
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