Chung-type laws of the iterated logarithm for m-fold weighted integrated fractional processes

Abstract

Let \BH(t);t 0\ be a fractional Brownian motion of order H∈ (0,1), and Jm,α(BH) be the m-fold weighted integrals of BH defined as Jm,α(BH)(t) =∫0tsm-αm∫0sm·s s2-α2∫0s2s1-α1BH(s1)d s1\; ds2·s d sm, where α1+·s+αi<H+i, i=1,…,m, α=αm=(α1,…,αm). We show that align* T ∞ ( T)H+mTH+m-α0 t T| Jm,α(BH)(t)tα-α1-·s-αm| = aH( κH+m1-α/(H+m))H+m\;\; a.s. align* for all α<H+m, and align* T ∞ & T T 1 t T|∫1t Jm-1, αm-1(BH)(s)sH+m-α1-·s-αm-1ds| &= π2β(2H,1-H)Πi=1m-1(H+i-α1-·s-αi)\;\; a.s., align* where aH is an explicit constant with a12=1, κλ is a constant which depends only on λ, and β(a,b) is the beta function.In particular, the exact value of a Chung-type law of the iterated logarithm established by Duker, Li and Linde (2000) is found, and as an application, the Chung-type law of the iterated logarithm for the randomized play-the-winner rule is established. The small ball probabilities of \(Jm, α(BH)\) are established to show the liminf behaviors. Similar Chung-type laws of the iterated logarithm and small ball probabilities for a Riemann-Liouville fractional process are also established.