Advanced search
Publication Cover
Annals of GIS Volume 29, 2023 - Issue 1
Submit an article Journal homepage
1,811
Views
0
CrossRef citations to date
0
Altmetric
Articles

Urban growth dynamics modeling through urban DNA in Tehran metropolitan region

Mahdi Modiria Department of Geography and Urban Panning, Malek-e-Ashtar University of Technology, Tehran, IranORCID Iconhttps://orcid.org/0000-0003-2739-9421
ORCID Icon,
Yones Gholamib Department of Geography and Tourism, University of Kashan, Kashan, IranCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-6585-3395
ORCID Icon &
Seyed Ahmad Hosseinic Department of Geography and Urban Planning, University of Sistan and Baluchestan, Zahedan, IranORCID Iconhttps://orcid.org/0000-0002-2861-3680
ORCID Icon
Pages 55-74 | Received 04 Mar 2021, Accepted 20 Apr 2022, Published online: 07 Jun 2022

References

  • Acioly, C. C., and F. Davidson. 1996. “Density in Urban Development.” Building Issues 8 (3): 3–25.
  • Al-Ahmadi, K., L. See, A. Heppenstall, and J. Hogg. 2009. “Calibration of a Fuzzy Cellular Automata Model of Urban Dynamics in Saudi Arabia.” Ecol. Complex 6 (2): 80–101. doi:10.1016/j.ecocom.2008.09.004.
  • Al-kheder, S., Wang, J., Shan, J., 2008. Fuzzy inference guided cellular automata urban-growth modelling using multi-temporal satellite images. Int. J. Geogr. Inform. Sci. 22 (11–12), 1271–1293.
  • Almeida, C. M., M. Batty, A. M. V. Monteiro, G. Camara, B. S. Soares-Filho, G. C. Cerqueira, and C. L. Pennachin. 2003. “Stochastic Cellular Automata Modeling of Urban Land Use Dynamics: Empirical Development and Estimation.” Computers, Environment and Urban Systems 27: 481–509.
  • AlmeidaLi, C., J. Li, and J. Wu. 2013. “Quantifying the Speed, Growth Modes, and Landscape Pattern Changes of Urbanization: A Hierarchical Patch Dynamics Approach.” Landscape Ecology 28 (10): 1875–1888.
  • Anderson, W. P., P. S. Kanaroglou, and E. J. Miller. 2001. “Urban Form, Energy and the Environment: A Review of Issues, Evidence and Policy.” Urban Studies 33 (1): 7–35. doi:10.1080/00420989650012095.
  • Aniekan, E., O. Dupe Nihinlola, N. Peter, M. I. Onuwa Okwuashi, and D. Udoudo. 20122012. ”Modelling and Predicting Future Urban Expansion of Lagos, Nigeria from Remote Sensing Data Using Logistic Regression and GIS.” International Journal of Applied Science and Technology 2 (5,): 116–124.
  • Arsanjani, J., M. Helbich, W. Kain, and A. Darvishi Boloorani. 2013. “Integration of Logistic Regression, Markov Chain and Cellular Automata Models to Simulate Urban Expansion.” International Journal of Applied Earth Observation and Geoinformation 21: 265–275. doi:10.1016/j.jag.2011.12.014.
  • Barnes, K. B., J. M. Morgan III, M. C. Roberge, and S. Lowe (2001). Sprawl Development: Its Patterns, Consequences, and Measurement. A white paper, Towson University. URL: http://chesapeake.towson.edu/landscape/urbansprawl/download/Sprawl_white_paper.pdf.
  • Barredo, J. I., M. Kasanko, N. McCormick, and C. Lavalle. 2003. “Modelling Dynamic Spatial Processes: Simulation of Urban Future Scenarios Through Cellular Automata.” Landsc. Urban Plann 64: 145–160.
  • Barredo, J. I., L. Demicheli, C. Lavalle, M. Kasanko, and N. McCormick. 2004. “Modelling Future Urban Scenarios in Developing Countries: An Application Case Study in Lagos, Nigeria.” Environment and Planning B 31: 65–84. doi:10.1068/b29103.
  • Batty, M., and P. Longley. 1994. 4 Fractal Cities. A Geometry of Form and Function. London: Academic Press.
  • Batty, M., and Y. Xie. 1996. “Preliminary Evidence for a Theory of the Fractal City.” Environment and Planning A 28 (10): 1745–1762. doi:10.1068/a281745.
