Construction of Multi-scale Ecological Environment Database Management Model Based on Hadoop

Juxiang Ren

Ekoloji, 2019, Issue 108, Pages: 855-859


Download Full Text (PDF)


In order to further deepen the research on the ecological environment database management model, a method of building a multi-scale ecological environment database management model based on Hadoop is proposed. Taking the multi-scale land boundary as the research area, the trapezoidal grid and rectangular grid are divided according to the 1:100,000, 1:10000, and 1:2000 topographic maps, and the multi-scale ecological environment data integration analysis is performed for the data of different elements. Based on this, the multi-scale ecological environment database management model is built based on Hadoop platform. The experimental results show that the model has short running time and strong practicability in both stand-alone and distributed environments, which show that the proposed method is practical.


Hadoop, multi-scale grid, ecological environment database, model


  • Ingarao G, Priarone PC, Deng Y, Paraskevas D (2018) Environmental modelling of aluminium based components manufacturing routes: additive manufacturing versus machining versus forming. Journal of Cleaner Production 176:261-275.
  • Li H, Wang J, Ye M (2018) Concurrent processing model of massive meteorological hydrological data based on Hadoop. Journal of Computer Applications 38 (z2):62-68.
  • Mahmoud ME, El-Khatib AM, Badawi MS, Rashad AR, El-Sharkawy RM, Thabet AA (2018) Recycled high-density polyethylene plastics added with lead oxide nanoparticles as sustainable radiation shielding materials. Journal of Cleaner Production 176:276-287.
  • Niu Q, Yu L, Jie Q, et al. (2018) An urban eco-environmental sensitive areas assessment method based on variable weights combination. Environment, Development and Sustainability 28 (2):1-17.
  • Tan F, Bi J (2018) An inquiry into water transfer network of the yangtze river economic belt in china. Journal of Cleaner Production 176:288-297.
  • Wang YF, Chen G, Wang D (2017) Optimum Design and Implementation of Environmental Protection WebGIS System Architecture Based on Hadoop and HTML5. China Market Marketing 45 (9):29-30.
  • Zheng J, Hao YU, Huang S (2017) Evaluation and obstacle factors study on eco-environmental carrying capacity in Fujian Province based on DPSIR-TOPSIS model. Acta Scientiae Circumstantiate 32 (17):122-128.
  • Zhou X, Wang MG (2017) Research on Data Storage and Processing Technology of Multi-source Heterogeneous Power Distribution Based on Hadoop. Automation & Instrumentation 35 (12):223-224.