Fractional Cox--Ingersoll--Ross process with non-zero <<mean>>

Abstract

In this paper we define the fractional Cox-Ingersoll-Ross process as Xt:=Yt21\t<∈f\s>0:Ys=0\\, where the process Y=\Yt,t0\ satisfies the SDE of the form dYt=12(kYt-aYt)dt+σ2dBtH, \BHt,t0\ is a fractional Brownian motion with an arbitrary Hurst parameter H∈(0,1). We prove that Xt satisfies the stochastic differential equation of the form dXt=(k-aXt)dt+σXt dBtH, where the integral with respect to fractional Brownian motion is considered as the pathwise Stratonovich integral. We also show that for k>0, H>1/2 the process is strictly positive and never hits zero, so that actually Xt=Yt2. Finally, we prove that in the case of H<1/2 the probability of not hitting zero on any fixed finite interval by the fractional Cox-Ingersoll-Ross process tends to 1 as k→∞.