A Ponzi scheme exposed to volatile markets

Parodi, Bernhard R. (2014): A Ponzi scheme exposed to volatile markets.

This is the latest version of this item.

Preview

PDF
MPRA_paper_63356.pdf
Download (386kB) | Preview

Abstract

The PGBM model for a couple of counteracting, exponentially growing capital flows is presented: the available capital stock X(t) evolves according to a variant of inhomogeneous geometric Brownian motion (GBM) with time-dependent drift, in particular, to the stochastic differential equation dX(t)=[pX(t) + rho1*exp(q1*t)+rho2*exp(q2*t)]dt + sigma*X(t)*dW(t), where W(t) is a Wiener process. As a paragon, we study a continuous-time model for a nine-parameter Ponzi scheme with an exponentially growing number of investors. Investors either maintain their investment or withdraw it after some fixed investment span and quit the system. The first two moments of the process and hence a closed-form solution for the mean path are given. The capital stock exhibits a dynamic lognormal probability distribution as long as the system remains solvent. The assumed stochastic performance allows for earlier or later collaps of the investment system as compared to the deterministic analogy (sigma = 0). Allowing also for negative capital values the system's default probability can be calculated at any time by numerically solving the corresponding Kolmogorov forward equation. We use the finite difference method and obtain results in accordance with those of simple Monte-Carlo simulations. Finally, a minor modification of the payout function provides a toy model for an overlapping-generations type social security system exhibiting critical behaviour. Depending on whether some parameter value violates a weak no-Ponzi game condition or not, the system represents either a non-lasting Ponzi game or a lasting no-Ponzi game in the weak sense.

Item Type:	MPRA Paper
Original Title:	A Ponzi scheme exposed to volatile markets
Language:	English
Keywords:	Ponzi scheme; geometric brownian motion; probability density; forward Kolmogorov equation; finite difference; default probability; critical behaviour
Subjects:	A - General Economics and Teaching > A2 - Economic Education and Teaching of Economics > A20 - General C - Mathematical and Quantitative Methods > C5 - Econometric Modeling > C50 - General G - Financial Economics > G0 - General > G00 - General G - Financial Economics > G2 - Financial Institutions and Services > G20 - General
Item ID:	63356
Depositing User:	Bernhard R. Parodi
Date Deposited:	02 Apr 2015 14:25
Last Modified:	27 Sep 2019 23:43
References:	Artzrouni, M. (2009), The mathematics of Ponzi schemes. Mathematical Social Sciences 58(2), pp. 190-201; online http://mpra.ub.uni-muenchen.de/14420/ . Blanchard, O. (2011), Macroeconomics, 5th edition (updated), chapter 26. Pearson, Boston. Cunha, M., Valente, H., Vasconcelos, P.B. (2013), Ponzi schemes: computer simulation. Observat\'orio de economia e gest\~ao de fraude (OBEGEF), working paper no. 23; online via www.gestaodefraude.eu. Dickens, Charles (1857), Little Dorrit. Online, e.g., www.gutenberg.org/ebooks/963. Gardiner, C.W. (1985), Handbook of stochastic methods: for physics, chemistry and the natural sciences. Second ed., Springer-Verlag, Berlin. Chapters 3.5 and 5.2. Geering, H.P., Dondi, G., Herzog, F., Keel, S. (2011), Stochastic systems. Course script, chapter 3. ETH Z\"urich \& IMRT Measurment and Control Laboratory. Huang, H., Milevsky, M., Wang, J. (2003), Ruined moments in your life: How good are the approximations? Working paper, chapter 7: appendix. York University; online via ssrn.com. Mayorga-Zambrano, J. (2011), Un modelo matem\'atico para esquemas piramidales tipo Ponzi. Anal\'itika: Revista de an\'alisis estad\'istico, Vol. 1(1), 119-129. Parodi, B.R. (2013), Abc-Modell eines Ponzi-Systems. MPRA-paper no. 45083, 12 pages; online mpra.ub.uni-muenchen.de/45083/. Quituisaca-Samaniego, L., Mayorga-Zambrano, J., Medina, P. (2013), Simulaci\'on estoc\'astica de esquemas piramidales tipo Ponzi. Anal\'itika: Revista de an\'alisis estad\'istico, Vol. 6(2), 51-66. Rujivan, S. (2011), Affine transformations of It\^o diffusions and their transition densities. Walailak J. Sci. \& Tech., Vol. 8(1), pp. 71-79. Schwab, C., Hilber, N. (2007), Computational methods for quantitative finance. Lecture notes and exercises, ETH Z\"urich, chapter 3.5 and exercise series 4. Tanner, M. (2011), Social Security, Ponzi Schemes, and the Need for Reform. Cato Institute Policy Analysis no. 689, 16 pages; online via cato.org/publications/. Zhao, B. (2009), Inhomogenous geometric Brownian motions. Cass Business School research paper, 38 pages, City University London; online via cassknowledge.com/research/author/bo-zhao.
URI:	https://mpra.ub.uni-muenchen.de/id/eprint/63356

Available Versions of this Item

A Ponzi scheme exposed to volatile markets. (deposited 13 Dec 2014 08:18)
- A Ponzi scheme exposed to volatile markets. (deposited 13 Jan 2015 05:38)
  - A Ponzi scheme exposed to volatile markets. (deposited 02 Apr 2015 14:25) [Currently Displayed]

All papers reproduced by permission. Reproduction and distribution subject to the approval of the copyright owners.

View Item

Atom RSS 1.0 RSS 2.0

Contact us: mpra@ub.uni-muenchen.de

This repository has been built using EPrints software.

MPRA is a RePEc service hosted by .