Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-26T20:58:14.638Z Has data issue: false hasContentIssue false
  • English
  • Français

Discounted Optimal Stopping for Maxima of Some Jump-Diffusion Processes

Part of: Functional-differential and differential-difference equations Mathematical economics Stochastic processes Markov processes

Published online by Cambridge University Press:  14 July 2016

Pavel V. Gapeev
Pavel V. Gapeev*
Affiliation:
WIAS and Russian Academy of Sciences
*
Postal address: Weierstrass Institute for Applied Analysis and Stochastics (WIAS), Mohrenstr. 39, D-10117 Berlin, Germany. Email address: [email protected] and [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In this paper we present closed form solutions of some discounted optimal stopping problems for the maximum process in a model driven by a Brownian motion and a compound Poisson process with exponential jumps. The method of proof is based on reducing the initial problems to integro-differential free-boundary problems, where the normal-reflection and smooth-fit conditions may break down and the latter then replaced by the continuous-fit condition. We show that, under certain relationships on the parameters of the model, the optimal stopping boundary can be uniquely determined as a component of the solution of a two-dimensional system of nonlinear ordinary differential equations. The obtained results can be interpreted as pricing perpetual American lookback options with fixed and floating strikes in a jump-diffusion model.

Keywords

Discounted optimal stopping problemBrownian motioncompound Poisson processmaximum processintegro-differential free-boundary problemcontinuous and smooth fitnormal reflectionchange-of-variable formula with local time on surfacesperpetual American lookback option

MSC classification

Secondary: 60G40: Stopping times; optimal stopping problems; gambling theory 34K10: Boundary value problems 91B70: Stochastic models 60J60: Diffusion processes 60J75: Jump processes
Type
Research Article
Information
Journal of Applied Probability , Volume 44 , Issue 3 , September 2007 , pp. 713 - 731
Copyright
Copyright © Applied Probability Trust 2007 