  • Batty, M., and Y. Xie. 1997. “Possible Urban Automata.” Environ. Plann. B: Plann. Design 24: 175–192.
  • Batty, M., Y. Xie, and Z. Sun. 1999. “Modeling Urban Dynamics Through GIS-Based Cellular Automata.” Computers, Environment and Urban Systems 23: 205–233.
  • Bhatta, B. 2008. Remote Sensing and GIS. New York and New Delhi: Oxford University Press.
  • Brueckner, J. K. 2000. “Urban Sprawl: Diagnosis and Remedies.” International Regional Science Review 23 (2): 160–171. doi:10.1177/016001700761012710.
  • Caruso, G., Rounsevell, M., Cojocaru, G., 2005. Exploring a spatio-dynamic neighbourhood-based model of residential behaviour in the Brussels periurban area. Int. J. Geogr. Inform. Sci. 19 (2), 103–123.
  • Cheng, J., and I. Masser. 2003. “Urban Growth Pattern Modeling: A Case Study of Wuhan City, PR China.” Landscape and Urban Planning 62: 199–217. doi:10.1016/S0169-2046(02)00150-0.
  • Chunyang, H., P. Shi, J. Li, J. Chen, Y. Pan, J. Li, and T. Ichinose. 2006. “Restoring Urbanization Process in China in the 1990s by Using Non-Radiance-Calibrated DMSP/OLS Nighttime Light Imagery and Statistical Data.” Chinese Science Bulletin 51 (13): 1614–1620.
  • Clarke, K. C., S. Hoppen, and L. Gaydos. 1997. “A Self-Modifying Cellular Automaton Model of Historical Urbanization in the San Francisco Bay Area.” Environ. Plann. B: Plann. Design 24: 247–261.
  • Clarke, K. C., and L. J. Gaydos. 1998. Loose-Coupling a Cellular Automaton Model and GIS: Long-Term Urban Growth Prediction for San Francisco andWashington/baltimore. International.
  • Couclelis, H. 1997. “From Cellular Automata to Urban Models: New Principles for Model Development and Implementation.” Environment and Planning. B, Planning & Design 24 (2): 165–174.
  • Deadman, P., R. D. Brown, and H. R. Gimblett. 1993. “Modelling Rural Residential Settlement Patterns with Cellular Automata.” Journal of Environmental Management 37: 147–160.
  • Deng, X., J. Huang, S. Rozelle, and E. Uchida. 2008. “Growth, Population and Industrialization, and Urban Land Expansion of China.” Journal of Urban Economics 63: 96e115. doi:10.1016/j.jue.2006.12.006.
  • Dubovyk, O., R. Sliuzas, and J. Flacke (2010). Spatial-Temporal Analysis of Informal Settlements Development: A Case Study in Istanbul, Turkey. Conference Proceeding of EARSeL Joint SIG Workshop: Urban 3D Radar Thermal Remote Sensing and Developing Countries. At Ghent.
  • Engelen, G., S. Geertman, P. Smits, and C. Wessels, S. Stillwell, S. Geertman, S. Openshaw 1999. ”Dynamic GIS and Strategic Physical Planning Support: A Practical Application to the Ijmond/zuidkennemerland Region.” In Geographical Information and Planning, edited by S. Stillwell, S. Geertman, S. Openshaw Berlin: Springer-Verlag.
  • Fogel, D. B. 2000. What Is Evolutionary Computation?, 26–32. IEEE Spectrum.
  • Forman, R. T. T. 1995. Land Mosaics: The Ecology of Landscapes and Regions. Cambridge: Cambridge University Press.
  • Frumkin, H. 2002. “Urban Sprawl and Public Health.” Public Health Reports 117: 201–217. doi:10.1016/S0033-3549(04)50155-3.
  • Galster, G., R. Hanson, H. Wolman, S. Coleman, and J. Freihage. 2001. “Wrestling Sprawl to the Ground: Defining and Measuring an Elusive Concept.” Housing Policy Debate 12 (4): 681–717. doi:10.1080/10511482.2001.9521426.
  • Geymen, A., and I. Baz. 2008. “Monitoring Urban Growth and Detecting Land-cover Changes on the Istanbul Metropolitan Area.” Environmental Monitoring Assessment 136: 449–459. doi:10.1007/s10661-007-9699-x.
  • Glaeser, E. L., and M. E. Kahn. 2004. “Sprawl and Urban Growth.” In The Handbook of Urban and Regional Economics, edited by V. Henderson and J. Thisse, 1523. Oxford: Oxford University Press.
