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Spatial Agent-based Modeling to Explore Slum Formation Dynamics in Ahmedabad, India

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GeoComputational Analysis and Modeling of Regional Systems

Part of the book series: Advances in Geographic Information Science ((AGIS))

Abstract

More than 900 million people or one third of the world’s urban population lives in either slum or squatter settlements. Urbanization rates in developing countries are often so rapid that formal housing development cannot meet the demand. In the past decades, international, national and local development communities have taken several policy actions in an attempt to improve the living conditions of people within slums or to eradicate them completely. However, such policies have largely failed and slum-free cities have remained a distant goal for many developing countries. This chapter argues that for informed policymaking, it is important to investigate questions related to slum formation such as: (1) How do slums form and expand? (2) Where and when are they formed? (3) What types of structural changes and/or policy interventions could improve housing conditions for the urban poor? In order to address these questions, this chapter develops a geosimulation model that is capable of exploring the spatio-temporal dynamics of slum formation and simulating future formation and expansion of slums within cities of the developing world. Our geosimulation model integrates agent-based modeling (ABM) and Geographic Information System (GIS), methods that are often applied separately to explore slums. In our model, ABM simulates human behavior and GIS provides a spatial environment for the housing market. GIS is also used to analyze empirical data using spatial analyses techniques, which is in turn used to validate the model outputs. The core of this framework is a linked dynamic model operating at both micro and macro geographic and demographic scales. The model explores the collective effect of many interacting inhabitants of slums as well as non-slum actors (e.g. local government) and how their interactions within the spatial environment of the city generate the emergent structure of slums at the macro scale. We argue that when empirical data is absent, geosimulation provides useful insights to study implications of various policies. The goal of this framework is to develop a decision support tool that could allow urban planners and policymakers to experiment with new policy ideas ex-ante in a simulated environment. We calibrate and validate the model using data from Ahmedabad, the sixth largest city of India, where 41% of its population lives in slums. This is one of the first attempts to develop an integrated and multi-scalar analytical framework to tackle slum issues in the developing world at multiple spatial scales.

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References

  1. UN-Habitat (2010) State of the cities 2010–11. UN-Habitat, Nairobi, Kenya. Available at http://www.unhabitat.org/content.asp?cid=8891&catid=643&typeid=46&sub MenuId=0&AllContent=1. Accessed on May 20th, 2012

    Google Scholar 

  2. UN-Habitat (2003) The challenge of slums. United Nations Human Settlements Programme, Sterling

    Google Scholar 

  3. Anzorena J, Bolnick J, Boonyabancha S, Cabannes Y, Hardoy A, Hasan A, Levy C, Mitlin D, Murphy D, Patel S, Saborido M (1998) Reducing poverty: some lessons from experience. Environ Urban 10(1):167–186

    Article  Google Scholar 

  4. Pugh C (2001) The theory and practice of housing sector development for developing countries, 1950-99. Hous Stud 16(4):399–423

    Article  Google Scholar 

  5. United Nations (2000) United Nations Millennium Declaration. General Assembly Resolution No. 2 of Session 55. Available at http://www.undemocracy.com/A-RES-55-2.pdf. Accessed on May 20th, 2012

  6. Government of India (2005) Jawaharlal Nehru National Urban Renewal Mission. Ministry of Urban Employment and Poverty, Alleviation and Ministry of Urban Development, New Delhi

    Google Scholar 

  7. Times of India (2009) UPA’s target—a slum free India in 5 years, Times of India (5th June). Available at http://bit.ly/1XguIRY. Accessed on January 7th, 2012

  8. MHUPA (2011) Status Note on Rajiv Awas Yojana, Ministry of Housing and Urban Poverty Alleviation, Government of India, New Delhi, India. Available at http://mhupa.gov.in/W_new/NOTE_RAJIV_AWAS_YOJANA.pdf. Accessed on January 15th, 2012

  9. Mayo SK, Gross DJ (1987) Sites and services-and subsidies: the economics of low-cost housing in developing countries. The World Bank Econ Rev 1(2):301–335

