Agent-based models are increasingly used by urban specialists, supplanting the simulation models using differential equations which were more popular earlier. These models already made reference to the theories of self-organisation and to mechanisms of evolution not so far from those used today to describe the emergence of macroscopic properties or structures in a bottom-up process from interactions operating at the microlevel. Moreover there is less difference than often suggested in the literature between the two forms of modelling – differential equations and multi-agent models—in the way they integrate principles of urban theory. To test this assumption, we compare models made of systems of differential equations (Allen's model firmly rooted in self-organisation theory and the model developed by Weidlich and Haag, affiliated to synergetic theory) with multi-agent models (SIMPOP family) designed to meet the same task: Simulating the differentiated dynamics of urban entities over the medium to long term from their functional economic specialisation. We show that multi-agent systems are providing interesting solutions for the modelling method, because of their greater ability to simulate the emergence of geographical macrostructures from different levels of interaction.
AllenPM, 1997Cities and Regions as Self-organizing Systems: Models of Complexity (Gordon and Breach, Amsterdam)
2.
AllenPSanglierM, 1979, “A dynamic model of growth in a central place system”Geographical Analysis2256–272
3.
ArthurWB, 1994Increasing Returns and Path Dependence in the Economy (University of Michigan Press, Ann Arbor, MI)
4.
BanosAChardonnelSLangCMarilleauNThéveninT, 2005, “Simulating the swarming city: A MAS approach”, in Proceedings of the 9th International Conference on Computers in Urban Planning and Urban Management London, 29–30 June, http://arnaudbanos.perso.neuf.fr/publications.html
5.
BarrosJ, 2003, “Simulating urban dynamics in Latin American cities”, in Proceedings of the 7th International Conference on GeoComputationhttp://www.geocomputation.org/2003/
BattyM, 2005Cities and Complexity (MIT Press, Cambridge, MA)
8.
BattyM, 2008, “Fifty years of urban modelling: Macro-statics to micro-dynamics”, in The Dynamics of Complex Urban Systems Eds AlbeverioSAndreyDGiordanoPVancheriA, (Physica, Heidelberg) pp 1–20
9.
BattyMTorrensP, 2001, “Modelling complexity: The limits to prediction”Cybergeo201
10.
BenensonIHatnaE, 2011, “Minority–majority relations within the Schelling model of residential dynamics”Geographical Analysis43287–305
BenensonIItzhakOErezH, 2002, “Entity-based modelling of urban residential dynamics: The case of Yaffo, Tel Aviv”Environment and Planning B: Planning and Design29491–512
13.
BerryBJL, 1967Geography of Market Centers and Retail Distribution (Prentice-Hall, Englewood Cliffs, NJ)
14.
BirkinMHeppenstallA, 2011, “Extending spatial interactions models with agents for understanding relationships in a dynamic retail market”Urban Studies Research article ID 403969
15.
BoudonR, 1984La Place du désordre: Critique des théories du changement social (PUF, Paris)
16.
BretagnolleAPumainD, 2010, “Simulating urban networks through multiscalar space-time dynamics (Europe and United States, 17th–20th centuries)”Urban Studies472819–2839
17.
BuraSGuérin-PaceFMathianHPumainDSandersL, 1996, “Multi-agent systems and the dynamics of a settlement system”Geographical Analysis2161–178
18.
ClarkeKCGaydosLHopenS, 1997, “A self-modifying cellular automaton model of historical urbanization in the San Francisco Bay area”Environment and Planning B: Planning and Design24247–261
19.
DaudéELangloisP, 2007, “Comparison of three implementations of Schelling's spatial segregation model”, in Agent-based Modelling and Simulation in the Social and Human Sciences Eds PhanDAmblardF, (Bardwell Press, Oxford) pp 295–326
20.
DeanJSGumermanGJEpsteinJMAxtellRLSwedlundACParketMTMcCarrollS, 2000, “Understanding Anasazi cultural change through agent-based modelling”, in Dynamics in Human and Primate Societies Eds KohlerTAGumermanGJ, (Oxford University Press, Oxford) pp 179–206
21.
DendrinosDSMullalyH, 1985Urban Evolution: Studies in the Mathematical Ecology of Cities (Oxford University Press, Oxford)
22.
De WolfTHolvoetT, 2005, “Emergence versus self-organisation: Different concepts but promising when combined”Engineering Self Organising Systems: Methodologies and Applications (Spriner, New York) pp 1–15
23.
EpsteinJMAxtellR, 1996Growing Artificial Societies: Social Science from the Ground Up (Brookings Institution Press, Washington, DC)
24.