  • Grimm, N. B., J. M. Grove, S. T. A. Pickett, and C. L. Redman. 2000. “Integrated Approaches to Long-term Studies of Urban Ecological Systems.” BioScience 50: 571–584. doi:10.1641/0006-3568(2000)050[0571:IATLTO]2.0.CO;2.
  • Grimm, N.B., S.H. Faeth, N.E. Golubiewski, Redman, C.L., Wu, J., Bai, X., & Briggs, J.M. 2008. ”Global Change and the Ecology of Cities”. Science 319: 756–760. doi:10.1126/science.1150195.
  • He, C., N. Okada, Q. Zhang, P. Shi, and J. Zhang. 2006. “Modeling Urban Expansion Scenarios by Coupling Cellular Automata Model and System Dynamic Model in Beijing, China.” Applied Geography 26: 323–345. doi:10.1016/j.apgeog.2006.09.006.
  • He, C., N. Okada, Q. Zhang, P. Shi, and J. Li. 2008. “Modelling Dynamic Urban Expansion Processes Incorporating a Potential Model with Cellular Automata.” Landsc. Urban Plann 86: 79–91.
  • Hedblom, M., and B. Soderstrom. 2008. “Woodlands across Swedish Urban Gradients: Status, Structure and Management Implications.” Landscape and Urban Planning 84: 62–73. doi:10.1016/j.landurbplan.2007.06.007.
  • Heimlich, R. E., and W. D. Anderson. 2001. “Development at the Urban Fringe and Beyond: Impacts on Agriculture and Rural Land.” ERS Agricultural Economic Report 1 (803): 88.
  • Heimlich, R.E. and Anderson, W.D. (2001). Development at the Urban Fringe and Beyond: Impacts on Agriculture and Rural Land. ERS Agricultural Economic Report No. 803, p. 88.
  • Helbich, M., and M. Leitner. 2010. “Postsuburban Spatial Evolution of Vienna’s Urban Fringe: Evidence from Point Process Modeling.” Urban Geography 31 (8): 1100–1117. doi:10.2747/0272-3638.31.8.1100.
  • Herold, M., H. Couclelis, and K. C. Clarke. 2005. “The Role of Spatial Metrics in the Analysis and Modeling of Urban Change.” Computers, Environment and Urban Systems 29: 339–369.
  • Heydarian, P., K. Rangzan, S. Maleki, and A. Taghi Zadeh. 2016. “Modeling Urban Development Using Statistical Preprocessing Techniques and Artificial Neural Network: The Case of Tehran Metropolis.” Geography and Environmental Planning 26 (4): 97–118.
  • Hosseini, S. A., M. Modiri, S. Mishani, and M. H. Heidar. 2015. “Evaluation and Optimization of Tehran’s Urban Sprawl Using GIS and RS.” Annals of the Brazilian Academy of Sciences 87 (1): 72–80. doi:10.1590/0001-3765201521566178.
  • Hosseini, S., and A. 2019. ”Explaining the Effective Factors on Spatial Organization of City's in Tehran Metropolitan Region.” Geographi. The University of Sistan & Baluchestan.
  • Hu, Z., and C. P. Lo. 2007. “Modeling Urban Growth in Atlanta Using Logistic Regression.” Computers, Environment and Urban Systems 31: 667–688. doi:10.1016/j.compenvurbsys.2006.11.001.
  • Huang, S. L., C. T. Yeh, and L. F. Chang. 2009. “The Transition to an Urbanizing World and the Demand for Natural Resources.” Current Opinion in Environmental Sustainability 2 (3): 136–143. doi:10.1016/j.cosust.2010.06.004.
  • Jacquin, A., L. Misakova, and M. Gay. 2008. “A Hybrid Object-based Classification Approach for Mapping Urban Sprawl in Periurban Environment.” Landscape and Urban Planning 84: 152–165. doi:10.1016/j.landurbplan.2007.07.006.
  • Jiang, B., and X. Yao, Eds. 2010. Geospatial Analysis and Modelling of Urban Structure and Dynamics. Dordrecht, The Netherlands: Springer.
  • Kanaroglou, P. S., and D. M. Scott. 2016. “Integrated Urban Transportation and Land-use Models.” In Governing Cities on the Move: Functional and Management Perspectives on Transformations of European Urban Infrastructures, edited by M. Dijst, W. Schenkel, and I. Thomas, 42–72. Aldershot: Ashgate.
