Abstract
Assuming that the wealth process Xu is generated self-financially from the given initial wealth by holding its fraction u in a risky stock (whose price follows a geometric Brownian motion with drift μ∈ R and volatility σ> 0) and its remaining fraction 1 - u in a riskless bond (whose price compounds exponentially with interest rate r∈ R), and letting Pt,x denote a probability measure under which Xu takes value x at time t, we study the dynamic version of the nonlinear mean-variance optimal control problem [Equation not available: see fulltext.]where t runs from 0 to the given terminal time T> 0 , the supremum is taken over admissible controls u, and c> 0 is a given constant. By employing the method of Lagrange multipliers we show that the nonlinear problem can be reduced to a family of linear problems. Solving the latter using a classic Hamilton-Jacobi-Bellman approach we find that the optimal dynamic control is given by (Formula presented.)where δ= (μ-r)/σ. The dynamic formulation of the problem and the method of solution are applied to the constrained problems of maximising/minimising the mean/variance subject to the upper/lower bound on the variance/mean from which the nonlinear problem above is obtained by optimising the Lagrangian itself.
| Originalsprog | Engelsk |
|---|---|
| Tidsskrift | Mathematics and Financial Economics |
| Vol/bind | 11 |
| Udgave nummer | 2 |
| Sider (fra-til) | 137–160 |
| ISSN | 1862-9679 |
| DOI | |
| Status | Udgivet - 1 mar. 2017 |