English

The correlation function of a queue with Levy and Markov additive input

Probability 2019-06-10 v1

Abstract

Let (Qt)(Q_t) be a stationary workload process, and r(t)r(t) the correlation coefficient of Q0Q_0 and QtQ_t. In a series of previous papers (i) the transform of r()r(\cdot) has been derived for the case that the driving process is spectrally-positive (sp) or spectrally-negative (sn) Levy, (ii) it has been shown that for sp-Levy and sn-Levy input r()r(\cdot) is positive, decreasing, and convex, (iii) in case the driving Levy process is light-tailed (a condition that is automatically fulfilled in the sn case), the decay of the decay rate agrees with that of the tail of the busy period distribution. In the present paper we first prove the conjecture that property (ii) carries over to spectrally two-sided Levy processes; we do so for the case the Levy process is reflected at 0, and the case it is reflected at 0 and K>0K > 0. Then we focus on queues fed by Markov additive processes (maps). We start by the establishing the counterpart of (i) for sp- and sn-maps. Then we refute property (ii) for maps: we construct examples in which the correlation coefficient can be (locally) negative, decreasing, and concave. Finally, in relation to (iii), we point out how to identify the decay rate of r()r(\cdot) in the light-tailed map case, thus showing that the tail behavior of r()r(\cdot) does not necessarily match that of the busy-period tail; singularities related to the transition rate matrix of the background Markov chain turn out to play a crucial role here.

Keywords

Cite

@article{arxiv.1906.02766,
  title  = {The correlation function of a queue with Levy and Markov additive input},
  author = {Wouter Berkelmans and Agata Cichocka and Michel Mandjes},
  journal= {arXiv preprint arXiv:1906.02766},
  year   = {2019}
}

Comments

20 pages

R2 v1 2026-06-23T09:46:01.329Z