  • Lakshmi, E. S., and K. Yarrakula. 2016. “Monitoring Land Use Land Cover Changes Using Remote Sensing and GIS Techniques: A Case Study Around Papagni River, Andhra Pradesh, India.” The Indian Ecological Society 43 (2): 383–387.
  • Langton, C. 1986. “Studying Artificial Life with Cellular Automata.” Physica D 22: 120–149. doi:10.1016/0167-2789(86)90237-X.
  • Lau, K. H., and B. H. Kam. 2005. “A Cellular Automata Model for Urban Land-Use Simulation.” Environ. Plann. B: Plann. Design 32: 247–263. doi:10.1068/b31110.
  • Li, X., and A. G. O. Yeh. 2004. “Data Mining of Cellular Automata’s Transition Rules.” Int. J. Geogr. Inform. Sci 18 (8): 723–744.
  • Li, C., J. Li, and J. Wu. 2013. “Quantifying the Speed, Growth Modes, and Landscape Pattern Changes of Urbanization: A Hierarchical Patch Dynamics Approach.” Landscape Ecology 28 (10): 1875–1888. doi:10.1007/s10980-013-9933-6.
  • Liu, J. G., and P. J. Yang. 2008. Essential Image Processing and GIS for Remote Sensing, 450. New York: Wiley-Blackwell.
  • Liu, Y., S. Nishiyama, and T. Yano. 2008. “Analysis of Four Change Detection Algorithms in Bi-temporal Space with a Case Study.” International Journal of Remote Sensing 25: 2121–2139. doi:10.1080/01431160310001606647.
  • Luck, M., and J. Wu. 2002. “A Gradient Analysis of Urban Landscape Pattern: A Case Study from the Phoenix Metropolitan Region, Arizona, USA.” Landscape Ecology 17 (4): 327–339. doi:10.1023/A:1020512723753.
  • MacDonald, K., and T. K. Rudel. 2005. “Sprawl and Forest Cover: What is the Relationship?.” Applied Geography 25 (1): 67–79.
  • Mitchell, J. G. 2001. “Urban Sprawl: The American Dream?” National Geographic 200 (1): 48–73.
  • Mohammadi, M., E. Malekipour, and A. Sahebgharani. 2013. “Modeling Urban Expansion in Pripheral Lands Through Cellular Automata (CA) and Analytic Hierarchichal Process.” Case Study of Isfahan’s 7th Municipal District 5 (18): 175–192.
  • Nelson, A. C., and T. Moore. 1993. “Assessing Urban Growth Management—the Case of Portland, Oregon.” Land Use Policy 10 (4): 293–302. doi:10.1016/0264-8377(93)90039-D.
  • Newman, P. W. G., and J. R. Kenworthy. 1988. “The Transport Energy Trade-off: Fuel-efficient Traffic versus Fuel-efficient Cities.” Transportation Research A 22A (3): 163–174. doi:10.1016/0191-2607(88)90034-9.
  • Ning, W., and E. A. Silva. 2011. ”Urban DNA: Exploring the Biological Metaphor of Urban Evolution with DG-ABC Model.” Agile . 1–7.
  • O’Sullivan, D., and P. M. Torrens. 2000. “Cellular Models of Urban Systems.” In Theoretical and Practical Issues on Cellular Automata, edited by S. Bandini and T. Worsch, 108–116. London: Springer.
  • Openshaw, S., and C. Openshaw. 1997. Artificial Intelligence in Geography. New York. USA: John Wiley & Sons, .
  • Páez, A., and D. M. Scott. 2004. “Spatial Statistics for Urban Analysis: A Review of Techniques with Examples.” GeoJournal 61 (1): 53–67. doi:10.1007/s10708-005-0877-5.
  • Pontius, J., and R. Gilmore. 2000. “Quantification Error versus Location Error in Comparison of Categorical Maps.” Engineering and Remote Sensing 66 (8): 1011–1016.
  • Pontius G. R., Walker, R., Kumah, R., Arima, E., Aldrich, S., Caldad, M. and Vergara, D., 2007. Accuracy assessment for a simulation model of Amazonian deforestation. Annals of the American Association of Geographers. 97, 677–695
  • Rienow, A., and R. Goetzke. 2014. “Supporting SLEUTH – Enhancing a Cellular Automaton with Support Vector Machines for Urban Growth Modeling, Computers.” Environment and Urban Systems xxx: 1–16.
  • Robert, H. S. 2013. “Complexity, the Science of Cities and Long-range Futures.” Futures 47: 49–58. doi:10.1016/j.futures.2013.01.006.
