References

1. (2012): Meta-structures project. Available at http://www.meta-structures.org/.
2. (2012): Meta-structures simulation software. The software is written and authored by Dr. Guido del Vescovo http://www.pomos.it/en/del_vescovo_eng_pomos.html. Available at http://dl.dropbox.com/u/63255232/jabsim-win32-0.7-x.zip.
3. (2013): Meta-structures simulation software allowing insertion of an ordering CB within a CB. Available at http://dl.dropbox.com/u/63255232/jabsim-win32-ff-x.zip.
4. P.W. Anderson & D.L. Stein (1985): Broken symmetry, emergent properties, dissipative structures, life. Are they related?. In: F.E. Yates: Self organizing Systems: The emergence of Order. Plenum Press, New York, pp. 445–457.
5. C. Gershenson & N. Fernandez (2012): Complexity and information: Measuring emergence, self-organization, and homeostasis at multiple scales. Complexity 18, pp. 29–44, doi:10.1002/cplx.21424.
6. B. S. Kerner (2004): The Physics of Traffic. Empirical Freeway Pattern Features, Engineering Applications, and Theory. Springer, Berlin.
7. T. G. Lewis (2009): Network science: Theory and applications. Wiley, Hoboken, NJ.
8. I. Licata (2010): Almost-Anywhere Theories: Reductionism and Universality of Emergence. Complexity 15(6), pp. 11–19.
9. I. Licata & G. Minati (2010): Creativity as Cognitive design-The case of mesoscopic variables in Meta-Structures. In: A. M. Corrigan: Creativity: Fostering, Measuring and Contexts. Nova Publishers, New York, pp. 95–107.
10. G. Minati (2008): New Approaches for Modelling Emergence of Collective Phenomena. The Meta-structures project. Polimetrica, Milan.
11. G. Minati (2009): The Dynamic Usage of Models (DYSAM) as theoretical-base phenomenological tool to manage complexity and research framework.. In: S. E. Wallis: Cybernetics and Systems Theory in Management: Tools, Views, and Advancements. IGI Global, PA, US, pp. 176–190, doi:10.4018/978-1-61520-668-1.ch010.
12. G. Minati (2012): First draft of an experimental protocol for research into Meta-Structural properties in simulated collective behaviour. Research issues and possible applications.. In: G. Minati, M. Abram & E. Pessa: Methods, Models, simulations and approaches towards a general theory of change. World Scientific, Singapore, pp. 95–112, doi:10.1142/8352.
13. G. Minati (2012): Introduction to the meta-structures project: prospective applications. World Futures 68(8), pp. 558–574.
14. G. Minati & I. Licata (2012): Meta-Structural properties in Collective Behaviours, The International Journal of General Systems. The International Journal of General Systems, 41(3), pp. 289–311, doi:10.1080/03081079.2011.651136.
15. G. Minati & E. Pessa (2006): Collective beings. Springer, New York.
16. A. E. Motter & A. Réka (2012): Networks in motion. Physics Today 65(4), pp. 43–48, doi:10.1063/PT.3.1518.
17. E. Pessa (2009): Toward a General Theory of Change. In: G. Minati, M. Abram & E. Pessa: Processes of Emergence of Systems and Systemic Properties. World Scientific, Singapore, pp. 603–623.
18. E. Pessa (2012): On Models of Emergent Metastructures... In: G. Minati, M. Abram & E. Pessa: Methods, Models, simulations and approaches towards a general theory of change. World Scientific, Singapore, pp. 113–134, doi:10.1142/9789814383332_0008.
19. M. Prokopenko, J.T. Lizier & O. Obst X.R. Wang (2011): Relating Fisher information to order parameters. Physical Review E 84 041116.
20. T.W. Valente (2012): Networks interventions. Science 337, pp. 49–53, doi:10.1126/science.1217330.
21. T. Vicsek & A. Zafeiris (2012): Collective motion. Physics Reports 517, pp. 71–140, doi:10.1016/j.physrep.2012.03.004.
22. G. M. Viswanathan, M. G. E. Da Luz, E.P. Raposo & H.E. Stanley (2011): The Physics of Foraging: An Introduction to Random Searches and Biological Encounters. Univ. Press., Cambridge, UK, doi:10.1017/CBO9780511902680.
23. S. Wolfram (1994): Cellular Automata and Complexity: Collected Papers of S.Wolfram. Westview Press, Boulder, CO.

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