Abstract
Since the development of underground space has the characteristics of “difficult to recover, one-off, and difficult to budget”, the planning of underground space is particularly important. Traditional two-dimensional planning technology is difficult to describe three-dimensional spatial information such as underground complex geological environment, and three-dimensional GIS technology can solve this problem better, which can greatly enrich the urban planning, construction, and management control methods. This paper uses a combination of GIS software to carry out the three-dimensional geological modeling of above-ground and underground integration in the study area, and puts forward application suggestions for the underground space planning of the area, providing support for decision-making support for the government and relevant departments. and provide a demonstration for other cities to carry out urban geological survey work.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abdullah AAA, Noor NM, Abdullah A (2017) Constructing and Modeling 3D GIS Model in City Engine for Traditional Malay City. In: Proceedings of the Second International Conference on the Future of ASEAN (ICoFA) 2: 285-293
Chen W, Hu Q, Jiao Y et al (2014) Applications of 3D Geological Modele in the Development of Underground Space in Tai’an City. Land Res Shangdong Prov 30(5):59–64 (In Chinese)
Cheng P, Li Z, Nie Y et al (2018) Rapid batch automatic modeling method of urban road lamps based on CityEngine and 3Dmax. Engineering of Surveying and Mapping 27(5):40–45 (In Chinese)
Christopher DFR, Parker H, Raymond S et al (2012) Sustainability issues for underground space in urban areas. Urban Design Planning 165(4):241–254
de Rienzo F, Oreste P, Pelizza S (2009) 3D GIS Supporting Underground Urbanisation in the City of Turin (Italy). Geotech Geol Eng 27(4):539–547
Divya PB, Dodagoudar GR (2018) An integrated geotechnical database and GIS for 3D subsurface modelling: Application to Chennai City, India. Appl Geomatics 10(1):47–64
Fang M (2017) Building 3D modeling based on 3DMax. Technol Econ Areas Commu 19(3):68–71 (In Chinese)
Feng S, Liu H, Liu Y (2016) Geographical spatial data optimization in the construction of three dimensional GIS—Take 3Dmax digital city modeling as an example. World Nonferrous Metal 18:38–39 (In Chinese)
Hamid Q, Chauhdry MH, Mahmood S et al (2016) Arc GIS and 3D Visualization of Land Records: A Case Study of Urban Areas in Punjab. Natl Acad Sci Lett 39(4):277–281
Huang G (2015) Research and Application of Automatic Slicing Method Based on 3DMax 3D City Building Model. Sci Techncl Inf 1–5 (In Chinese)
Huang H, Liu (2013) Building 3D Web Map Applications Based on Google Earth and ArcGIS Server. Proceedings of the 2012 International Conference on Communication, Electronics and Automation Engineering 181:813-819
Jian B, Yang D, Zhang P et al (2016) Environmental Challenge in State-level New District and the Way Out–Taking Tian Fu New District as an Example. Environ Prot 44(24):58–61
Li J, Liu Y (2016) Research on Building Three-dimensional Modeling Based on 3D MAX and AutoCAD Technology. Auto Instrum 185–186 (In Chinese)
Li D, Zhu Q, Liu Q et al (2004) From 2D and 3D GIS for CyberCity. Geo-spatial Inf Sci 7(1):1–5
Li Y, Chen G, Wang D (2017) Research and Application of 3D Visualization Plug-in Integration with ArcGIS. The International Conference on Intelligent Agriculture 2017 (ICIA2017)
Liu S, Zhao L, Li J et al (2016) Three Dimensional Scene Modeling Based on SketchUp, Tiling and ArcGIS. GRMSE 778–786
Liu Y, Quan Q, Wang F et al (2018) Evaluation and Space-Temporal Evolution Analysis of Comprehensive Carrying Capacity in Chengdu Urban Agglomeration. In: Proceedings of the Twelfth International Conference on Management Science and Engineering Management 1205-1221
Lu P, Ke H, Kui L et al (2017) Three-dimensional modeling technology with optimization of retrieval efficiency based on quatree algorithm. J Geol Hazards Environ Preserv 28(2):84–92 (In Chinese)
