6 What Software Engineering Has to Offer to Agent-Based Social Simulation  117

              modelling peacebuilding activities. In C. Garcia-Diaz & C. Olaya Nieto (Eds.), Social systems
              engineering: The design of complexity. Hoboken, NJ: Wiley.
            Sommerville, I. (2016). Software engineering (10th ed.). Pearson, Boston, MA.
            Stahl, T., Voelter, M., & Czarnecki, K. (2006). Model-driven software development: Technology,
              engineering, management. Hoboken, NJ: Wiley.
            Susanty, M. (2015). Adding psychological factors to the model of electricity consumption in office
              buildings. MSc Dissertation, Nottingham University, School of Computer Science.
            Taatgen, N. A., Lebiere, C., & Anderson, J. R. (2006). Modeling paradigms in ACT-R. In R. Sun
              (Ed.), Cognition and multi-agent interaction: From cognitive modeling to social simulation (pp.
              29–52). Cambridge: Cambridge University Press.
            Weiss, G. (Ed.). (2013). Multiagent systems (2nd ed.). Cambridge: MIT Press.
            Weyns, D., & Holvoet, T. (2004). A formal model for situated multi-agent systems. Fundamenta
              Informaticae, 63(2–3), 125–158.
            Winikoff, M., & Padgham, L. (2013). Agent-oriented software engineering. In G. Weiss (Ed.),
              Multiagent systems, Chapter 15 (2nd ed., pp. 695–758). Cambridge: MIT Press.
            Wooldridge, M. (2009). An introduction to multiagent systems. Hoboken, NJ: Wiley.
            Wray, R. E., Laird, J. E., Nuxoll, A., Stokes, D., & Kerfoot, A. (2005). Synthetic adversaries for
              urban combat training. AI Magazine, 26(3), 82–92.
            Wray, R. E., & Jones, R. M. (2005). An introduction to Soar as an agent architecture. In R. Sun
              (Ed.), Cognition and multi-agent interaction: from cognitive modeling to social simulation (pp.
              53–78). Cambridge: Cambridge University Press.
            Zeigler, B. P. (1990). Object oriented simulation with hierarchical modular models: Intelligent
              agents and endomorphic systems. Boston, MA: Academic Press.
            Zhang, T., Siebers, P. O., & Aickelin, U. (2011). Modelling electricity consumption in office
              buildings: An agent based approach. Energy and Buildings, 43(10), 2882–2892.