References

[1] Alili, L. and Kyprianou, A. E. (2005). Some remarks on first passage of Lévy processes, the American put and pasting principles. Ann. Appl. Prob. 15, 20622080.Google Scholar
[2] Asmussen, S., Avram, F. and Pistorius, M. (2003). Russian and American put options under exponential phase-type Lévy models. Stoch. Process. Appl. 109, 79111.CrossRefGoogle Scholar
[3] Avram, F., Kyprianou, A. E. and Pistorius, M. (2004). Exit problems for spectrally negative Lévy processes and applications to (Canadized) Russian options. Ann. Appl. Prob. 14, 215238.Google Scholar
[4] Beibel, M. and Lerche, H. R. (1997). A new look at optimal stopping problems related to mathematical finance. Statististica Sinica 7, 93108.Google Scholar
[5] Conze, A. and Viswanathan, R. (1991). Path dependent options: the case of lookback options. J. Finance 46, 18931907.CrossRefGoogle Scholar
[6] Dubins, L., Shepp, L. A. and Shiryaev, A. N. (1993). Optimal stopping rules and maximal inequalities for Bessel processes. Theory Prob. Appl. 38, 226261.Google Scholar
[7] Duffie, J. D. and Harrison, J. M. (1993). Arbitrage pricing of Russian options and perpetual lookback options. Ann. Appl. Prob. 3, 641651.Google Scholar
[8] Duistermaat, J. J., Kyprianou, A. E. and van Schaik, K. (2005). Finite expiry Russian options. Stoch. Process. Appl. 115, 609638.Google Scholar
[9] Dynkin, E. B. (1963). The optimum choice of the instant for stopping a Markov process. Soviet Math. Dokl. 4, 627629.Google Scholar
[10] Ekström, E. (2004). Russian options with a finite time horizon. J. Appl. Prob. 41, 313326.Google Scholar
[11] Gapeev, P. V. (2006). Discounted optimal stopping for maxima in diffusion models with finite horizon. Electron. J. Prob 11, 10311048.CrossRefGoogle Scholar
[12] Gapeev, P. V. (2007). Perpetual barrier options in Jump-diffusion models. Stochastics 79, 139154.Google Scholar
[13] Gapeev, P. V. and Kühn, C. (2005). Perpetual convertible bonds in Jump-diffusion models. Statist. Decisions 23, 1531.Google Scholar
[14] Gerber, H. U., Michaud, F. and Shiu, E. S. W. (1995). Pricing Russian options with the compound Poisson process. Insurance Math. Econom. 17, 79.CrossRefGoogle Scholar
[15] Guo, X. and Shepp, L. A. (2001). Some optimal stopping problems with nontrivial boundaries for pricing exotic options. J. Appl. Prob. 38, 647658.Google Scholar
[16] Jacod, J. and Shiryaev, A. N. (1987). Limit Theorems for Stochastic Processes. Springer, Berlin.Google Scholar
[17] Kou, S. G. (2002). A Jump diffusion model for option pricing. Manag. Sci. 48, 10861101.CrossRefGoogle Scholar
[18] Kou, S. G. and Wang, H. (2003). First passage times for a Jump diffusion process. Adv. Appl. Prob. 35, 504531.CrossRefGoogle Scholar
[19] Kou, S. G. and Wang, H. (2004). Option pricing under a double exponential Jump diffusion model. Manag. Sci. 50, 11781192.CrossRefGoogle Scholar
[20] Mordecki, E. (1999). Optimal stopping for a diffusion with Jumps. Finance Stoch. 3, 227236.CrossRefGoogle Scholar
[21] Mordecki, E. (2002). Optimal stopping and perpetual options for Lévy processes. Finance Stoch. 6, 473493.Google Scholar
[22] Mordecki, E. and Moreira, W. (2001). Russian options for a difussion with negative Jumps. Publ. Mate. Uruguay 9, 3751.Google Scholar
[23] Pedersen, J. L. (2000). Discounted optimal stopping problems for the maximum process. J. Appl. Prob. 37, 972983.Google Scholar
[24] Peskir, G. (1998). Optimal stopping of the maximum process: the maximality principle. Ann. Prob. 26, 16141640.Google Scholar
[25] Peskir, G. (2005). The Russian option: finite horizon. Finance Stoch. 9, 251267.CrossRefGoogle Scholar
[26] Peskir, G. (2007). A Change-of-Variable Formula with Local Time on Surfaces. Res. Rep. 437, Department of Theoretical Statistics, University of Aarhus.Google Scholar
[27] Peskir, G. and Shiryaev, A. N. (2000). Sequential testing problems for Poisson processes. Ann. Statist. 28, 837859.Google Scholar
[28] Peskir, G. and Shiryaev, A. N. (2002). Solving the Poisson disorder problem. In Advances in Finance and Stochastics, eds Sandmann, K. and Schönbucher, P., Springer, Berlin, pp. 295312.CrossRefGoogle Scholar
[29] Peskir, G. and Shiryaev, A. N. (2006). Optimal Stopping and Free-Boundary Problems. Birkhäuser, Basel.Google Scholar
[30] Shepp, L. A. and Shiryaev, A. N. (1993). The Russian option: reduced regret. Ann. Appl. Prob. 3, 631640.Google Scholar
[31] Shepp, L. A. and Shiryaev, A. N. (1994). A new look at the pricing of Russian options. Theory Prob. Appl. 39, 103119.Google Scholar
[32] Shepp, L. A., Shiryaev, A. N. and Sulem, A. (2002). A barrier version of the Russian option. In Advances in Finance and Stochastics, eds Sandmann, K. and Schönbucher, P., Springer, Berlin, pp. 271284.CrossRefGoogle Scholar
[33] Shiryaev, A. N. (1978). Optimal Stopping Rules. Springer, Berlin.Google Scholar
[34] Shiryaev, A. N. (1999). Essentials of Stochastic Finance. World Scientific, Singapore.CrossRefGoogle Scholar