    Article  Google Scholar 

  10. Pugh C (1989) The World Bank and Urban Shelter in Bombay. Habitat Int 13(3):23–49

    Article  Google Scholar 

  11. Pimple M, John L (2002) Security of tenure: Mumbai’s experience. In: Durand-Lasserve A, Royston A (eds) Holding their ground: secure land tenure for the urban poor in developing countries. Earthscan, London, pp 75–85

    Google Scholar 

  12. Cities Alliance (1999), Cities without slums action plan. Cities Alliance, Washington, DC. Available at http://www.citiesalliance.org/sites/citiesalliance.org/files/CA_Docs/brln_ap.pdf. Accessed on September 12th, 2012

  13. Chauhan U, Lal N (1999) Public-private partnerships for urban poor in Ahmedabad: a slum project. Econ Polit Wkly 34(10–11):636–642

    Google Scholar 

  14. Mukhija V (2001) Enabling slum redevelopment in Mumbai: policy paradox in practice. Hous Stud 18(4):213–222

    Google Scholar 

  15. Burra S (2005) Towards a pro-poor framework for slum upgrading in Mumbai, India. Environ Urban 17(1):67–88

    Article  Google Scholar 

  16. Gulyani S, Bassett EM (2007) Retrieving the baby from the bathwater: slum upgrading in Sub-Saharan Africa. Environ Plan C 25(4):486–515

    Article  Google Scholar 

  17. Gulyani S, Bassett EM (2008) Revisiting … retrieving the baby from the bathwater: slum upgrading in Sub-Saharan Africa. Environ Plan C 26(5):858–860

    Article  Google Scholar 

  18. Mahadevia D, Naranayan H (1999) Shangaing Mumbai—politics of evictions and resistance in slum settlements: Working Paper 7. Center for Development Alternatives, Ahemedabad

    Google Scholar 

  19. Bamberger M, Gonzalez-Polio E, Sae-Hau U (1982) Evaluation of sites and services projects: the evidence from El Salvador, World Bank Staff Working Paper No. 549, Washington, DC

    Google Scholar 

  20. Takeuchi, A., Cropper, M. and Bento, A. (2006) The welfare effects of slum improvement programs: the case of Mumbai, World Bank Policy Research Working Paper Number 3852, Washington, DC. Available at http://papers.ssrn.com/sol3/papers.cfm?abstract_id=922978.

  21. Viratkapan V, Perera R (2006) Slum relocation projects in Bangkok: what has contributed to their success or failure? Habitat Int 30(1):157–174

    Article  Google Scholar 

  22. Abbott J (2002) A method-based planning framework for informal settlement upgrading. Habitat Int 26(3):317–333

    Article  Google Scholar 

  23. Sietchiping, R. (2004), A geographic information systems and cellular automata-based model of informal settlement growth, Ph.D. thesis, School of Anthropology, Geography and Environmental Studies, The University of Melbourne, Melbourne. Available at http://repository.unimelb.edu.au/10187/1036.

  24. Wilson AG (2000) Complex spatial systems: the modeling foundations of urban and regional analysis. Pearson Education, Harlow

    Google Scholar 

  25. Batty M (2005) Cities and complexity: understanding cities with cellular automata, agent-based models, and fractals. MIT, Cambridge

    Google Scholar 

  26. Barros J (2012) Exploring urban dynamics in Latin American cities using an agent-based simulation approach. In: Heppenstall A, Crooks AT, See LM, Batty M (eds) Agent-based models of geographical systems. Springer, New York, pp 571–590

    Chapter  Google Scholar 

  27. Young G, Flacke J (2010) Agent-based model of the growth of an informal settlement in Dar es Salaam, Tanzania: An Empirically Informed Concept. In: Swayne D, Yang W, Voinov A, Rizzoli A, Filatova T (eds) Proceedings of the 2010 International congress on environmental modelling and software: modeling for environment’s sake. Ottawa, Canada

    Google Scholar 

  28. Batty M (1976) Urban modelling: algorithms, calibrations, predictions. Cambridge University Press, Cambridge

    Google Scholar 

  29. White R, Engelen G (1993) Cellular automata and fractal urban form: a cellular modelling approach to the evolution of urban land use patterns. Environ Plan A 25(8):1175–1199

