Abstract
Computer simulation models have been proposed as a tool for understanding innovation, including models of organisational learning, technological evolution, knowledge dynamics and the emergence of innovation networks. By representing micro-level interactions they provide insight into the mechanisms by which are generated various stylised facts about innovation phenomena. This paper summarises work carried out as part of the SIMIAN project and to be covered in more detail in a forthcoming book. A critical review of existing innovation-related models is performed. Models compared include a model of collective learning in networks [1], a model of technological evolution based around percolation on a grid [2, 3], a model of technological evolution that uses Boolean logic gate designs [4], the SKIN model [5], a model of emergent innovation networks [6], and the hypercycles model of economic production [7]. The models are compared for the ways they represent knowledge and/or technologies, how novelty enters the system, the degree to which they represent open-ended systems, their use of networks, landscapes and other pre-defined structures, and the patterns that emerge from their operations, including networks and scale-free frequency distributions. Suggestions are then made as to what features future innovation models might contain.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Lazer, D., Friedman, A.: The network structure of exploration and exploitation. Adm. Sci. Q 52, 667–694 (2007)
Silverberg, G., Verspagen, B.: Self-organization of R&D search in complex technology spaces. J. Econ. Interac. Coord. 2, 195–210 (2007)
Silverberg, G., Verspagen, B.: A percolation model of innovation in complex technology spaces. Journal of Economic Dynamics & Control 29, 225–244 (2005)
Arthur, W.B., Polak, W.: The evolution of technology within a simple computer model. Complexity 11, 23–31 (2006)
Ahrweiler, P., Pyka, A., Gilbert, N.: Simulating Knowledge Dynamics in Innovation Networks (SKIN). In: Leombruni, R., Richiardi, M. (eds.) Industry and Labor Dynamics: The Agent-Based Computational Economics Approach: Proceedings of the Wild@ace2003 Workshop, Torino, Italy, October 3-4, pp. 284–296. World Scientific, Singapore (2004)
Cowan, R., Jonard, N., Zimmermann, J.B.: Bilateral collaboration and the emergence of innovation networks. Management Science 53, 1051–1067 (2007)
Padgett, J.F., Lee, D., Collier, N.: Economic production as chemistry. Industrial and Corporate Change 12, 843–877 (2003)
Ahrweiler, P., Gilbert, N.: Caffe Nero: the evaluation of social simulation. Jasss-the Journal of Artificial Societies and Social Simulation 8 (2005)
Lienhard, J.H.: How invention begins: echoes of old voices in the rise of new machines. Oxford University Press, New York (2006)
Lienhard, J.H.: Some ideas about growth and quality in technology. Technological Forecasting and Social Change 27, 265–281 (1985)
Beinhocker, E.D.: The origin of wealth: evolution, complexity, and the radical remaking of economics. Random House Business, London (2007)
Scherer, F.M.: The size distribution of profits from innovation. Kluwer Academic Publishers, Norwell (2000)
Harhoff, D., Narin, F., Scherer, F.M., Vopel, K.: Citation frequency and the value of patented inventions. Review of Economics and Statistics 81, 511–515 (1999)
Trajtenberg, M.: A penny for your quotes: patent citations and the value of innovations. RAND Journal of Economics 21, 172–187 (1990)
Schumpeter, J.A.: Capitalism, socialism, and democracy. G. Allen & Unwin ltd., London (1943)
Abernathy, W.J.: The productivity dilemma: roadblock to innovation in the automobile industry. Johns Hopkins University Press, Baltimore (1978)
Henderson, R.M., Clark, K.B.: Architectural Innovation: The Reconfiguration of Existing Product Technologies and the Failure of Established Firms. Adm. Sci. Q 35, 9–30 (1990)
Lane, D.A.: Complexity perspectives in innovation and social change. Springer, Dordrecht (2009)
Edmonds, B., Gilbert, N., Ahrweiler, P., Scharnhorst, A.: Simulating the Social Processes of Science. Jasss-the Journal of Artificial Societies and Social Simulation 14 (2011)
March, J.G.: Exploration and exploitation in organizational learning. Organization Science 2, 71–87 (1991)
Rivkin, J.W., Siggelkow, N.: Balancing search and stability: Interdependencies among elements of organizational design. Management Science 49, 290–311 (2003)
Steels, L.: A self-organizing spatial vocabulary. Artificial Life 2, 319–332 (1996)
Steels, L.: Grounding symbols through evolutionary language games. Simulating the Evolution of Language, 211–226 (2002)
Watts, C., Gilbert, N.: Simulating innovation. Edward Elgar Publishing, Cheltenham (forthcoming)
Kauffman, S.A.: At home in the universe: the search for laws of self-organization and complexity. Penguin, London (1996)
Bak, P.: How nature works: the science of self-organized criticality. Oxford University Press, Oxford (1997)
Gilbert, N., Ahrweiler, P., Pyka, A.: Learning in innovation networks: Some simulation experiments. Physica A 378, 100–109 (2007)
Pyka, A., Gilbert, N., Ahrweiler, P.: Simulating knowledge-generation and distribution processes in innovation collaborations and networks. Cybernetics and Systems 38, 667–693 (2007)
Padgett, J.F.: The emergence of simple ecologies of skill: a hypercycle approach to economic organization. In: Arthur, W.B., Durlauf, S.N., Lane, D.A. (eds.) The Economy as an Evolving Complex System II, pp. xii, 583p. Advanced Book Program/Perseus Books, Reading (1997)
Padgett, J.F., McMahan, P., Zhong, X.: Economic Production as Chemistry II. In: Padgett, J.F., Powell, W.W. (eds.) The Emergence of Organizations and Markets, pp. 70–91. Princeton University Press, Princeton (2012)
Cyert, R.M., March, J.G., Clarkson, G.P.E.: A behavioral theory of the firm, Englewood Cliffs, N.J (1964)
Nelson, R.R., Winter, S.G.: An evolutionary theory of economic change. Belknap Press, Cambridge (1982)
Becker, M.C., Knudsen, T., March, J.G.: Schumpeter, Winter, and the sources of novelty. Industrial & Corporate Change 15, 353–371 (2006)
Padgett, J.F., Powell, W.W.: The emergence of organizations and markets. Princeton University Press, Princeton (2012)
Bettencourt, L.M.A., Lobo, J., Helbing, D., Kuhnert, C., West, G.B.: Growth, innovation, scaling, and the pace of life in cities. Proc. Natl. Acad. Sci. U. S. A. 104, 7301–7306 (2007)
Villani, M., Bonacini, S., Ferrari, D., Serra, R., Lane, D.: An agent-based model of exaptive processes. European Management Review 4, 141–151 (2007)
Gavetti, G., Levinthal, D.A., Rivkin, J.W.: Strategy making in novel and complex worlds: The power of analogy. Strategic Management Journal 26, 691–712 (2005)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2014 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Watts, C., Gilbert, N. (2014). Simulating Innovation: Comparing Models of Collective Knowledge, Technological Evolution and Emergent Innovation Networks. In: Kamiński, B., Koloch, G. (eds) Advances in Social Simulation. Advances in Intelligent Systems and Computing, vol 229. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-39829-2_17
Download citation
DOI: https://doi.org/10.1007/978-3-642-39829-2_17
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-39828-5
Online ISBN: 978-3-642-39829-2
eBook Packages: EngineeringEngineering (R0)