Abstract
Wastewater management is a complex task involving a wide range of technical environmental and social factors. Furthermore, it typically requires the coordination of a heterogeneous society of actors with different goals. Regulations and protocols can be effectively used to tackle this complexity. In this chapter we present a norm-aware multi-agent system for social simulations in a river basin. The norms we present are inspired in European policies for wastewater management and they can evolve through time.
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Notes
- 1.
Pollutant concentration is given in (\(\frac{\text{kg}}{{{\text{m}}^{ 3} }}\)).
References
Aldewereld, H., & Dignum, V. (2010). OperettA: Organization-oriented development environment. In Languages, methodologies, and development tools for multi-agent systems (pp. 1–18). Berlin, Heidelberg: Springer.
Aldewereld, H., Padget, J., Vasconcelos, W., Vázquez-Salceda, J., Sergeant, P., & Staikopoulos, A. (2010). Adaptable, organization-aware, service-oriented computing. IEEE Intelligent Systems, 25(4), 26–35.
Alvarez-Napagao, S. (2016). Bringing social reality to multiagent and service architectures. Practical reductions for monitoring of deontic-logic and constitutive norms. PhD Dissertation. Universitat Politècnica de Catalunya-BarcelonaTech.
Dignum, F., Dignum, V., Padget, J., & Vázquez-Salceda, J. (2009, December). Organizing web services to develop dynamic, flexible, distributed systems. In Proceedings of the 11th International Conference on Information Integration and Web-based Applications & Services (pp. 225–234). ACM.
Ernst, A., Schulz, C., Schwarz, N., & Janisch, S. (2007). Modelling of water use decisions in a large, spatially explicit, coupled simulation system. In Social simulation: Technologies, advances and new discoveries (pp. 138–149). Oxford: Elsevier.
European Council. (1991). Directive concerning urban waste water treatment (91/271/EEC), Vol. 30.
Gailliard, N., Barreteau, O., & Richard-Ferroudji, A. (2014). Participatory policy making in practice: simulating boundary work in water governance. In Advances in social simulation (pp. 333–342). Berlin, Heidelberg: Springer.
Garrido, A., Giret, A., Botti, V., & Noriega, P. (2013). mWater, a case study for modeling virtual markets. In Agreement technologies (pp. 565–582). Netherlands: Springer.
Generalitat de Catalunya. Psaru. (2005). http://aca-web.gencat.cat/aca/appmanager/aca/aca?_nfpb=true_pageLabel=P1204654461208200526170profileLocale=es. Accessed March 30, 2015.
Gómez-Sebastià, I. (2016). NoMoDEI a framework for norm monitoring on dynamic electronic institutions. PhD Dissertation. Universitat Politècnica de Catalunya-BarcelonaTech. http://futur.upc.edu/17497419. Accessed May 03, 2016.
Hamilton, H. R. (1969). Systems simulation for regional analysis: An application to River-Basin planning. Cambridge, Massachusetts/London: Massachusetts Institute of Technology.
Hardin, G. (1968). The tragedy of the commons. Science, 162(3859), 1243–1248.
Hardin, G. (2007). The tragedy of the unmanaged commons. In Evolutionary perspectives on environmental problems (pp. 105–107). New Brunswick, NJ: Transaction Publishers.
Lloyd, W. F. (1833). Two lectures on the checks to population: Delivered before the University of Oxford. In Michaelmas TERM 1832. Oxford: JH Parker.
Moses, Y., & Tennenholtz, M. (1995). Artificial social systems. Computers and Artificial Intelligence, 14, 533–562.
North, D. C. (1990). Institutions, institutional change and economic performance. Cambridge: Cambridge University Press.
Ostrom, E., Gardner, R., & Walker, J. (1994). Rules, games, and common-pool resources. Ann Arbor: University of Michigan Press.
Ostrom, E. (1990). Governing the commons: The evolution of institutions for collective action. In Political economy of institutions and decisions. Cambridge: Cambridge University Press.
Ostrom, E. (1999). Coping with tragedies of the commons. Annual Review of Political Science, 2(1), 493–535.
Ostrom, E. (2000). Collective action and the evolution of social norms. Journal of Economic Perspectives, 14(3), 137–158.
Poch, M., Comas, J., Rodriguez-Roda, I., Sanchez-Marre, M., & Cortés, U. (2004). Designing and building real environmental decision support systems. Environmental Modelling and Software, 19(9), 857–873.
Smajgl, A., Heckbert, S., Ward, J., & Straton, A. (2009). Simulating impacts of water trading in an institutional perspective. Environmental Modelling and Software, 24(2), 191–201.
Vázquez-Salceda, J., Vasconcelos, W. W., Padget, J., Dignum, F., Clarke, S., & Roig, M. (2010). ALIVE: An agent-based framework for dynamic and robust service-oriented applications. In Proceedings of the 9th International Conference on Autonomous Agents and Multiagent Systems (Vol. 1, pp. 1637–1638). International Foundation for Autonomous Agents and Multiagent Systems.
Vázquez-Salceda, J. (2003). The role of norms and electronic institutions in multi-agent systems applied to complex domains. The HARMONIA framework. Ai Communications, 16(3), 209–212.
Verdaguer, M., Clara, N., & Poch, M. (2012). Ant colony optimization-based method for managing industrial influents in wastewater systems. AIChE Journal, 58(10), 3070–3079.
Verdaguer, M., Poch, M., Gómez-Sebastià, I., Oliva, L., Vázquez-Salceda, J., & Cortés, U. (2016). Organizational structure of an agent-based model for integrated wastewater management systems. Elsevier.
Wooldridge, M., & Jennings, N. R. (1995). Intelligent agents: Theory and practice. Knowledge Engineering Review, 10(2), 115–152.
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Prof. Cortés is a member of the Sistema Nacional de Investigadores (México).
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Gómez-Sebastià, I. et al. (2017). A Norm-Aware Multi-agent System for Social Simulations in a River Basin. In: Kahraman, C., Sari, İ. (eds) Intelligence Systems in Environmental Management: Theory and Applications. Intelligent Systems Reference Library, vol 113. Springer, Cham. https://doi.org/10.1007/978-3-319-42993-9_4
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