    Article  Google Scholar 

  30. Benenson I, Torrens P (2004) Geosimulation: automata-based modeling of urban phenomena. Wiley, Chichester

    Book  Google Scholar 

  31. Jacobs J (1961) The death and life of great American cities. Vintage Books, New York

    Google Scholar 

  32. Maguire DJ (2005) Towards a GIS platform for spatial analysis and modelling. In: Maguire DJ, Batty M, Goodchild MF (eds) GIS, spatial analysis and modelling. ESRI, Redlands, pp 19–39

    Google Scholar 

  33. Wegener M (2000) Spatial models and GIS. In: Fotheringham AS, Wegener M (eds) Spatial models and GIS: New potential and new models. Taylor & Francis, London, pp 3–20

    Google Scholar 

  34. Brail RK, Klosterman RE (eds) (2001) Planning support systems: integrating geographic information systems, models and visualisation tools. ESRI, Redlands

    Google Scholar 

  35. Engelen G, White R, Nijs T (2003) Environment explorer: spatial support system for the integrated assessment of socio-economic and environmental policies in the Netherlands. Integr Assess 4(2):97–105

    Article  Google Scholar 

  36. Maguire DJ, Batty M, Goodchild M, F. (eds) (2005) GIS, spatial analysis and modelling. ESRI, Redlands

    Google Scholar 

  37. Clarke KC, Gaydos LJ (1998) Loose-coupling a cellular automaton model and GIS: long-term urban growth predictions for San Francisco and Baltimore. Int J Geogr Inf Sci 12(7):699–714

    Article  Google Scholar 

  38. Clarke KC, Gazulis N, Dietzel CK, Goldstein NC (2006) A decade of SLEUTHing: lessons learned from applications of a cellular automaton land use change model. In: Fisher P (ed) Classics from IJGIS: twenty years of the International Journal of Geographical Information Science and Systems. Taylor & Francis, Boca Raton, pp 413–426

    Google Scholar 

  39. Landis J (1994) The Californian urban futures model: a new generation of metropolitan simulation models. Environ Plan B 21(4):399–420

    Article  Google Scholar 

  40. Landis J, Zhang M (1998) The second generation of the California urban futures model. Part 1: model logic and theory. Environ Plan B 25(5):657–666

    Article  Google Scholar 

  41. Landis JD, Monzon JP, Reilly M, Cogan C (1998) Development and pilot application of the California Urban and Biodiversity Analysis (CURBA) Model, University of California at Berkeley, Institute of Urban and Regional Development, Monograph 98-01. Available at http:// escholarship.org/uc/item/5713p6g6

    Google Scholar 

  42. Crooks AT, Heppenstall A (2012) Introduction to agent-based modelling. In: Heppenstall A, Crooks AT, See LM, Batty M (eds) Agent-based models of geographical systems. Springer, New York, pp 85–108

    Chapter  Google Scholar 

  43. Torrens PM (2006) Simulating sprawl. Ann Assoc Am Geogr 96(2):248–275

    Article  Google Scholar 

  44. Xie Y, Batty M, Zhao K (2007) Simulating emergent urban form: Desakota in China. Ann Assoc Am Geogr 97(3):477–495

    Article  Google Scholar 

  45. Torrens PM (2002) Cellular automata and multi-agent systems as planning support tools. In: Geertman S, Stillwell J (eds) Planning support systems in practice. Springer, London, pp 205–222

    Google Scholar 

  46. Wise S, Crooks AT (2012) Agent based modelling and GIS for community resource management: acequia-based agriculture. Comput Environ Urban Syst 36(6):562–572

    Article  Google Scholar 

  47. Robinson DT, Brown D (2009) Evaluating the effects of land-use development policies on ex-urban forest cover: an integrated agent-based GIS approach. Int J Geogr Inf Sci 23(9): 1211–1232

    Article  Google Scholar 

  48. Augustijn-Beckers E, Flacke J, Retsios B (2011) Simulating informal settlement growth in Dar es salaam, Tanzania: an agent-based housing model. Comput Environ Urban Syst 35(2): 93–103

    Article  Google Scholar 

  49. Vincent OO (2009) Exploring spatial growth pattern of informal settlements through agent-based simulation, MS [in Geographical Information Management & Applications (GIMA). Utrecht University, Delft University of Technology, Wageningen University and the International Institute for Geo-Information Science and Earth Observation]). Wageningen, Netherlands. Available at http://www.msc-gima.nl/index.php/modelling.

