2016
DOI: 10.1080/17442508.2016.1191493
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On critical cases in limit theory for stationary increments Lévy driven moving averages

Abstract: In this paper we present some limit theorems for power variation of stationary increments Lévy driven moving averages in the setting of critical regimes. In [5] the authors derived first and second order asymptotic results for k-th order increments of stationary increments Lévy driven moving averages. The limit theory heavily depends on the interplay between the given order of the increments, the considered power, the Blumenthal-Getoor index of the driving pure jump Lévy process L and the behaviour of the kern… Show more

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Cited by 11 publications
(8 citation statements)
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“…Intuitively speaking, Assumption (A) says that g (k) may have a singularity at 0 when α is small, but it is smooth outside of 0. The theorem below has been proved in [6,5]. We recall that a sequence of R d -valued random variables (Y n ) n≥1 is said to converge stably in law to a random variable Y , defined on an extension of the original probability space (Ω, F , P), whenever the joint convergence in distribution (Y n , Z) d − → (Y, Z) holds for any F -measurable Z; in this case we use the notation Y n L−s − −− → Y .…”
Section: Assumption (A-log)mentioning
confidence: 99%
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“…Intuitively speaking, Assumption (A) says that g (k) may have a singularity at 0 when α is small, but it is smooth outside of 0. The theorem below has been proved in [6,5]. We recall that a sequence of R d -valued random variables (Y n ) n≥1 is said to converge stably in law to a random variable Y , defined on an extension of the original probability space (Ω, F , P), whenever the joint convergence in distribution (Y n , Z) d − → (Y, Z) holds for any F -measurable Z; in this case we use the notation Y n L−s − −− → Y .…”
Section: Assumption (A-log)mentioning
confidence: 99%
“…using the assumption that p > β. We consider only (3.19) in the case of Theorem 2.2(i) as (ii) is very similar, see [5]. In the case of (i) then b 1/p n = n α+1/p .…”
Section: Proof Of Theorem 22 In the General Casementioning
confidence: 99%
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