اصـلانی مقـدم.ایمان،( 1388)، بررسـی مـدل بـرداریCellular Automata به منظور پیشبینی تغییرات
کاربری اراضی.، رجبـی، محمـد علـی، دانشـگاه تهران، گروه سیستم اطلاعات مکانی
ثابت سروستانی.مهدی، (1388)، بررسی رونـد رشـد شهر شیراز و تاثیر ان بر فضای سبز طی سه دهـه
ی گذشته،مجموعه مقالات همایش ژئوماتیک88،سازمان نقشه برداری کشور، تهران
جوادی. یاشار، (1387)، مدلسازی تغییـرات پوشـش زمین با استفاده از Cellular Automata در محیطGIS، رجبی. محمد علی، دانشـگاه تهـران، گـروهسیستم اطلاعات مکانی
رضازاده.راضــیه، میراحمــدی.م، (1388)، مــدل اتوماسیون سلولی، روشی نوین در شـبیه سـازی
رشد شـهری، نشـریه علمـی پژوهشـی فنـاوری آموزش،دانشگاه تربیت دبیر شهید رجایی، سـال چهارم، جلد 4، شماره 1
طیبـی. امـین، (1388)، پـیش بینـی و ارزیـابی تغییـرکاربری اراضی شهری در محیط سیستم اطلاعات
مکانی، دلاور. محمود رضا، یزدانپناه. محمد جواد،
کریسـتوفر پیجانوسـکی. برایان،دانشـگاه تهـران،گروه سیستم اطلاعات مکانی
ملکی.داود، 1389، مدلسازی توسعه شهری با استفاده از روش آتوماتای سـلولی، آل شـیخ.علی اصـغر،
دانشگاه صنعتی خواجه نصـیرالدین طوسـی،گروه سیستم اطلاعات مکانی
Acevedo, W., Foresman, T. W. and Buchanan,J. T., (1996). Origins and philosophy of
building a temporal database to examinehuman transformation processes.
Proceedings,ASPRS/ACSM AnnualConvention and Exhibition, Baltimore,
MD,Vol I, 148–161.
Almeida, C. M., Batty, M., Monteiro, A. M.V., Câmara, G., Soares-Filho, B. S.,
Cerqueira, G. C., et al. (2003). Stochasticcellular automata modeling of urban land
use dynamics: Empirical development andestimation. Computers, Environment and
Urban Systems, 27, 481 -509.
Almeida, C. M., Gleriani, J. M., Castejon, E.F., & Soares-Filho, B. S. (2008). Using
neural networks and cellular automata formodelling intra-urban land-use dynamics.
International Journal of GeographicalInformation Science, 22(9), 943-963.
Batty. M, Couclelis H. and Eichen M.,( 1997),
Urban systems as cellular automata,Environment and Planning B, No. 24, pp.159-164.
Batty. M (2009) Urban Modeling, in N. Thriftand R. Kitchin (Editors) InternationalEncyclopedia of Human Geography,Vol
12, Elsevier, Oxford, UK, pp. 51-58.
Batty M. and P. Longley (1994) Fractal cities:geometry of form and function, academic
press, San Diego.
Batty, M., Xie, Y., & Sun, Z. (1999). Modelingurban dynamics through GIS-based
cellular automata. Computers,Environment and Urban Systems, 23, 205-233.
Berjak, S. G., Hearne, J. W. (2002). Animproved cellular automata model for
simulating fire in a spatially heterogeneousSavanna system. Ecological Modelling,
148(2), 133- 151.
Couclies, H.(1985), Cellular worlds: aframework for modelling micro-macro
dynamics, Environment and Planning A17, 585-596.
Dietzel, C., & Clarke, K. C. (2006). The effectof disaggregating land use categories in
cellular automata during model calibrationand forecasting. Computers, Environment
and Urban Systems, 30(1), 78 -101.Eastman, R. J., (2001). Guide to GIS and
Image processing, Vo.2. Clark university,USA. 144.