  • Santé, I., A. M. García, D. Miranda, and R. Crecente. 2010. “Cellular Automata Models for the Simulation of Real-world Urban Processes: A Review and Analysis.” Landscape and Urban Planning 96: 108–122. doi:10.1016/j.landurbplan.2010.03.001.
  • Savitch, H. V., D. Collins, D. Sanders, and J. Markham. 1993. “Ties that Bind: Central Cities, Suburbs and the New Metropolitan Region.” Economic Development Quarterly 7 (4): 341–357. doi:10.1177/089124249300700403.
  • Seto, K. C., M. Fragkias, B. Guneralp, and M. K. Reilly. 2011. “A Meta-Analysis of Global Urban Land Expansion.” PLoS ONE 6: e23777. doi:10.1371/journal.pone.0023777.
  • ShafizadehMoghadam, H., and M. Helbich. 2013. “Spatiotemporal Urbanization Processes in the Megacity of Mumbai, India: A Markov Chains-Cellular Automata Urban Growth Model.” Applied Geography 40: 140–149.
  • Shan, J., S. Al-Kheder, and J. Wang. 2008. “Genetic Algorithms for the Calibration of Cellular Automata Urban Growth Modeling.” Photogram. Eng. Remote Sens 74 (10): 1267–1277. doi:10.14358/PERS.74.10.1267.
  • Shu, B. Honghui Zh., Yongle Li, Yi Qu, Lihong Ch. (2014). Spatiotemporal variation analysis of driving forces of urban land spatial expansion using logistic regression: A case study of port towns in Taicang City, China. Habitat International. 43: 181–190.
  • Silva, E. A. 2001. “The DNA of Our Regions.” In Artificial Intelligence in Regional Planning. World Planning Schools Congress (Paper 5019). Shanghai.
  • Silva, E. A., and K. C. Clarke. 2002. “Calibration of the SLEUTH Urban Growth Model for Lisbon and Porto, Portugal.” Computers, Environment and Urban Systems 26: 525–552. doi:10.1016/S0198-9715(01)00014-X.
  • Silva, E. A. 2004. “The DNA of Our Regions: Artificial Intelligence in Regional Planning.” Futures 36 (10): 1077–1094. doi:10.1016/j.futures.2004.03.014.
  • Silva, E. A., and K. Clarke. 2005. “Complexity, Emergence and Cellular Urban Models: Lessons Learned from Applying SLEUTH to Two Portuguese Cities.” European Planning Studies 13 (1): 93–115. doi:10.1080/0965431042000312424.
  • Silva, E. A., (2006) Waves of Complexity: Bifurcations or Phase Transitions, paper presented in IIIRD Meeting of AESOP thematic group on complexity, Cardiff, UK, May.
  • Stoel, T. B., Jr. 1999. “Reining in Urban Sprawl.” Environment 41 (4): 6–33.
  • Stone, B., Jr. 2008. “Urban Sprawl and Air Quality in Large US Cities.” Journal of Environmental Management 86: 688–698. doi:10.1016/j.jenvman.2006.12.034.
  • Sui, D. Z., and H. Zeng. 2001. “Modeling the Dynamics of Landscape Structure in Asia’s Emerging Desakota Regions: A Case Study in Shenzhen.” Landsc. Urban Plann 53: 37–52.
  • Syphard, A. D., K. C. Clarke, and J. Franklin. 2005. “Using a Cellular Automaton Model to Forecast the Effects of Urban Growth on Habitat Pattern in Southern California.” Ecological Complexity 2: 185–203. doi:10.1016/j.ecocom.2004.11.003.
  • Tseng, L. Y., and S. Yang, (1997) “Genetic Algorithms for Clustering, Feature Selection and Classification”,IEEE Int. Conference on Neural Networks, Korean Institute of Intelligent Systems, 1612–1616.
  • Vafaie, H., and I. Imam (1994), “Feature Selection Methods: Genetic Algorithms Vs. Greedy-like Search”. Proc. of the Int. conference on fuzzy and intelligent control systems, Luoisville.
  • Verburg, P. H., P. P. Schot, M. J. Dijst, and A. Veldkamp. 2004. “Land Use Modelling Current Practice and Research Priorities.” GeoJournal 61: 309–324. doi:10.1007/s10708-004-4946-y.
