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Advanced Computational Modeling of Social Systems. Lars-Erik Cederman and Luc Girardin Center for Comparative and International Studies (CIS) Swiss Federal Institute of Technology Zurich (ETH) http://www.icr.ethz.ch/teaching/compmodels. 07.06.2005 III 14.06.2005 III 21.06.2005 III
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Advanced Computational Modelingof Social Systems Lars-Erik Cederman and Luc Girardin Center for Comparative and International Studies (CIS) Swiss Federal Institute of Technology Zurich (ETH) http://www.icr.ethz.ch/teaching/compmodels
07.06.2005 III 14.06.2005 III 21.06.2005 III 28.06.2005 II Nicolas Bürkler (4) Thomas Fent Stephan Gammeter (2) Jean-Luc Geering (1) Jeremy Hackney (2) Lutz Krebs (4) Benjamin Lutz (1) Charles Mitchell (3) Gloria Müller (3) Carsten Murawski (1) Jonas Nart (3) Nils Weidmann (2) Presentations
Computational Models of Social Forms (AJS 2005) • Putting agent-based modeling in a social-theoretic context: • Sociological process theory offers theoretical guidance for future modeling • Computational modeling helps process theorists craft better, more precise theories • Focus on research problems at the macro-level
Outline Sociological Process Theory Computational Modeling Nomothetic theory Nomothetic modeling Epistemology Generative theory Generative modeling Variable-based theory Variable-based modeling Ontology Configurative theory Agent-based modeling
Sociological process theory • Simmel: sociations or Vergesellschaftung • Chicago school: Mead et al • Elias’ “figurations” • Barth’s formal anthropology • Emirbayer’s “relationism”, Giddens’ “structuration”, Archer’s “morphogenetic” approach, Fararo’s “generative theory” Norbert Elias Georg Simmel George Herbert Mead
The epistemology of process theory Sociological Process Theory Compuational Modeling Nomothetic theory Nomothetic modeling Epistemology Generative theory Generative modeling Variable-based theory Variable-based modeling Ontology Configurative theory Agent-based modeling
Toward generative theory • Covering laws ==> uncovering mechanisms • Positivism ==> scientific realism • Abductive inference instead of induction or deduction: • making the puzzling less puzzling • metaphors, analogies, and simple models
The ontology of process theory Sociological Process Theory Computational Modeling Nomothetic theory Nomothetic modeling Epistemology Generative theory Generative modeling Variable-based theory Variable-based modeling Ontology Configurative theory Agent-based modeling
Toward configurative theory • A social form is a configuration of social interactions and actors together with the structures in which they are embedded. • Variables merely measure dimensions of social forms, not the forms themselves. • Social forms always have an extension in time and (geographic/abstract) space
The epistemology of computational modeling Sociological Process Theory Computational Modeling Nomothetic theory Nomothetic modeling Epistemology Generative theory Generative modeling Variable-based theory Variable-based modeling Ontology Configurative theory Agent-based modeling
Toward generative modeling • In Micromotives and Macrobehavior, Schelling invites the reader “to try to figure out what intentions, or modes of behavior, of separate individuals could lead to the pattern we observed.” • Axelrod: “a third way of doing science” • Epstein: “If you didn’t grow it, you didn’t explain it.”
Emergence • Can be exhibited by generative processes • Emergent properties stem from the irreducibility of complex systems to the properties of their constituent parts • Usually due to non-linear interactions among system components • Bottom-up vs. intrinsic emergence
The ontology of computational modeling Sociological Process Theory Computational Modeling Nomothetic theory Nomothetic modeling Epistemology Generative theory Generative modeling Variable-based theory Variable-based modeling Ontology Configurative theory Agent-based modeling
Toward agent-based modeling • ABM features explicit representations of social forms. • Whereas variable-based modeling expresses causal relations among variables, ABM represents interactions among the actors directly. • Object-orientation facilitates the task of representing social forms.
Modeling Emergence Four types of endogenous social forms: • Behavioral interaction configurations • Property configurations • Interactive networks • Actor structures
Models of “emergent order” producing configurations Axelrod (1984, chap. 8): “The structure of cooperation” Emergent interaction patterns actor actor actor actor actor actor actor actor actor
Models of “emergent structure” constituted as property configruations Example: Schelling’s segregation model; Carley 1991; Axelrod 1997 See Macy & Willer 2002 for further references actor actor actor actor actor actor actor actor actor actor actor actor actor actor actor actor actor actor Emergent property configurations
Most computational models treat networks as exogenous Recent exceptions: Albert and Barabási’s scale-free networks Economics and evolutionary game theory: e.g. Skyrms and Pemantle Emergent networks frequency d-a degree d
Computational models normally assume the actors to be given Some exceptions: Axelrod’s model of new political actors Axtell’s firm-size model Geopolitical models in the Bremer & Mihalka tradition Emergence? Emergent actors
Conclusions • ABM follows in the epistemological and ontological footsteps of sociological process theory • Future challenges of ABM: endogenization of networks and actor structures • Future challenges of process theory: clearer specification of generative theory that allows for systematic empirical anchoring.
The Luhmann Simulator Prof. Dr. Uwe Schimank Fern Universität Hagen