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VALUING EQUITY-LINKED DEATH BENEFITS IN A REGIME-SWITCHING FRAMEWORK

Published online by Cambridge University Press:  13 January 2015

Chi Chung Siu ,
Sheung Chi Phillip Yam  and
Hailiang Yang
Chi Chung Siu
Affiliation:
Finance Discipline Group, Business School, University of Technology Sydney, Sydney, NSW, Australia
Sheung Chi Phillip Yam
Affiliation:
Department of Statistics, The Chinese University of Hong Kong, Shatin, N.T. Hong Kong
Hailiang Yang*
Affiliation:
Department of Statistics and Actuarial Science, The University of Hong Kong, Pokfulam Road, Pokfulam, Hong Kong
*
E-Mail: [email protected]
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Abstract

In this article, we consider the problem of computing the expected discounted value of a death benefit, e.g. in Gerber et al. (2012, 2013), in a regime-switching economy. Contrary to their proposed discounted density approach, we adopt the Laplace transform to value the contingent options. By this alternative approach, closed-form expressions for the Laplace transforms of the values of various contingent options, such as call/put options, lookback options, barrier options, dynamic fund protection and the dynamic withdrawal benefits, have been obtained. The value of each contingent option can then be recovered by the numerical Laplace inversion algorithm, and this efficient approach is documented by several numerical illustrations. The strength of our methodology becomes apparent when we tackle the valuations of exotic contingent options in the cases when (1) the contracts have a finite expiry date; (2) when the time-until-death variable is uniformly distributed in accordance with De Moivre's law.

Keywords

Regime-switchingjump-diffusion processequity-linked death benefitsguaranteed minimum death benefitsfirst passage probabilities
Type
Research Article
Information
ASTIN Bulletin: The Journal of the IAA , Volume 45 , Issue 2 , May 2015 , pp. 355 - 395
Copyright
Copyright © ASTIN Bulletin 2015 

