On the Convergence Rate of the Quasi- to Stationary Distribution for the Shiryaev-Roberts Diffusion

Abstract

For the classical Shiryaev--Roberts martingale diffusion considered on the interval [0,A], where A>0 is a given absorbing boundary, it is shown that the rate of convergence of the diffusion's quasi-stationary cumulative distribution function (cdf), QA(x), to its stationary cdf, H(x), as A+∞, is no worse than O((A)/A), uniformly in x0. The result is established explicitly, by constructing new tight lower- and upper-bounds for QA(x) using certain latest monotonicity properties of the modified Bessel K function involved in the exact closed-form formula for QA(x) recently obtained by Polunchenko (2017).