Favier, C., Chave, J., Fabing, A., Schwartz, D.,& Dubois, M. A. (2004). Modelling forest
savanna mosaic dynamics in maninfluencedenvironments: Effects of fire,
climate and soil heterogeneity. EcologicalModelling, 171, 85 -102.
He C., Okada N., Zhang Q., Shi P. and LiJ.,Modeling dynamic urban expansion
processes incorporating a potential modelwith cellular automata, landscape and
urban planning, No.86, 2008, pp. 79-91.Inés Santé et al. “Cellular automata models for
the simulation of real-world urbanprocesses: A review and analysis”
Landscape and Urban Planning 96 (2010)108–122.
Han.j, Hayashi.Y, Cao.X, Imura.H. (2009)“Application of an integrated systemdynamics and cellular automata model forurban growth assessment: A case study of
Shanghai, China” Landscape and UrbanPlanning 91, 133–141
Holland, J.H. (1975). Adaption in Natural andArtificial Systems, University of Michigan
Press, Ann Arbor, MI.Lefteris A. Mantelas, Thomas. H, and
Poulicos, P 2010 “A Fuzzy CellularAutomata Modeling Approach – Accessing
Urban Growth Dynamics in LinguisticTerms”ICCSA 2010, Part I, LNCS 6016,
pp. 140–151, 2010.© Springer-VerlagBerlin Heidelberg.
Li, X., & Yeh, A. G. (2002). Neural-networkbasedcellular automata for simulating
multiple land use changes using GIS.International Journal of Geographical
Information Science, 16(4), 323-343.Ménard, A., & Marceau, D. J. (2007).
Simulating the impact of forestmanagement scenarios in an agricultural
landscape of southern Quebec, Canada,using a geographic cellular automata.
Landscape and Urban Planning, 79(3 4),253- 265.
O’Sullivan D.,( 2001) Exploring spatialprocess dynamics using irregular cellular
automaton models, Geographical Analysis,No. 33, pp. 1-18.
Silva. E.A., Clarke K.C. (2002) “Calibration ofthe SLEUTH urban growth model for
Lisbon and Porto, Portugal” Computers,Environment and Urban Systems 26 525–552.
Sun, T., & Wang, J. (2007). A traffic cellularautomata model based on road network
grids and its spatial and temporalresolution s influences on simulation+.
Simulation Modelling Practice and Theory,15, 864- 878.
Thorrens P.M., O’Sullivan D.,( 2001) Cellularautomata and urban simulation: where do
we go from here?, Environment andPlanning B, No.28, pp. 163-168.
Wahle, J., Neubert, L., Esser, J., &Schreckenberg, M. (2001). A cellular
automata traffic flow model for onlinesimulation.
White, R. and Engelen, G.(1993), Cellularautomata and fractal urban form: a cellular
modeling approach to the evolution ofurban land use patterns, Environment andPlanning A. 25:1175-1199.
White, R., Engelen, G., & Uljee, I. (2000).
Modelling land-use change with linkedcellular automata and socio-economic
models: A tool for exploring the impact ofclimate change on the island of St. Lucia.
In M. J. Hill & R. J. Aspinell (Eds.),Spatial information for land-use
management (pp. 189 204). Amsterdan:Gordonand Breach.
White R. and Engelen G.,( 2000) Highresolutionintegrated modeling of the
spatial dynamics of urban and regionalsystems, Computers, Environment and
Urban Systems, No. 24, pp. 383-400.
Wu, F. (2002). Calibration of stochasticcellular automata: The application to rural
urban land conversions. InternationalJournal of Geographical InformationScience, 16(8), 795 -818.
Yassemi, S., Dragicevic, S., & Schmidt, M.(2008). Design and implementation of
anintegrated GIS-based cellular automatamodel to characterize forest fire behaviour.Ecological Modelling, 210, 71- 84.
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