  50. Patel A, Koizumi N, Crooks A (2012) Simulating spatio-temporal dynamics of slum formation in Ahmedabad, India, 6th urban research and knowledge symposium on cities of tomorrow: framing the future at Barcelona, Spain, October 8–10, 2012

    Google Scholar 

  51. Patel A, Crooks AT, Koizumi N (2012) Slumulation: an agent-based modeling approach to slum formations. J Artif Societies Social Simul 15(4). Available at http://jasss.soc.surrey.ac.uk/15/4/2.html

  52. UN-Habitat (2006) State of the world’s cities 2006/7, UN-Habitat, Nairobi, Kenya. Available at http://www.unhabitat.org/pmss/listItemDetails.aspx?publicationID=2101. Accessed on May 20th, 2012

  53. Robinson DT, Brown D, Parker DC, Schreinemachers P, Janssen MA, Huigen M, Wittmer H, Gotts N, Promburom P, Irwin E, Berger T, Gatzweiler F, Barnaud C (2007) Comparison of empirical methods for building agent-based models in land use science. J Land Use Sci 2(1):31–55

    Article  Google Scholar 

  54. Alonso W (1964) Location and land use: toward a general theory of land rent. Harvard University Press, Cambridge

    Book  Google Scholar 

  55. Benenson I, Omer I, Hatna E (2003) Agent-based modelling of householders migration behaviour and its consequences. In: Billari FC, Prskawetz A (eds) Agent-based computational demography: using simulation to improve our understanding of demographic behaviour. Physica, New York, pp 97–115

    Chapter  Google Scholar 

  56. Florida R (2002) The rise of the creative class: and how its transforming work, leisure, community and everyday life. Basic Books, New York

    Google Scholar 

  57. Soja EW (2000) Postmetropolis: critical studies of cities and regions. Blackwell, Malden

    Google Scholar 

  58. Evans AJ (2012) Uncertainty and error. In: Heppenstall A, Crooks AT, See LM, Batty M (eds) Agent-based models of geographical systems. Springer, New York, pp 309–346

    Chapter  Google Scholar 

  59. Census of India (2001) Census Data Products available from Office of the Registrar General and Census Commissioner, New Delhi, India. http://censusindia.gov.in/ Accessed on January 11th, 2012

  60. AUDA (1997) Revised draft development plan of AUDA—2011 AD. Ahmedabad Urban Development Authority, Ahmedabad

    Google Scholar 

  61. Crooks AT, Castle CJE, Batty M (2008) Key challenges in agent-based modelling for geo-spatial simulation. Comput Environ Urban Syst 32(6):417–430

    Article  Google Scholar 

  62. Kennedy W (2012) Modelling human behaviour in agent-based models. In: Heppenstall A, Crooks AT, See LM, Batty M (eds) Agent-based models of geographical systems. Springer, New York, pp 167–180

    Chapter  Google Scholar 

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Acknowledgment

This research was supported by a grant from the Geography and Spatial Sciences Program of the National Science Foundation (NSF-BCS-1225851).

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Authors and Affiliations

  1. University of Massachusetts Boston, Boston, MA, USA

    Amit Patel

  2. George Mason University, Fairfax, VA, USA

    Andrew Crooks & Naoru Koizumi

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  1. Amit Patel
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  2. Andrew Crooks
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Correspondence to Amit Patel .

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Editors and Affiliations

  1. Department of Geography and Earth Sciences, University of North Carolina at Charlotte, Charlotte, North Carolina, USA

    Jean-Claude Thill

  2. Department of Geography, Simon Fraser University, Burnaby, British Columbia, Canada

    Suzana Dragicevic

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Patel, A., Crooks, A., Koizumi, N. (2018). Spatial Agent-based Modeling to Explore Slum Formation Dynamics in Ahmedabad, India. In: Thill, JC., Dragicevic, S. (eds) GeoComputational Analysis and Modeling of Regional Systems. Advances in Geographic Information Science. Springer, Cham. https://doi.org/10.1007/978-3-319-59511-5_8

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