Mallet J-L (1992) Discrete smooth interpolation in geometric modeling. Comput Aided Design 24(4):178–191
Mallet J-L (2002) Geomodeling. Oxford University Press, New York
Peng G, He Y, Sun Y et al (2011) Three-Dimensional Game Modeling and Design Research Based on 3Dmax Software. International Conference on Computer Science, Environment, Ecoinformatics, and Education 192-196
Qiu Y, Huang M, Wang Z et al (2012) Research and Implementation of Information Systems about Digital Underground Engineering Based on 3D GIS. Advances in Electronic Commerce, Web Application and Communication 449-454
Scianna A (2013) Building 3D GIS data models using open source software. Appl Geomatics 5(2):119–132
Uliasz-Misia KB, Przybycin A (2016) Present and future status of the underground space use in Poland. Environ Earth Sci 75(22):1–15
Vähäaho I (2014) Underground space planning in Helsinki. J Rock Mech Geotech Eng 6(5):387–398
Vähäaho I (2015) An introduction to the development for urban underground space in Helsinki. Tunn Undergr Space Technol 55:324–328
Velasco V, Gogu R, Vázquez-Suñè E et al (2013) The use of GIS-based 3D geological tools to improve hydrogeological models of sedimentary media in an urban environment. Environ Earth Sci 68(8):2145–2162
Wallace IM, Ng CK (2016) Development and application of underground space use in Hong Kong.Tunneling and Underground. Space Technol 55(5):257–279
Wang X (2016) Realization of 3D Digital City Based on MapGIS. Comput Technol Dev 26(12):96–102 (In Chinese)
Wang J, Song S (2012) Analysis of Animation Art Design Based on 3Dmax Technology. In: Proceedings of the 2nd International Conference on Green Communications and Networks 2012 743-750
Wang Y, Zhang X, Chen W (2017) 3D modeling method and its application of engineering geology based on multi-source drilling data. China Mining Mag 26(2):387–390 (In Chinese)
Wu F, Jiang S, Chen B et al (2018a) Application of Three-dimensional Geological Model in the Development of Underground Space in Guilin City. Nanfang Guotu Ziyuan. Land Res Southern China25–29 (In Chinese)
Wu H, Xin J, Shen W (2018b) Modeling and Realization of Three-dimensional Digital City Based on MapGIS,BIM and SketchUp Platform. Urban Geotechnical Investigation & Surveying 19–24 (In Chinese)
Yuan Y (2017) Research on Modeling Technology of Virtual Reality Three-Dimensional Architectural Model Based on 3D MAX. Telecom World 11:271–272 (In Chinese)
Yuan Y, Chunfu S, Xun J et al (2017) True 3D Surface Feature Visualization Design and Realization with MapGIS K9. GITSS 2016: Green Intelligent Transportation Systems 419: 13-27
Zhang Q, Zhao J, Gu Y et al (2017) Evaluation of terrestrial radiation in the Chengdu Plain using 1/250,000-scale geochemical prospecting data. Nuclear Science and Techniques 28(10):33-38
Zhang H, Yang R, Wang Y et al (2018) The evaluation and prediction of agriculture-related nitrate contamination in groundwater in Chengdu Plain, southwestern China. Hydrogeology 27(2):785-799
Zhou YX, Zhao J (2016a) Assessment and planning of underground space use in Singapore. Tunn Undergr Sp Technol 55(5):249–256
Zhou Y, Zhao J (2016b) Advances and challenges in underground space use in Singapore. Geotechnical Engineering Journal of the SEAGS and AGSSEA 47(3):85–95
Acknowledgments
This research was supported by the Geological Survey of the China Geological Survey of the Ministry of Natural Resources, “Chengdu Multi-element City Geological Survey”(DD20189210).
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by: H. Babaie
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Hao, M., Wang, D., Deng, C. et al. 3D geological modeling and visualization of above-ground and underground integration ——taking the Unicorn Island in Tianfu new area as an example. Earth Sci Inform 12, 465–474 (2019). https://doi.org/10.1007/s12145-019-00394-z
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12145-019-00394-z