Abstract
Urban 3D geological modeling is a typical application of 3D information technology in urban geological area, which significantly promotes expression of result of urban geological investigation, upgrades capability of evaluating and predicting urban geological resources and environment, and has important supporting function to urbanization construction in China. By establishing model of 3D geological body of quaternary formation in Tongzhou area, the geological information was transformed into visual 3D geological body and been visually display, which simplifies management of underground space in city, and the visualization system were completed to realize various function, which has both theoretical and practical importance to evaluation of underground resource, protection of supergenetic ecological environment, and rational development of underground resource, and provides scientific basis for decision-making in engineering construction planning and development, management and development of groundwater resources, pollution monitoring, and ground subsidence.
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References
Wu, C.L., Niu, R.Q., Liu, G., Kong, C.F., Lei, S.T., Liu, P.D.: Construction aim and solution of the urban geological information system. J. Geol. Sci. Technol. Inf. 22(3), 67–72 (2003)
Zhu, L.F., Wu, X.C., Yin, K.L., Liu, X.G.: Study of management and service system of urban 3D geological data supported by 3D GIS. J. Huazhong Univ. Sci. Technol. (Urban Sci. Ed.) 20(4), 40–46 (2005)
Mark, J.: Three-dimensional geological modelling of potential-field data. J. Comput. Geosci. 27(4), 455–465 (1994)
Liu, Y.: Geomatics and earth observation science (EOS) for disaster management: an overview. J. Geomech. 14(3), 212–220 (2008)
Ehlen, J., Harmon, R.: GeoComp 99: GeoComputation and the geosciences. J. Comput. Geosci. 27(27), 899–900 (2001)
Christian, J.: 3D geoscience modeling: computer techniques for geological characterization. J. Earth-Sci. Rev. 40(3–4), 299–301 (1994)
Wang, M., Bai, Y.: The status quo and development tendency of 3D geosciences modeling. J. Soil Eng. Found. 20(4), 27–29 (2006)
Wang, R., Li, Y., Liu, Y., Xiang, Z.: Import and determination methods for virtual borehole in Geo -3D modeling. J. Geol. Prospect. 43(3), 102–107 (2007)
Hou, E., Wu, L.: Present state and developing trend in the research on main issues of - 3D geoscience modeling. J. Coal Geol. Explor. 28(6), 5–8 (2000)
Qu, H.G., Pao, M., Liu, X.Q., Yu, C.L.: Urban 3-D geological modeling and its application to urbanization. J. Geol. Bull. China 34(7), 1350–1358 (2015)
Zeng, Q., He, X.: Mathematical model and display method of three dimensional geological modeling. J. Eng. Geol. Comput. Appl. 3, 1–8 (2006)
Li, Y., Guosheng, Q., Chen, J.: Realization of 3D subsurface geological modeling software in urban areas based on borehole data. J. Geol. Bull. China 24(5), 470–475 (2005)
Acknowledgments
This work was supported by the Geological Survey Project “Research and development of geological information product system and social service” (DD20160353) of China Geological Survey.
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Zhang, M., Li, W., Yan, Q., Zhang, M., Liang, W. (2018). The Research on 3D Modelling and Visualization of the Quaternary in Tongzhou Area, Beijing. In: Yuan, H., Geng, J., Liu, C., Bian, F., Surapunt, T. (eds) Geo-Spatial Knowledge and Intelligence. GSKI 2017. Communications in Computer and Information Science, vol 848. Springer, Singapore. https://doi.org/10.1007/978-981-13-0893-2_1
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DOI: https://doi.org/10.1007/978-981-13-0893-2_1
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