Authors: Promise A. Azor, Avievie Igodo, Esabai M. Ase

Abstract:

The paper merged the return of premium clause and voluntary contributions to investigate retirees’ investment plan in a defined contributory (DC) pension scheme with a portfolio comprising of a risk-free asset and a risky asset whose price process is described by geometric Brownian motion (GBM). The paper considers additional voluntary contributions paid by members, charge on balance by pension fund administrators and the mortality risk of members of the scheme during the accumulation period by introducing return of premium clause. To achieve this, the Weilbull mortality force function is used to establish the mortality rate of members during accumulation phase. Furthermore, an optimization problem from the Hamilton Jacobi Bellman (HJB) equation is obtained using dynamic programming approach. Also, the Legendre transformation method is used to transform the HJB equation which is a nonlinear partial differential equation to a linear partial differential equation and solves the resultant equation for the value function and the optimal distribution plan under logarithm utility function. Finally, numerical simulations of the impact of some important parameters on the optimal distribution plan were obtained and it was observed that the optimal distribution plan is inversely proportional to the initial fund size, predetermined interest rate, additional voluntary contributions, charge on balance and instantaneous volatility.

Keywords: Legendre transform, logarithm utility, optimal distribution plan, return clause of premium, charge on balance, Weibull mortality function.

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References:

