Variational Form of Classical Portfolio Strategy and Expected Wealth for a Defined Contributory Pension Scheme

This paper examines the variational form of classical portfolio strategy and expected terminal wealth for a Pension Plan Member (PPM) in a Defined Contribution (DC) Pension scheme. The flows of contributions made by PPM are invested into a market that is characterized by a cash account and a stock. It was assumed that the growth rate of salary of PPM is a linear function of time. The present value of PPM’s future contribution process was obtained. The optimal portfolio processes with inter-temporal hedging terms that offset any shocks to the stochastic cash inflows were established. The expected value of PPM’s terminal wealth was obtained.


Introduction
This paper considers the variational form of classical portfolio strategy and expected terminal wealth for a DC pension scheme.It was assumed that the salary and risky asset are driven by a standard geometric Brownian motion.The growth rate of salary of PPM is assumed to be a linear function of time.A non-linear partial differential equation was derived and then, the optimal portfolio values for the PPM were determined using power utility function.In this paper, we focus on studying the optimal portfolio strategy based on a classical model: geometric Brownian motion model as in Equation (2).While in [1] and [2], they are using an optimal portfolio strategy based on the non-Gaussian models.They constructed optimal portfolios of variance swaps based on a variance Gamma correlated model.The portfolios of the variance swaps are optimized based on maximizing the distorted expectation given the index of acceptability.
In related literature, [3] examined the rationale, nature and financial consequences of two alternative approaches to portfolio regulations for the long term institutional investor sectors of life insurance and pension funds.[4] considered the deterministic life styling (the gradual switch from equities to bonds according to preset rules) which is a popular asset allocation strategy during the accumulation phase of a defined contribution pension plans which is designed to protect the pension funds from a catastrophic fall in the stock market just prior to retirement.They shown that this strategy, although easy to understand and implement can be highly suboptimal.[5] developed a model for analyzing the ex ante liquidity premium demanded by the holder of an illiquid annuity.The annuity is an insurance product that is similar to a pension savings account with both an accumulation and decumulation phase.They computed the yield needed to compensate for the utility welfare loss, which is induced by the inability to re-balance and maintain an optimal portfolio when holding an annuity.[6][7][8] considered the optimal design of the minimum guarantee in a defined contribution pension fund scheme.They studied the investment in the financial market by assuring that the pension fund optimizes its retribution which is a part of the surplus, which is the difference between the pension fund value and the guarantee.[9] studied optimal investment strategy for a defined contributory pension plan.They adopted dynamic optimization technique.[10] considered optimal portfolio strategies with minimum guarantee and inflation protection for a DC pension scheme.[11] studied the optimal portfolio and strategic lifecycle consumption process in a defined contributory pension plan.
The remainder of this paper is organized as follows.In Section 2, we present the financial market models, Section 3, presents the present value of the expected flow of

Problem Formulation
The Brownian motion is a 2-dimensional process, defined on a given probability space  are the volatilities for the stock and inflation respectively, referred to as the coefficients of the market and are progressively measurable with respect to the filtration .F We assume that the investor faces a market that is characterized by a risk-free asset (cash account) and risky asset, all of whom are tradeable.In this paper, we allow the stock price to be correlated to inflation.Also, we correlated the cash inflows to stock market risk.The dynamics of the underlying assets are given by ( 1) and (2) where, r is the nominal interest rate, is the price of the riskless asset at time , t is the stock price process at time , t Therefore, (2) can be rewritten as where, and .
It is assume that the market is complete; therefore there exists a unique market price of risk  satisfying The salary of the PPM is assume to follow the dynamics   We now define the following exponential process which we assume to be Martingale in : which will be useful in the next section.Let

 
X t be the wealth process and the portfolio process, that is the proportion of wealth invested in stock at time .Then, is the proportion wealth invested in the riskless asset at time .We now have the following definition: t Definition 1: the portfolio process is said to be selffinancing if the corresponding wealth process

The Expected Value of Future Contribution of a PPM
Definition 2: the present value of expected future contribution process is defined as where is the conditional expectation with respect to the Brownian filtration and is the stochastics discount factor which adjusts for nominal interest rate and market price of risks.
Theorem 1 tells us that the present value of expected future contribution process, then proportional to the instanttaneous contribution process (.).c Definition 3: a portfolio process is said to be admissible if the corresponding wealth process where, . a r Proof: taking differential of both sides of (8), we obtain the following: where, . The present value of PPM's future contributions.The expected today value of PPM's contributions is obtained as 49,890 Naira.From the Figure 1, observed that the expected future contribution is highly volatile.This is because there is high rate of inflation.This, to a great extent will reduce the value of PPM's benefits at retirement.

Valuation of PPM's Wealth Process
Finding the differential of both sides of ( 11) and substituting ( 5) and (10), we obtain

The Optimization Process and Portfolio Value of a PPM
In this section, we consider the optimal portfolio process for the IC.We define the general value function where is the path of given the portfolio strategy ne set of all admissible portfolio strategy that are F -progressively measurable, and let ve function in Then satisfies the HJB equation subject to: , , Finding the partial derivative of

 
, , H t V  with respect to the optimal control   t  and setting it to zero, we obtain Substituting ( 14) into (13), we obtain the HJB equation be the solution to the HJB Equ (15), then, g the partial derivatives above into (15), we Again, substituting the partial derivatives into (14), we obtain Therefore, the portfolio value in the riskless asset is obtain as , we found that the optimal portfolio in stock at retirement to be 1.92 and in cash account to be −0.92

Expected Wealth for a PPM
In other to determine the expected wealth of the PPM at ectation of (12) as follows: . time t, we find the mathematical exp  For simplicity, we set , 0 where, Integrating both sides of (19), we obtain Numerical Example 3: in this numerical exa ple, we illustrate the expected value of a PPM's wealth up to retirement.
In expected value of PPM's wealth is

Discussion
In Figure 1, we found that the expected present value of PPM's contributions is obtained as 49,890 Naira.We also observed that the expected future contribution is highly volatile.This is because there is high rate of inflation.In Figure 2, we found that the optimal portfolio value after 20 years to be 1.92.This implies that more funds should be borrowed from cash account and then, invests in stock market.In Figure 3, we found that the optimal portfolio value after 20 years to be -0.92.This implies that no fund should be kept in cash account at the op le nd th should remain in stock ma Figure 4 sh ected value of PPM's wealth up to 20 years and is obtained as 6,078,720 Naira.

Special Case c = 0
If we set we obtain the usual portfolio selection problem, p ed that In that case, we have 6, 078, 720 Naira.timal rket.vel a at all fund ows the exp

If we set
(24) shows that the expected final wealth of the can be expressed as a func the usual portfolio selection

Conclusion
This paper considered the variational form of classical portfolio strategy and expected terminal wealth for a Pension Plan Member (PPM) in a Defined Contribution (DC) Pension scheme.The present value of PPM's future contribution process was established and numerical ressults were given.The optimal portfolio processes with inter-tem poral hedging terms that offset any shocks to the stochastic cash inflows were obtained.The expected value of PPM's terminal wealth and numerical results were established. -

Definition 2 :
the value of PPM's wealth   V t at time is the sum of PPM's wealth t

Figure 2 .
Figure 2. Portfolio value in stock.It has an optimal portfolio value after 20 years to be 1.92.This implies that more funds should be borrowed from cash account and then, invests in stock market.

Figure 4 Figure 4 .
Figure 4. Expected value of wealth of a PPM.
tion of the expected value of problem (22). 