The Simple Yield Curve Models

Abstract

With Pt the price in current dollars of a dollar delivered t time units from now, we assume that P is a decreasing function defined for t ∈ R+ with P0 = 1. The negative logarithmic derivative, - Pt/Pt defines the yield curve function Yt. An n parameter linear yield curve model selects as allowable yield curves Yt(r) = Σi=1n ri Yit with the functions Yi fixed and with r varying over an open subset of Rn on which Yt(r) 0 for all t ∈ R+. For example, the flat yield curve model with Pt(r) = e-rt is a one parameter linear model with Y1t(r) = r > 0. We impose two natural economic requirements on the model: (SPA) static prices allowed, i.e. it is always possible that as time moves forward, relative prices do not change, and (NLA) no local arbitrage, i.e. there does not exist a self-financing bundle of futures such that the zero present value is a local minimum with respect to small changes in the space of admissible yield curves. In that case the model always contains one of four simple models. If we impose the additional requirement (LRE) long rates exist, i.e. for every r Limt ∞ Yt(r) exists as a finite limit, then the number of simple models is reduced to two.