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References

Abate, J. and Whitt, W. (1992) The Fourier-series method for inverting transforms of probability distributions. Queueing Systems, 10 (1–2), 588.CrossRefGoogle Scholar
Albizzati, M.-O. and Geman, H. (1994) Interest rate risk management and valuation of the surrender option in life insurance policies. The Journal of Risk and Insurance, 61 (4), 616616.Google Scholar
Asmussen, S. (2003) Applied Probability and Queues. New York: Springer-Verlag.Google Scholar
Asmussen, S., Avram, F. and Pistorius, M. (2004) Russian and American put options under exponential phase-type Lévy models. Stochastic Processes and their Applications, 109 (1), 79111.Google Scholar
Asmussen, S. and Kella, O. (2000) A multi-dimensional martingale for Markov additive processes and its applications. Advances in Applied Probability, 32, 376393.Google Scholar
Bacinello, A.R. (2001) Fair pricing of life insurance participating contracts with a minimum interest rate guarantees. ASTIN Bulletin, 31 (2), 275275.Google Scholar
Botta, R.F. and Harris, C.M. (1986) Approximation with generalized hyperexponential distributions: Weak convergence results. Queueing Systems, 2, 169169.CrossRefGoogle Scholar
Boyle, P. and Draviam, T. (2007) Pricing exotic options under regime switching. Insurance: Mathematics and Economics, 40 (2), 267267.Google Scholar
Boyle, P. and Schwartz, E. (1977) Equilibrium prices of guarantees under equity-linked contracts. The Journal of Risk and Insurance, 44 (4), 639680.Google Scholar
Bowers, N., Gerber, H.U., Hickman, J., Jones, D. and Nesbitt, C. (1997) Actuarial Mathematics. 2nd Ed., Society of Actuary, Schaumburg, Ill.Google Scholar
Brennan, M. and Schwartz, E. (1976) The pricing of equity-linked life insurance policies with an asset value guarantee. Journal of Financial Economics, 3 (3), 195213.Google Scholar
Brennan, M. and Schwartz, E. (1979) Alternative investment strategies for the issuers of equity linked life insurance policies with an asset value guarantee. Journal of Business, 52 (1), 6393.Google Scholar
Cai, N. and Kou, S. (2011) Option pricing under a mixed-exponential jump diffusion model. Management Science, 57 (11), 20672081.Google Scholar
Chan, B. (1990) Ruin probability for translated combination of exponential claims. ASTIN Bulletin, 20 (1), 113113.Google Scholar
Cont, R. and Tankov, P. (2004) Financial Modelling with Jump Processes. New York: Springer-Verlag.Google Scholar
Dong, Y. (2011) Fair valuation of life insurance contracts under a correlated jump diffusion model. ASTIN Bulletin, 41 (2), 429429.Google Scholar
Dufresne, D. (2007) Fitting combinations of exponentials to probability distributions. Applied Stochastic Models in Business and Industry, 23, 2348.Google Scholar
Dufresne, D. and Gerber, H. (1988) The probability and severity of ruin for combinations of exponential claim amount distributions and their translations. Insurance: Mathematics and Economics, 7 (2), 7580.Google Scholar
Dufresne, D. and Gerber, H. (1991) Risk theory for the compound Poisson process that is perturbed by diffusion. Insurance: Mathematics and Economics, 10 (1), 5151.Google Scholar
Elliott, R.J., Aggoun, L. and Moore, J. (1994) Hidden Markov Models: Estimation and Control. Berlin-Heidelberg-New York: Springer-Verlag.Google Scholar
Elliott, R.J. and Siu, T.K. (2009) On Markov-modulated exponential-affine bond price formulae. Applied Mathematical Finance, 16 (1), 11.Google Scholar
Gerber, H.U. and Shiu, E.S.W. (2006) Maximizing dividends without bankruptcy. ASTIN Bulletin, 36 (1), 523.Google Scholar
Gerber, H.U., Shiu, E.S.W. and Yang, H. (2012) Valuing equity-linked death benefits and other contingent options: A discounted density approach. Insurance: Mathematics and Economics, 51, 7392.Google Scholar
Gerber, H.U., Shiu, E.S.W. and Yang, H. (2013) Valuing equity-linked death benefits in jump diffusion models. Insurance: Mathematics and Economics, 53, 615623.Google Scholar
Guo, X. (2001) An explicit solution to an optimal stopping problem with regime switching. Journal of Applied Probability, 38 (2), 464481.Google Scholar
Hamilton, J.D. (1989) A new approach to the economic analysis of non-stationary time series and the business cycle. Econometrica, 57 (2), 357384.Google Scholar
Hardy, M.R. (2001) A regime-switching model of long-term stock returns. North American Actuarial Journal, 5 (2), 4141.Google Scholar
Jiang, Z. and Pistorius, M. (2008) On perpetual American put valuation and first passage in a regime-switching model with jumps. Finance and Stochastics, 12, 331355.Google Scholar
Ko, B., Shiu, E.S.W and Wei, L. (2010) Pricing maturity guarantee with dynamic withdrawal benefit. Insurance: Mathematics and Economics, 47 (2), 216223.Google Scholar
Kou, S.G. (2002) A jump-diffusion model for option pricing. Management Science, 48, 10861101.Google Scholar
Lee, H. (2003) Pricing equity-indexed annuities with path-dependent options. Insurance: Mathematics and Economics, (33) 677–690.Google Scholar
Lin, X.S. and Liu, X. (2007) Markov aging process and phase-type law of mortality. North American Actuarial Journal, 11 (4), 9292.Google Scholar
Merton, R.C. (1976) Option pricing when underlying stock returns are discontinuous. Journal of Financial Economics, 3 (1), 125144.Google Scholar
Mijatović, A. and Pistorius, M. (2011) Exotic derivatives in a dense class of stochastic volatility models with jumps. In Advanced Mathematical Methods for Finance, pp. 455508. Berlin Heidelberg: Springer.Google Scholar
Milevsky, M.A. and Posner, S.E. (2001) The titanic option: Valuation of the guaranteed minimum death benefit in a variable annuities and mutual funds. The Journal of Risk and Insurance, 68 (1), 9393.Google Scholar
Petrella, G. (2004) An extension of the Euler Laplace transform algorithm with applications in option pricing. Operations Research Letters, 32, 380389.Google Scholar
Ronn, E.I. and Verma, A.K. (1986) Pricing risk-adjusted deposit insurance: An option-based model. Journal of Finance, 41, 871895.Google Scholar
Schweizer, M. (2010) Minimal entropy martingale measure. In Encyclopedia of Quantitative Finance (ed. Cont, R.), pp. 11951200. Chichester, UK: Wiley.Google Scholar
Siu, C.C. (2012) Financial modeling with Markov additive processes. Ph.D. Thesis Tokyo Metropolitan University.Google Scholar
Siu, T.K. (2005) Fair valuation of participating policies with surrender options and regime switching. Insurance: Mathematics and Economics, 37 (3), 871871.Google Scholar
Ulm, E.R. (2006) The effect of the real option to transfer on the value of guaranteed minimum death benefits. The Journal of Risk and Insurance, 73 (1), 533552.Google Scholar
Ulm, E.R. (2008) Analytical solution for return of premium and rollup guaranteed minimum death benefit options under some simple mortality laws. ASTIN Bulletin, 38 (2), 543563.CrossRefGoogle Scholar
Yuen, F.L. and Yang, H. (2009) Option pricing in a jump-diffusion model with regime switching. ASTIN Bulletin, 39 (2), 515539.Google Scholar