FerberJ, 1999Multi-agent Systems: An Introduction to Distributed Artificial Intelligence (Addison Wesley, Reading)
HaagGMaxH, 1995, “Rank-size distribution of settlement systems: A stable attractor in urban growth”Papers in Regional Science74243–258
27.
HaagGMunzMPumainDSaint-JulienThSandersL, 1992, “Interurban migration and the dynamics of a system of cities”Environnement and Planning A24181–198
28.
HägerstrandT, 1970, “What about people in regional science?”Papers of the Regional Science Association246–21
29.
HakenH, 1983Synergetics, An Introduction: Nonequilibrium Phase Transitions and Self-organization in Physics, Chemistry, and Biology3rd edition (Springer, New York)
30.
HeppenstallAJCrooksATSeeLMBattyM, (Eds), 2012Agent-based Models of Geographical Systems (Springer, Berlin)
LombardoSPumainDRabinoGSaint-JulienTHSandersL, 1988, “Comparing urban dynamics models: The unexpected differences in two similar models”Sistemi Urbani2213–228
33.
PortugaliJ, 2004, “Toward a cognitive approach to urban dynamics”Environment and Planning B: Planning and Design31589–613
34.
PredA, 1977City Systems in Advanced Societies (Hutchison, London)
35.
PumainD, 1991, “Commentary. Plea for the experimentation and comparison of dynamic models”Environment and Planning A23463–464
36.
PumainD, 1997, “Vers une théorie évolutive des villes”L'Espace Géographique2119–134
37.
PumainD, 1998, “Urban research and complexity”, in The City and its Sciences Eds BertugliaCSBianchiGMelaA, (Physica, Heidelberg) pp 323–362
38.
PumainD, 2006, “Alternative explanations of hierarchical differentiation in urban systems”, in Hierarchy in Natural and Social Sciences Ed. PumainD, (Springer, Berlin) pp 169–222
39.
PumainD, 2008, “The socio-spatial dynamics of systems of cities and innovation processes: A multi-level model”, in The Dynamics of Complex Urban Systems: An Interdisciplinary Approach Eds AlbeverioSAndreyDGiordanoPVancheriA, (Physica Heidelberg) pp 373–389
40.
PumainDSaint-MienTHSandersL, 1984, “Vers une modélisation de la dynamique intra-urbaine”L'Espace Géographique2125–135
41.
PumainDSandersLSaint-JulienT, 1989Villes et auto-organisation (Economica, Paris)
42.
PumainDSandersLBretagnolleAGlisseBMathianH, 2009, “The future of urban systems”, in Complexity Perspectives on Innovation and Social Change Eds LaneDPumainDVan der LeeuwSWestG, (Springer, Berlin) pp 331–359
43.
ReuillonRLeclaireM, 2011, “Utilisation de EGI par la communauté des modélisateurs en systèmes comexes”, Rencontres scientifiques France-Grille, Lyon, hal-polytechnique.archives-ouvertes.fr/…/rencontresFranceGrille
44.
SandersL, 1992Système de villes et synergétique (Anthropos, Paris)
45.
SandersL, 2007a, “Agent models in urban geography”, in Agent-based Modelling and Simulation in the Social and Human Sciences Eds PhanDAmblardF, (Bardwell Press, Oxford) pp 147–167
46.
SandersL, 2007b, “Objets géographiques et simulation agent, entre thématique et méthodologie”Revue Internationale de Géomatique17135–160
47.
SandersLPumainDMathianHGuérin-PaceFBuraS, 1997, “SIMPOP: A multiagent system for the study of urbanism”Environment and Planning B: Planning and Design24287–305
48.
SandersLFavaroJ-MGlisseBMathianHPumainD, 2007, “Artificial intelligence and collective agents: The EUROSIM model”Cybergeo392
49.
SawyerRK, 2002, “Nonreductive individualism, part I: Supervenience and wild disjunction”Philosophy of the Social Sciences32537–559
50.
SchellingT, 1978Micromotives and Macrobehaviour (WW Norton, New York)
51.
WegenerM, 1994, “Operational urban models, state of the art”Journal of the American Planning Association6017–29
52.
WeidlichWHaagG, (Eds), 1988Interregional Migrations: Dynamic Theory and Comparative Analysis (Springer, Berlin)
53.
WhiteREngelenGUljeeI, 2000, “Modelling land use change with linked cellular automata and socio-economic models: A tool for exploring the impact of climate change on the Island of St. Lucia”, in Spatial Information for Land Use Management Eds HillMAspinallR, (Gordon and Breach, Amsterdam) pp 189–204
54.
WilsonA, 1981Catastrophe Theory and Bifurcation: Applications to Urban and Regional Systems (Croom Helm, London)
