Optimum futures hedge in the presence of clustered supply and demand shocks, stochastic basis, and firm's costs of hedging

Abstract

In a doubly stochastic jump‐diffusion economy with stochastic jump arrival intensity and proportional transaction costs, we develop a
five‐factor risk‐return asset pricing inequality to model optimum futures hedge in the presence of clustered supply and demand shocks,
stochastic basis, and firm's costs of hedging. Concave risk‐return tradeoff dictates a hedge ratio to be substantially less than the
traditional risk‐minimization one. The ratio now comprises a positive diffusion, a positive jump, and a negative hedging cost component. The
faster jumps arrive, and the more hedging costs, the more pronounced are the respective jump and hedging cost effects. Empirical validation confirms
that actual industry hedge ratios vary significantly across firm's costs of and efficiency in hedging and are significantly lower than what
risk‐minimization dictates. The model also can be used to compute a threshold production level for determining if a firm should hedge. ©
2003 Wiley Periodicals, Inc. Jrl Fut Mark 23:1209–1237, 2003