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Volume 9, Issue 1 (2017) , Pages [1] - [50]

TOWARD A MATHEMATICAL THEORY OF DYNAMICAL BEHAVIOUR IN COMPETITIVE MULTI-AGENT SYSTEMS

[1] K. Odeyemi and E. Ogunti, Performance comparison of multiple input – multiple output techniques for high data rate wireless communication system, J. Comput. Intell. Electron. Syst. 3 (2014), 36-43.

 

[2] P. P. Groumpos, Intelligent Decision making support systems: Issues and challenges, J. Comput. Intell. Electron. Syst. 3 (2014), 122-131.

 

[3] K. Kumar and P. Goyal, A review on energy minimization techniques in wireless sensor network, J. Comput. Intell. Electron. Syst. 3 (2014), 1-10.

 

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[10] See the works of D. Wolpert and K. Tumer, at http://ic.arc.nasa.gov .

 

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[23] R. Savit, R. Manuca and R. Riolo, Phys. Rev. Lett. 82 (1999), 2203. Interestingly, we had found a similarly shaped curve for the volatility in the El Farol problem (see Ref. [12]).

 

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[25] Y. Li, R. Riolo and R. Savit, Physica A 276 (2000), 265.

 

[26] N. F. Johnson, M. Hart and P. M. Hui, Physica A 269 (1999), 1.

 

[27] M. Hart, P. Jefferies, N. F. Johnson and P. M. Hui, Physica A 298 (2001), 537.

 

[28] N. F. Johnson, P. M. Hui, Dafang Zheng and M. L. Hart, J. Phys. A: Math. Gen. 32 (1999), L427.

 

[29] M. L. Hart, P. Jefferies, N. F. Johnson and P. M. Hui, Phys. Rev. E 63 (2001), 017102.

 

[30] P. Jefferies, M. L. Hart, N. F. Johnson and P. M. Hui, J. Phys. A: Math. Gen. 33 (2000), L409.

 

[31] We presented the Grand Canonical Minority Game (GCMG) model at the APFA1 conference in Dublin (1999) and at the first International Workshop of Applications of Statistical Physics to Financial Analysis in Palermo (September 1998). See also Ref. [35].

 

[32] M. L. Hart, P. Jefferies and N. F. Johnson, Physica A 311 (2002), 275.

 

[33] M. L. Hart, D. Lamper and N. F. Johnson, Physica A 316 (2002), 649.

 

[34] P. Jefferies, M. L. Hart and N. F. Johnson, Phys. Rev. E 65 (2002), 016105.

 

[35] N. F. Johnson, M. Hart, P. M. Hui and D. Zheng, Int. J. of Th. and Applied Fin. 3 (2000), 443.

 

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[39] A. Cavagna, Phys. Rev. E 59 (1999), 3783.

 

[40] A. Cavagna, J. P. Garrahan, I. Giardina and D. Sherrington, Phys. Rev. Lett. 83 (1999), 4429; A. Cavagna, J. P. Garrahan, I. Giardina and D. Sherrington, Phys. Rev. Lett. 85 (2000), 5009.

 

[41] J. P. Garrahan, E. Moro and D. Sherrington, Quant. Finance 1 (2001), 246.

 

[42] See www.unifr.ch/econophysics/minority

 

[43] N. F. Johnson, P. Jefferies and P. M. Hui, Financial Market Complexity, OxfordUniversity Press, 2003.

 

[44] See, for example, M. E. J. Newman, cond-mat/0303516; M. E. J. Newman, A. L. Barabasi and D. J. Watts, The Structure and Dynamics of Networks, Princeton University Press, 2003; S. H. Strogatz, Nature 410 (2001), 268; S. N. Dorogovtsev and J. F. F. Mendes, Evolution of Networks: From Biological Nets to the Internet and WWW Oxford University Press, 2003.

 

[45] See, for example, M. Tlalka, D. Hensman, P. R. Darrah, S. C. Watkinson and M. D. Fricker, New Phytologist 158 (2003), 325.

 

[46] D. Challet and N. F. Johnson, Phys. Rev. Lett. 89 (2002), 028701.

 

[47] C. Choe, S. Gourley, P. M. Hui and N. F. Johnson, Europhys. Lett. 67 (2004), 867-873.

 

[48] The Thermal Minority Game discussed in Ref. [40] depends on a parameter T (or equivalently ) called a ‘temperature’. We could similarly define T by setting the probability of playing the worst strategy  Hence  corresponds to  while  corresponds to  hence we will only consider 

 

[49] M. Anghel, Z. Toroczkai, K. E. Bassler and G. Korniss, Phys. Rev. Lett. 92 (2004), 058701.