  • Wang, W., L. Zhu, R. Wang, and Y. Shi. 2003. “Analysis on the Spatial Distribution Variation Characteristic of Urban Heat Environmental Quality and Its Mechanism—a Case Study of Hangzhou City.” Chinese Geographical Science 13 (1): 39–47. doi:10.1007/s11769-003-0083-7.
  • Wang, Y., M. Jamshidi, P. Neville, C. Bales, and S. Morain. 2007. “Hierarchical Fuzzy Classification of Remote Sensing Data.” Studies in Fuzziness and Soft Computing 217: 333–350.
  • Wasserman, M. 2000. “Confronting Urban Sprawl.” Regional Review of the Federal Reserve Bank of Boston 86: 9–16.
  • Webster, C. 1996. “Urban Morphological Fingerprints.” Environment and Planning. B, Planning & Design 23: 279–297.
  • Weng, Q., H. Liu, and D. Lu. 2007. “Assessing the Effects of Land Use and Land Cover Patterns on Thermal Conditions Using Landscape Metrics in City of Indianapolis, United States.” Urban Ecosystem 10: 203–219. doi:10.1007/s11252-007-0020-0.
  • White, R., and G. Engelen. 1997. “Cellular Automata as the Basis of Integrated Dynamic Regional Modelling.” Environment and Planning B: Planning and Design 24 (2): 235–246.
  • White, R., and G. Engelen. 2000. “High Resolution Integrated Modeling of the Spatial Dynamics of Urban and Regional Systems.” Computers, Environment and Urban Systems 24: 383–440. doi:10.1016/S0198-9715(00)00012-0.
  • Wilson, E. H., J. D. Hurd, D. L. Civco, S. Prisloe, and C. Arnold. 2003. “Development of a Geospatial.“ Remote Sensing of Environment 86: 275–285. doi:10.1016/S0034-4257(03)00074-9.
  • Wu, F., and C. T. Webster. 1998. “Simulation of Land Development through the Integration of Cellular Automata and Multi-criteria Evaluation.” Environment and Planning B 25: 103–126. doi:10.1068/b250103.
  • Wu, F., and D. Martin. 2002. “Urban Expansion Simulation of Southeast England Using Population Surface Modeling and Cellular Automata.” Environment and Planning A 34 (10): 1855–1876. doi:10.1068/a3520.
  • Wu, X., Y. Hu, H. S. He, R. Bu, J. Onsted, and F. Xi. 2009. “Performance Evaluation of the SLEUTH Model in the Shenyang Metropolitan Area of Northeastern China.” Environmental Modeling & Assessment 14 (2): 221–230. doi:10.1007/s10666-008-9154-6.
  • Wu, F. 2010. “Housing Provision under Globalisation: A Case Study of Shanghai.” Environment and Planning A 33 (10): 1741–1764. doi:10.1068/a33213.
  • Xiao, J., Y. Shen, J. Ge, R. Tateishi, C. Tang, Y. Liang, and Z. Huang. 2007. “Evaluating Urban Expansion and Land Use Change in Shijiazhuang, China, by Using GIS and Remote Sensing.” Landscape and Urban Planning 75: 69–80. doi:10.1016/j.landurbplan.2004.12.005.
  • Xie, Y., and M. Batty. 1996. “Automata-based Exploration of Emergent Urban Form.” Geographical System 4: 83–102.
  • Yang, Q., X. Li, and X. Shi. 2008. “Cellular Automata for Simulating Land Use Changes Based on Support Vector Machines.” Computers & Geosciences 34: 592–602.
  • Yeh, A. G. O., and X. Li. 2000. “A Constrained CA Model for the Simulation and Planning.“ Environment and Planning 28: 733–753. doi:10.1068/2Fb2740.
  • Yeh, A. G. O., and X. Li. 2001. “Measurement and Monitoring of Urban Sprawl in a Rapidly Growing Region Using Entropy.” Photogrammetric Engineering and Remote Sensing 67 (1): 83–90.
  • Yeh, A. G. O., and X. Li. 2002. “A Cellular Automata Model to Simulate Development Density for Urban Planning.” Environment and Planning B 29: 431–450. doi:10.1068/b1288.
  • Yeh, A.G.O., and X. Li. 2003. “Simulation of Development Alternatives Using Neural Networks, Cellular Automata, and GIS for Urban Planning.” Photogram. Eng. Remote Sens 69 (9): 1043–1052.
  • Zhang, B. 2003. “Application of Remote Sensing Technology to Population Estimation.” Chinese Geographical Science 13: 267–271. doi:10.1007/s11769-003-0029-0.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.