Fitting the Ph-t/M-t/s/c Time-Dependent Departure Process for Use in Tandem Queueing Networks

Files

TR Number

Date

2013

Journal Title

Journal ISSN

Volume Title

Publisher

INFORMS

Abstract

This paper considers time-dependent Ph-t/M-t/s/c queueing nodes and small tandem networks of such nodes. We examine characteristics of the departure processes from a multiserver queueing node; in particular, we focus on solving for the first two time-dependent moments of the departure-count process. A finite set of partial moment differential equations is developed to numerically solve for the departure-count moments over specified intervals of time [t(i), t(i) + tau(i)). We also present a distribution fitting algorithm to match these key characteristics with a (Ph-t) over tilde process serving as the approximate departure process. A distribution fitting algorithm is presented for time-dependent point processes where a two-level balanced mixture of Erlang distribution is used to serve as the approximating process. We then use the (Ph-t) over tilde approximating departure process as the approximate composite arrival process to downstream node(s) in a network of tandem queues.

Description

Keywords

Queues, Queueing, Tandem queues, Algorithms, Phase-type distribution, Nonstationary processes, Queueing networks, Time dependent, Transient, Mixture of erlangs, Count process, Moment matching, Arrival processes, Varying demand, Service, Systems

Citation

Walid W. Nasr and Michael R. Taaffe. Fitting the Pht/Mt/s/c Time-Dependent Departure Process for Use in Tandem Queueing Networks. INFORMS Journal on Computing 2013 25:4, 758-773. doi: 10.1287/ijoc.1120.0538