Selling a stock at the ultimate maximum

Abstract

Assuming that the stock price Z=(Zt)0≤ t≤ T follows a geometric Brownian motion with drift μ∈R and volatility σ>0, and letting Mt=0≤ s≤ tZs for t∈[0,T], we consider the optimal prediction problems \[V1=∈f0≤τ≤ TE(MTZτ) V2=0≤τ≤ TE(ZτMT),\] where the infimum and supremum are taken over all stopping times τ of Z. We show that the following strategy is optimal in the first problem: if μ≤0 stop immediately; if μ∈ (0,σ2) stop as soon as Mt/Zt hits a specified function of time; and if μ≥σ2 wait until the final time T. By contrast we show that the following strategy is optimal in the second problem: if μ≤σ2/2 stop immediately, and if μ>σ2/2 wait until the final time T. Both solutions support and reinforce the widely held financial view that ``one should sell bad stocks and keep good ones.'' The method of proof makes use of parabolic free-boundary problems and local time--space calculus techniques. The resulting inequalities are unusual and interesting in their own right as they involve the future and as such have a predictive element.