[1] R. Abade, Pension Reforms Act 2004: www.Newage-online.com (2004).
[2] E. E. Akpanibah and O. Okwigbedi. Optimal Portfolio Selection in a DC Pension with Multiple Contributors and the Impact of Stochastic Additional Voluntary Contribution on the Optimal Investment Strategy. International journal of mathematical and computational sciences, 12(1) (2018), 14-19.
[3] X. Xiaoping, Stochastic Optimal Investment under Inflammatory Market with Minimum Guarantee for DC Pension Plans, Journal of Mathematics, 7(3) (2015).
[4] K.N. CNjoku., B. O. Osu., E. E. Akpanibah, R. N. Ujumadu. Effect of Extra Contribution on Stochastic Optimal Investment Strategies for DC Pension with Stochastic Salary under the Affine Interest Rate Model. Journal of Mathematical Finance, 7, (2017) 821-833.
[5] B.O. Osu, E. E. Akpanibah, K.N.C Njoku, On the Effect of Stochastic Extra Contribution on Optimal Investment Strategies for Stochastic Salary under the Affine Interest Rate Model in a DC pension Fund. General Letters in Mathematic, Vol. 2, No. 3, 2017, 138-149
[6] J. Xiao, Z. Hong, C. Qin, The constant elasticity of variance(CEV) model and the Legendre transform-dual solution for annuity contracts, Insurance, 40(2) (2007), 302–31
[7] A. J. G. Cairns, D. Blake & K. Dowd, “Stochastic lifestyling: optimal dynamic asset allocation for defined contribution pension plans”, Journal of Economic Dynamics & Control 30 (2006) 843.
[8] Chang, S.C., Tzeng, L.Y., Miao, J.C.Y., 2003. Pension funding incorporating downside risks. Insurance: Mathematics and Economics 32, 217-228.
[9] Deelstra, G., Grasselli, M., Koehl, P.-F., 2003. Optimal investment strategies in the presence of a minimum guarantee. Insurance, Mathematics and Economics 33, 189-207.
[10] Xu, J., Kannan, D., Zhang, B., 2007. Optimal dynamic control for the defined benefit pension plans with stochastic benefit outgo. Stochastic Analysis and Applications 25, 201-236.
[11] B. O. Osu., C. U. Okonkwo, P. U. Uzoma, E. E. Akpanibah. Wavelent analysis of the international markets: a look at the next eleven (N11), Scientific African 7 (2020). 1-16.
[12] Delong, L., Gerrard, R., Haberman, S., 2008. Mean-variance optimization problems for an accumulation phase in a defined plan. Insurance: Mathematics and Economics 42, 107-118.
[13] Le Cortois, O., Menoncin, F., 2015. Portfolio optimisation with jumps: Illustration with a pension accumulation scheme. Journal of Banking and Finance 60, 127-137.
[14] B.O. Osu, I.U Amadi and P.A Azor, Analytical Solution of Time-Varying Investment Returns with Random Parameters 21(2), 5-11 (2022)
[15] Gao J. (2009). Optimal portfolios for DC pension plan under a CEV model. Insurance Mathematics and Economics 44(3): 479-490
[16] Xiao, J., Hong, Z. and Qin, C. (2007) The Constant Elasticity of Variance (CEV) Model and the Legendre Transform-Dual Solution for Annuity Contracts. Insurance, 40, 302-310.
[17] Sheng, D. and Rong, X. Optimal time consistent investment strategy for a DC pension with the return of premiums clauses and annuity contracts, Hindawi Publishing Corporation vol2014 http://dx.doi.org/10.1155/2014/862694. 1-13, (2014).
[18] He L. and Liang. Z. The optimal investment strategy for the DC plan with the return of premiums clauses in a mean-variance framework, Insurance, 53, 643-649, (2013).
[19] Li, D. Rong, X. Zhao, H. and Yi, B. Equilibrium investment strategy for DC pension plan with default risk and return of premiums clauses under CEV model, Insurance:72, 6-20, (2017).
[20] Wang, Y. Fan, S. Chang, H., DC Pension Plan with the Return of Premium Clauses under Inflation Risk and Volatility Risk, J. Sys. Sci. & Math. Scis., 38(4), 423-437, (2018).
[21] Akpanibah, E. E., Osu, B. O. Oruh, B. I. and Obi, C. N. (2019). Strategic optimal portfolio management for a DC pension scheme with return of premium clauses. Transaction of the Nigerian association of mathematical physics, 8(1): 121-130.
[22] Lai C., Liu, S. and Wu, Y. (2021) Optimal portfolio selection for a defined contribution plan under two administrative fees and return of premium clauses. Journal of Computational and Applied Mathematics 398, 1-20.
[23] K.N. C Njoku and E. E. Akpanibah, Modelling and optimization of portfolio in a dc scheme with return of contributions and tax using Weibull force function. Asian Journal of Probability and Statistics 16(3): 1-12, 2022.
[24] Akpanibah E. E. and Osu B. O. Optimal Portfolio Selection for a Defined Contribution Pension Fund with Return Clauses of Premium with Predetermined Interest Rate under Mean variance Utility. Asian Journal of Mathematical Sciences.2(2), 19 –29, (2018).
[25] Akpanibah, E. E., Osu, B. O. and Ihedioha, S. A. On the optimal asset allocation strategy for a defined contribution pension system with refund clause of premium with predetermined interest under Heston’s volatility model. J. Nonlinear Sci. A ppl. 13(1):53–64, (2020).
[26] L. Chávez-Bedoya, Determining equivalent charges on flow and balance in individual account pension systems, J. Econ. Finance Adm. Sci. 21 (40) (2016) 2–7.
[27] M. Jonsson and R. Sircar, “Optimal investment problems and volatility homogenization approximations”, Modern Methods in Scientific Computing and Applications 75 (2002) 255.
[28] J. Xiao, Z. Hong, C. Qin, The constant elasticity of variance (CEV) model and the Legendre transform-dual solution for annuity contracts, Insurance, 40(2) (2007), 302–31
[29] X. Xiao, K, Yonggui Kao. (2020). The optimal investment strategy of a DC pension plan under deposit loan spread and the O-U process. Preprint submitted to Elsevier.
[30] D. Li, X. Rong, H. Zhao, (2013). Optimal investment problem with taxes, dividends and transaction costs under the constant elasticity of variance model. Transaction on Mathematics, 12(3), 243-255.
[31] S. A. Ihedioha, N. T. Danat, A. Buba. (2020). Investor’s Optimal Strategy with and Without Transaction Cost Under Ornstein-Uhlenbeck and Constant Elasticity of Variance (CEV) Models via Exponential Utility Maximization. Pure and Applied Mathematics Journal, 9(3): 55-63.