35 Pages Posted: 8 May 2006
We provide a computational study of the problem of optimally allocating wealth among multiple stocks and a bank account, to maximize the infinite horizon discounted utility of consumption. We consider the situation where the transfer of wealth from one asset to another involves transaction costs that are proportional to the amount of wealth transferred. Our model allows for correlation between the price processes, which in turn gives rise to interesting hedging strategies. This results in a stochastic control problem with both drift-rate and singular controls, which can be recast as a free boundary problem in partial differential equations. Adapting the finite element method and using an iterative procedure that converts the free boundary problem into a sequence of fixed boundary problems, we provide an efficient numerical method for solving this problem. We present computational results that describe the impact of volatility, risk aversion of the investor, level of transaction costs, and correlation among the risky assets on the structure of the optimal policy. Finally we suggest and quantify some heuristic approximations.
Suggested Citation: Suggested Citation
Muthuraman, Kumar and Kumar, Sunil, Multidimensional Portfolio Optimization with Proportional Transaction Costs. Mathematical Finance, Vol. 16, No. 2, pp. 301-335, April 2006. Available at SSRN: https://ssrn.com/abstract=889975 or http://dx.doi.org/10.1111/j.1467-9965.2006.00273.x
By Hayne Leland
This is a Wiley-Blackwell Publishing paper. Wiley-Blackwell Publishing charges $38.00 .
File name: mafi.
If you wish to purchase the right to make copies of this paper for distribution to others, please select the quantity.