English

Weighted Dyck paths for nonstationary queues

Probability 2020-02-11 v1 Combinatorics

Abstract

We consider a model for a queue in which only a fixed number NN of customers can join. Each customer joins the queue independently at an exponentially distributed time. Assuming further that the service times are independent and follow an exponential distribution, this system can be described as a two-dimensional Markov process on a finite triangular region S\mathfrak S of the square lattice. We interpret the resulting random walk on S\mathfrak S as a Dyck path that is weighted according to some state-dependent transition probabilities that are constant along one axis, but are rather general otherwise. We untangle the resulting intricate combinatorial structure by introducing appropriate generating functions that exploit the recursive structure of the model. This allows us to derive a fully explicit expression for the probability density function of the number of customers served in any busy period (equivalently, of the length of any excursion of the Dyck path above the diagonal) as a weighted sum with alternating sign over a certain subclass of Dyck paths, whose study is of independent interest.

Keywords

Cite

@article{arxiv.2002.03424,
  title  = {Weighted Dyck paths for nonstationary queues},
  author = {Gianmarco Bet and Jori Selen and Alessandro Zocca},
  journal= {arXiv preprint arXiv:2002.03424},
  year   = {2020}
}

Comments

14 pages, 3 figures

R2 v1 2026-06-23T13:35:51.481Z