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One of the major problems human beings are confronted with in urban setting is the removal of urban waste. This problem has persuaded the urban authorities to use various tools such as Geographic Information System (GIS) to locate landfills. To do that, Sloan Digital Sky Survey (SDSS) has been used in which or multi-criteria decision making (MCDM) methods and GIS are combined. The selection of the burial place and landfill has great importance and different criteria must be considered. SDSS, using MCDM is able to investigate locating landfill using various criteria simultaneously and it determines its importance. This research aims at presenting suitable solution through using computer and GIS related to solid urban waste and their locating in Hamadan based on standard criteria. A comprehensive model based on GIS, to get the suitable burial place and landfill can help to save time and cost. The model of locating burial place of urban solid waste has been presented.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
47--56
Opis fizyczny
Bibliogr. 24 poz., tab., rys.
Twórcy
autor
- Young Researchers and Elite Club, Hamedan Branch, Islamic Azad University, Hamedan, Iran
autor
- Young Researchers and Elite Club, Hamedan Branch, Islamic Azad University, Hamedan, Iran
autor
- Young Researchers and Elite Club, Hamedan Branch, Islamic Azad University, Hamedan, Iran
autor
- Young Researchers and Elite Club, Hamedan Branch, Islamic Azad University, Hamedan, Iran
Bibliografia
- [1] GORSEVSKI P.V., DONEVSKA K.R., MITROVSKI C.D., FRIZADO J.P., Integrating multi-criteria evaluation techniques with geographic information systems for landfill site selection: A case study using ordered weighted average, Waste Manage., 2012, 32, 287.
- [2] GOORAH S., ESMYOT M., BOOJHAWON R., The health impact of nonhazardous solid waste disposal in a community: the case of the Mare Chicose landfill in Mauritius, J. Environ. Health, 2009, 72, 48.
- [3] CHIUEH P.T., LO S.L., CHANG C.L., A GIS-based system for allocating municipal solid waste incinerator compensatory fund, Waste Manage., 2008, 28, 2690.
- [4] ISHIZAKA K., TANAKA M., Resolving public conflict in site selection process – a risk communication approach, Waste Manage., 2003, 23 (5), 385.
- [5] BABAN S.M., FLANNAGAN J., Developing and implementing GIS-assisted constraints criteria for planning landfill sites in the UK, Plan. Practice Res., 1998, 13 (2), 139.
- [6] JANKOWSKI P., ROBISCHON S., TUTHILL D., NYERGES T., RAMSEY K., Design considerations and evaluations of a collaborative, spatio-temporal decision support system, Transactions in GIS, 2006, 10, 335.
- [7] MCBEAN E.A., ROVERS F.A., FARQUHAR G.J., Solid Waste Landfill Engineering and Design, Prentice Hall, New Jersey 1995.
- [8] XIE Y., BATTY M., ZHAO K., Simulating emergent urban form using agent-based modeling: desakota in the Suzhou-Wuxian region in China, Ann. Assoc. Amer. Geography, 2007, 97, 477.
- [9] MAKROPOULOS C., BUTLER D., MAKSIMOVIC C., Fuzzy logic spatial decision support system for urban water management, J. Water Res. Pl. ASCE, 2003, 129, 69.
- [10] JANKOWSKI P., EWART G., Spatial decision support system for health practitioners: selecting a location for rural health practice, Int. J. Geogr. Inf. Syst., 1996, 3, 279.
- [11] BOROUSHAKI S., MALCZEWSKI J., Using the fuzzy majority approach for GIS based multicriteria group decision-making, Comput. Geosci., 2010, 36, 302.
- [12] MALCZEWSKI J., Ordered weighted averaging with fuzzy quantifiers: GIS-based multi criteria evaluation for land-use suitability analysis, Int. J. Appl. Earth Obs. Geoinform., 2006, 8, 270.
- [13] GORSEVSKI P.V., JANKOWSKI P., An optimized solution of multi-criteria evaluation analysis of landslide susceptibility using fuzzy sets and Kalman filter, Comput. Geosci., 2010, 36, 1005.
- [14] NASERI H., KHEYRKHAH ZARKESH M., AZIZKHANI M., Spatial decision support systems ability on locating special landfill, Beheshti University, 2008, 22, 265–277.
- [15] HENDRIX W.G., BUCKLEY D.J.A., Use of a geographic information system for selection of sites for land application of sewage waste, J. Soil Water Conserv., 1992, 47 (3), 271.
- [16] KHORASANI N., KORAKI F., Use of GIS for identification of municipal solid waste landfill in dry area, Biyaban 1999, 1 (5), 35.
- [17] NARAYANAN M., DAVIS L.C., TRACY J.C., ERICKSON L.E., Modeling the fate of toluene in a chamber with alfalfa plants, 2. Numerical results and comparison study, J. Hazard. Subst. Res., 1998, 1 (5), 40.
- [18] NASIRI H.R., KHEIRKHAH Z., MIRMASOODKHANI M.J., The ability of decision support systems in place (SDSS) In locating specific landfill, Martyr Beheshti University, 2008, 32, 356.
- [19] HEYDAR ZADEH N., Criteria for Municipal Solid Waste Landfill Location, Tarbiatmodares University, 2001, 22, 256.
- [20] KLOSTERMAN R., BRAIL R., BOSSARD E., Spreadsheet models for urban and regional analysis. Center for urban policy research, Rutgers University, New Jersey 1997.
- [21] DENSHAM P.J., Spatial decision support systems, Geographical Information Systems: Principles and Applications, 1991, 1, 403.
- [22] BENNET J.L., Overview. Building Decision Support Systems, Addison-Wesley, Boston 1983.
- [23] KEEN P.G.W., SCOTT MORTON M.S., Decision Support Systems: An Organizational Perspective, Addison-Wesley, Boston 1978.
- [24] SCHOLTEN H.J., STILLWELL J.C.H., Geographical Information Systems for Urban and Regional Planning, Kluwer Academic Publishers, Dordrecht 1998.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3fc23032-d27a-45f4-93f1-4d762d835818
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