Page 230 -

P. 230

10 Understanding Simulation Results 227

Moon, I.-C., Schneider, M., & Carley, K. (2006). Evolution of player skill in the America’s Army
game. SIMULATION, 82(11), 703–718.
Müller, W, & Schumann, H. S. (2003). Visualisation methods for time-dependent data: An
overview. In: S. Chick, P. J. Sánchez, D. Ferrin, & D. J. Morrice (Eds.), Proceedings of winter
simulation 2003, New Orleans, LA, 7–10 December 2003. http://informs-sim.org/wsc03papers/
090.pdf
Newman, M. E. J. (2003). The structure and function of complex networks. SIAM Review, 45,
167–256.
Nisbett, R. E., & Masuda, T. (2003). Culture and point of view. Proceedings of the National
Academy of Science USA, 100(19), 11163–11170.
OED. (2010). Oxford English dictionary. http://www.oed.com/
Openshaw, S., Craft, A. W., Charlton, M., & Birch, J. M. (1988). Investigation of leukaemia
clusters by use of a geographical analysis machine. Lancet, 331(8580), 272–273.
Orford, S., Harris, R., & Dorling, D. (1999). Geography: Information visualisation in the social
sciences. Social Science Computer Review, 17(3), 289–304.
Patel, A., & Hudson-Smith, A. (2012). Agent tools, techniques and methods for macro and
microscopic simulation. In A. J. Heppenstall, A. T. Crooks, L. M. See, & M. Batty (Eds.),
Agent-based models of geographical systems. Berlin: Springer. chapter 18.
Pearl, J., & Verma, T. S. (1991). A theory of inferred causation. In J. A. Allen, R. Fikes, & E.
Sandewall (Eds.), Proceedings of the 2nd international conference on principles of knowledge
representation and reasoning (KR’91), Cambridge, MA, USA, April 22–25, 1991 (pp. 441–
452). San Mateo: Morgan Kaufmann.
Pohlheim, H. (2006). Multidimensional scaling for evolutionary algorithms: Visualisation of the
path through search space and solution space using Sammon mapping. Artiﬁcial Life, 12(2),
203–209.
Ramsey, J. B. (2002). Wavelets in economics and ﬁnance: Past and future. Studies in Nonlinear
Dynamics & Econometrics, 6(3), 1–27.
Roberson, D., Davidoff, J., Davies, I. R. L., & Shapiro, L. R. (2004). The development of
color categories in two languages: A longitudinal study. Journal of Experimental Psychology:
General, 133(4), 554–571.
Robinson, W. S. (1950). Ecological correlations and the behaviour of individuals. American
Sociological Review, 15, 351–357.
Ross, A. N., & Vosper, S. B. (2003). Numerical simulations of stably stratiﬁed ﬂow through a
mountain pass. Quarterly Journal of Royal Meteorological Society, 129, 97–115.
Schelling, T. C. (1969). Models of segregation. The American Economic Review, 59(2), 88–493.
Tobler, W. R. (1970). A computer model simulation of urban growth in the Detroit region.
Economic Geography, 46(2), 234–240.
Uchmanski, J., & Grimm, V. (1996). Individual-based modelling in ecology: What makes the
difference? Trends in Ecology & Evolution, 11, 437–441.
Vasconcelos, D. B., Lopes, S. R., Kurths, J., & Viana, R. L. (2006). Spatial recurrence plots.
Physical Review E, 73(5), 056207.
Viboud, C., et al. (2006). Synchrony, waves, and spatial hierarchies in the spread of inﬂuenza.
Science, 312(5772), 447–451.
Wagner, H. H., & Fortin, M.-J. (2005). Spatial analysis of landscapes: Concepts and statistics.
Ecology, 86, 1975–1987.
Worboys, M. F. (2005). Event-oriented approaches to geographic phenomena. International
Journal of Geographic Information Science, 19(1), 1–28.
Wyszomirski, T., Wyszomirska, I., & Jarzyna, I. (1999). Simple mechanisms of size distribution
dynamics in crowded and uncrowded virtual monocultures. Ecological Modelling, 115(2–3),
253–273.

225 226 227 228 229 230 231 232 233 234 235