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Volume 5 Issue 4
Dec.  2017
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WANG Xiao-ming, XUE Fei. 2017: The Arc-view application in the field of hydrology and water resources. Journal of Groundwater Science and Engineering, 5(4): 387-396.
Citation: WANG Xiao-ming, XUE Fei. 2017: The Arc-view application in the field of hydrology and water resources. Journal of Groundwater Science and Engineering, 5(4): 387-396.

The Arc-view application in the field of hydrology and water resources

  • Publish Date: 2017-12-28
  • Through system design and analysis from the aspects of entity categories, hierarchical design, attribute design, and the final function design and realization of the system, this paper develops a software application based on Arc-view platform with a view to solving the deficiencies of conventional groundwater dynamic management in managing the spatial graphics data. Using this application into the supporting automatic monitoring system of groundwater level helps to achieve the automatic analysis of attribute data, and offer a new, visual and efficient automated management tool. Moreover, the computer geospatial modeling can realize the quick query and spatial analysis of geographic information, and thus facilitating dynamic simulation and prediction of the research object. However, a multi-functional, multi-level groundwater level information management system is a complex system engineering, which requires continuous improvement of the structure, development of functions, and supplement of user models.
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  • JIA Zheng-qiang. 2010. Numerical simulation of groundwater of irrigation area in Weibei loess Tableland. Shaanxi Province: Northwest A & F University.
    CHEN Zhi-yun. 2012. RS/GIS-based study on changes of groundwater level depth and response of vegetation ecology in Xiliaohe Plain. Changchun: Jilin University.
    WANG Zhan. 2015. Yuqia-Dachaidan Basin ground?water eco-environmental effects and eco?logical evaluation. Chinese Academy of Geological Sciences.
    LI Shen. 2012. Pattern and simulation study of Hami Basin groundwater level dynamic change. Urumchi: Xinjiang Agricultural University.
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    MENG Ge-ping, YIN Shi-yang, et al. 2012. Effect of reclaimed water usage on groundwater level based on GIS. Journal of Irrigation and Drainage, 31(6):135-138.
    CHEN Cui. 2015. Research on visualization technique of groundwater level red line management based on GIS. Nanjing: Nanjing Normal University.
    LIU Jing. 2015. Management information system based on GIS of groundwater level forecast. Urban Geotechnical Investigation and Surveying, 6:38-40.
    LIU Er-min, ZHANG Ni, HAN Peng-li. 2014. Analysis of present situation of groundwater level in Changping District based on GIS. Beijing Water, 4:24-27.
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    GUO Yu-chuan. 2011. Groundwater level control study based on ecological security of inland arid area. Urumchi: Xinjiang Agricultural University.
    WANG Zong-wen, YOU Su-nan. 2013. Analysis and research for key quality control point of geotechnical investigation. Construction and Design for Project, 64-68.
    ZHAO Feng. 2015. Analysis of space-time variation characteristics of groundwater level based on GIS in Daxing district of Beijing. Beijing Water, 1:33-36.
    Reichhardt. 1996. Environmental GIS: The world in a computer. Environmental Sciences, 30(8):340.
    ZHANG Zai-ming. 2011. Achievements and problems of geotechnical engineering investigation in China. Journal of Zhejiang University-Science A (Applied Physics & Engineering), 12(2):87-102.
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