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Xi, Ning; Ding, Ning; Wang, Yougui (2005)
Languages: English
Types: Preprint
Subjects: Physics - Physics and Society, Condensed Matter - Statistical Mechanics, Quantitative Finance - General Finance

Classified by OpenAIRE into

arxiv: Computer Science::Computer Science and Game Theory, Computer Science::Computers and Society
In this paper the dependence of wealth distribution and the velocity of money on the required reserve ratio is examined based on a random transfer model of money and computer simulations. A fractional reserve banking system is introduced to the model where money creation can be achieved by bank loans and the monetary aggregate is determined by the monetary base and the required reserve ratio. It is shown that monetary wealth follows asymmetric Laplace distribution and latency time of money follows exponential distribution. The expression of monetary wealth distribution and that of the velocity of money in terms of the required reserve ratio are presented in a good agreement with simulation results.
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    • [1] S. Ispolatov, P. L. Krapivsky, S. Redner, Eur. Phys. J. B 2 (1998) 267.
    • [2] J. P. Bouchaud, M. M´ezard, Physica A 282 (2000) 536.
    • [3] A. Dr˘agulescu, V. M. Yakovenko, Eur. Phys. J. B 17 (2000) 723.
    • [4] A. Chakraborti, B. K. Chakrabarti, Eur. Phys. J. B 17 (2000) 167.
    • [5] A. Chatterjee, B. K. Chakrabarti, S. S. Manna, Physica A 335 (2004) 155.
    • [7] Y. Wang, N. Ding, L. Zhang, Physica A 324 (2003) 665.
    • [8] N. Ding, N. Xi, Y. Wang, Eur. Phys. J. B 36 (2003) 149.
    • [9] V. Pareto, Cours d'Economie Politique, Droz, Geneva Switzerland, 1896.
    • [10] H. Aoyama, Y. Nagahara, M. P. Okazaki, W. Souma, H. Takayasu, M. Takayasu, Fractals 8 (2000) 293.
    • [11] A. Dr˘agulescu, V. M. Yakovenko, Physica A 299 (2001) 213.
    • [12] A. Dr˘agulescu, V. M. Yakovenko, Eur. Phys. J. B 20 (2001) 585.
    • [13] A. C. Silva, V. M. Yakovenko, Europhys. Lett. 69 (2005) 304.
    • [14] F. Levy, Science 236 (1987) 923.
    • [15] C. R. McConnell, S. L. Brue, Economics: Principles, Problems, and Policies, McGraw-Hill, New York, 1996.
    • [16] W. J. Baumol, A. S. Blinder, Macroeconomics, 5th edn., Harcourt Brace Jovanovich, San Diego, 1991.
    • [17] D. Braun, Physica A 290 (2001) 491.
    • [18] R. Fischer, D. Braun, Physica A 324 (2003) 266.
    • [19] R. Fischer, D. Braun, Physica A 321 (2003) 605.
    • [20] M. R. Garfinkel, D. L. Thornton, Federal Reserve Bank of St. Louis Review 73 (1991) 47.
    • [21] K. Brunner, International Economic Review January (1961) 79.
    • [22] K. Brunner, A. H. Meltzer, Journal of Finance May (1964) 240.
    • [23] T. J. Kozubowski, K. Podgo´rski, Math. Sci. 25 (2000) 37.
    • [24] D. R. Gaskell, Introduction to the Thermodynamics of Materials, 4th edn., Taylor & Francis, New York, 2003.
    • 0.2 0.4 0.6 0.8 Required Reserved Ratio,r
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