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Surveys in Mathematics and Mathematical Sciences

Surveys in Mathematics and Mathematical Sciences
Volume 1, Issue 1, Pages 35 - 52 (February 2012)

A STOCHASTIC MODELING APPROACH TO MORTALITY TREND: A CASE STUDY Amir T. Payandeh Najafabadi and Besharat Hosseinpour Received October 26, 2011 References:
[1] E. Biffs, Affine processes for dynamic mortality and actuarial valuations, Insurance: Mathematics and Economics 37 (2005), 443-468. [2] P. J. Brockwell and R. A. Davis, Time Series: Theory and Methods, Springer, New York, 2006. [3] A. J. G. Cairns, D. Blake, K. Dowd, G. D. Coughlan, D. Epstein, A. Ong and I. Balevich, A quantitative comparison of stochastic mortality models using data from England and Wales and the United States, North American Actuarial Journal 13(1) (2009), 1-35. [4] A. J. G. Cairns, D. Blake and K. Dowd, A two-factor model for stochastic mortality with parameter uncertainty, Risk and Insurance 73 (2006), 687-718. [5] A. J. G. Cairns, D. Blake, K. Dowd, G. D. Coughlan, D. Epstein and M. Khalaf-Allah, Mortality density forecasts: an analysis of six stochastic mortality models, Insurance: Mathematics and Economics 48 (2011), 355-367. [6] K. Dowd, A. J. G. Cairns, D. Blake, G. D. Coughlan, D. Epstein and M. Khalaf-Allah, Evaluating the Goodness of Fit of Stochastic Mortality Models, Insurance: Mathematics and Economics, 47 (2010), 255-265. [7] A. J. G. Cairns, D. Blake and K. Dowd, Modelling and Management of Mortality Risk: A Review, Pensions Institute Discussion Paper, PI-0814, 2008c. [8] Continuous Mortality Investigation (CMI), Projecting future mortality: Towards a proposal for a stochastic methodology, Working paper 15, 2005. [9] Continuous Mortality Investigation (CMI), Stochastic projection methodologies: Further progress and P-Spline model features, example results and implications. Working paper 20, 2006. [10] Continuous Mortality Investigation (CMI), Stochastic projection methodologies: Lee-Carter model features, example results and implications, Working paper 25, 2007. [11] I. D. Currie, M. Durban and P. H. C. Eilers, Smoothing and forecasting mortality rates, Statistical Modeling 4 (2004), 279-298. [12] I. D. Currie, Smoothing and forecasting mortality rates with P-splines, Talk given at the Institute of Actuaries, 2006. Retrieved from http:www.ma.hw.ac.uk/ iain/research/talks.html. [13] M. Dahl, Stochastic mortality in life insurance: market reserves and mortality-linked insurance contracts, Insurance: Mathematics and Economics 35 (2004), 113-136. [14] M. Dahl and T. Møller, Valuation and Hedging of Life Insurance Liabilities with Systematic Mortality Risk, Proceedings of the 15th International AFIR Colloquium, Zurich, 2005. Retrieved from http://www.afir2005.ch. [15] M. Denuit, P. Devolder and A-C. Goderniaux, Securitization of longevity risk: pricing survival bonds with Wang transform in the Lee-Carter framework, Risk and Insurance 74 (2007), 87-113. [16] A. C. Harvey, Time Series Models, 2nd ed., The MIT Press, UK, 1993. [17] R. D. Lee and L. R. Carter, Modeling and forecasting U. S. mortality, American Statistical Association 87 (1992), 659-675. [18] M. Leppisaari, Managing Longevity Risk with Longevity Bonds. Independent Research Projects in Applied Mathematics, 2008. Retrieved from www.sal.tkk.fi/publications/pdf-files/elep08.pdf. [19] Y. Lin and S. H. Cox, Securitization of mortality risks in life annuities, Journal of Risk and Insurance 72 (2004), 227-252. [20] M. A. Milevsky and S. D. Promislow, Mortality derivatives and the option to annuities, Insurance: Mathematics and Economics 29 (2001), 299-318. [21] M. A. Milevsky, S. D. Promislow and V. R. Young, Killing the law of large numbers: mortality risk premiums and the Sharpe ratio, Risk and Insurance 73 (2006), 673-686. [22] R. Nochai and T. Nochai, ARIMA model for forecasting oil palm price, Proceeding of the 2nd IMT-GT Regional Conference on Mathematics, Statistics and Applications, Universiti Sains Malaysia, Penang, 2006. Retrieved from math.usm.my/research/OnlineProc/ST03.pdf. [23] A. E. Renshaw and S. Haberman, Lee-Carter mortality forecasting with age-specific enhancement, Insurance: Mathematics and Economics 33 (2003), 255‑272. [24] A. E. Renshaw and S. A. Haberman, Cohort-based extension to the Lee-Carter model for mortality reduction factors, Insurance: Mathematics and Economics 38 (2006), 556-570. [25] R. S. Tsay, Analysis of Financial Time Series, John Willy and Sons, New Jersey, 2010. [26] S. S. Wang, A class of distortion operations for pricing financial and insurance risks, Journal of Risk and Insurance 67 (2000), 15-36. [27] S. S. Wang, A universal framework for pricing financial and insurance risks, Astin Bulletin 32 (2002), 213-234. [28] S. S. Wang, Equilibrium pricing transforms: new results using Buhlmann’s 1980 economic model, Astin Bulletin 33 (2003), 57-73.

Keywords and phrases: mortality, time series models, stochastic models.

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