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Development of evaluation system of coastline resource in Dafeng

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Coastline is one type of valuable non-renewable resources. From the perspective of economic theory, it can gather population, promote traffic construction, and then improve the level of international trade. The research object of this paper is the coastline resource in Dafeng area. Firstly, we have a brief summary of the existing coastline evaluation literature, then introduce the location and natural attributes of the coastline resources in Dafeng. Following that, the Analytic Hierarchy Process (AHP) model is used to build the economic evaluation index system based on the characteristics of coastline in Dafeng. Specially, this index system consists of 6 factors, and a total of 41 detailed indicators were chosen including water depth, GDP, etc. On this basis, we use the assignment method to quantify the weight of each index, and calculate the comprehensive score of coastline resource by using the YAAHP software. The final conclusion is as follows: The total score of economic evaluation of coastline resource in Dafeng is 0.87. Therefore, the coastline resource in Dafeng will eventually be constructed a unique coastal economic zone, where the implemented port industrial projects will include shipbuilding, logistics, mechanical processing etc.
Rocznik
Tom
S 2
Strony
181--187
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
  • Business School, Hohai University, Nanjing 211100, China
  • Gulf Coast Research & Education Center, University of Florida, Wimauma 33598, United States
autor
  • Business School, Hohai University, Nanjing 211100, China
autor
  • School of Urban Planning Yancheng Teachers University 224007 Yancheng China
Bibliografia
  • 1. Peter G.: Approximation schemes for parallel machine scheduling with non-renewable resources. European Journal of Operational Research. No.1,Vol.258, 2017, p.113-123.
  • 2. Gregory S., Steffen R.: Dynamic convexification within nested Benders decomposition using Lagrangian relaxation: An application to the strategic bidding problem. European Journal of Operational Research. No,2,Vol.257, 2017, p.669-686.
  • 3. Paul A., Omheni R.: A globally and quadratically convergent primal-dual augmented Lagrangian algorithm for equality constrained optimization. Optimization Methods & Software. No.1,Vol.32, 2017, p.1-21.
  • 4. Curtis F.E.: Adaptive augmented Lagrangian methods: algorithms and practical numerical experience. Optimization Methods & Software. No.1,Vol.31, 2016, p.157-186.
  • 5. Rob H.: Non-renewable resources in the long run. Journal of Economic Dynamics and Control. No.1,Vol.71, 2016, p.1-20.
  • 6. Derpich I., Sepulveda J.: Lagrangian Formulation for Energy-efficient Warehouse Design. Intenational Journal ofcomputers communications & control. No.1,Vol.12, 2017, p.41-52.
  • 7. Zhang Z.: Environmental and Natural Resource Economics. High Education Press, Beijing, 2008.
  • 8. Josep M.: The optimal utilization proportion of external beam radiotherapy in European countries: An ESTROHERO analysis. Radiotherapy and Oncology. No.1,Vol.116, 2015, p.38-44.
  • 9. Curtis F.E.: Adaptive augmented Lagrangian methods: algorithms and practical numerical experience. Optimization Methods & Software. No.1,Vol.31, 2016, p.157-186.
  • 10. Chen M., Xu C.X.: Study of Urban Economic and Environmental System Coordinated Development Measure. International Journal of Applied Environmental Sciences. No.4,Vol.9, 2014, p.1603-1613.
  • 11. Katie W.: Optimal utilization of a breast care advanced practice clinician. The American Journal of Surgery. No.6,Vol.208, 2014, p.1054-1059.
  • 12. Michael L.: Optimal Sequential Plantings of Corn and Soybeans Under Price Uncertainty. American Journal of Agricultural Economics. No.3,Vol.97, 2015, p.855-878.
  • 13. Chen M., Xu C.X.: Study on rural water pollution causes and prevention of Jiangsu province. Journal of Chemical and Pharmaceutical Research. No.12,Vol.5, 2013, p.532-536.
  • 14. Wang B.Q., Cao T.T., Chen M.: (2014). Study on the Problems and Countermeasures of Metropolis Water Source Protection. BioTechnoogy: An Indian Journal. No.12,Vol.10, 2014, p.1203-1208.
  • 15. Derpich I., Sepulveda J.: Lagrangian Formulation for Energy-efficient Warehouse Design. Intenational Journal ofcomputers communications & control. No.1,Vol.12, 2017, p.41-52.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f1d86f9c-fa2d-440f-94ff-30ae8bd6554d
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