RECURRENCE OF TWO-DIMENSIONAL QUEUEING PROCESSES, AND RANDOM WALK EXIT TIMES FROM THE QUADRANT

RECURRENCE OF TWO-DIMENSIONAL QUEUEING PROCESSES, AND RANDOM WALK EXIT TIMES FROM THE QUADRANT

Let X = (X-1, X-2) be a two-dimensional random variable and X(n), n is an element of N, a sequence of i.i.d. copies of X. The associated random walk is S(n) = X(1)+ ... + X(n). The corresponding absorbed-reflected walk W(n), n is an element of N, in the first quadrant is given by W(0) = x is an elem...

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Veröffentlicht in:The Annals of applied probability 2021-12, Vol.31 (6), p.2519-2537
Hauptverfasser: Peigne, Marc, Woess, Wolfgang
Format: Artikel
Sprache:eng
Schlagworte:
Mathematical functions
Mathematics
Physical Sciences
Quadrants
Queueing
Random variables
Random walk
Random walk theory
Science & Technology
Statistics & Probability
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Zusammenfassung:Let X = (X-1, X-2) be a two-dimensional random variable and X(n), n is an element of N, a sequence of i.i.d. copies of X. The associated random walk is S(n) = X(1)+ ... + X(n). The corresponding absorbed-reflected walk W(n), n is an element of N, in the first quadrant is given by W(0) = x is an element of R-+(2) and W(n) = max{0, W(n - 1) - X(n)}, where the maximum is taken coordinate-wise. This is often called the Lindley process and models the waiting times in a two-server queue. We characterize recurrence of this process, assuming suitable, rather mild moment conditions on X. It turns out that this is directly related with the tail asymptotics of the exit time of the random walk x + S(n) from the quadrant, so that the main part of this paper is devoted to an analysis of that exit time in relation with the drift vector, that is, the expectation of X.
ISSN:1050-5164
2168-8737
DOI:10.1214/20-AAP1654