On a random variable associated with excursions in an M/M/\infty system
Queueing Systems: Theory and Applications
Asymptotic Expansions for the Congestion Period for the M/M/∞ Queue
Queueing Systems: Theory and Applications
QoS-aware bandwidth provisioning for IP network links
Computer Networks: The International Journal of Computer and Telecommunications Networking
Content availability and bundling in swarming systems
IEEE/ACM Transactions on Networking (TON)
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A c-congestion period of an m/m/~-queue is a period during which the number of customers in the system is continuously above level c. Interesting quantities related to a c-congestion period are, besides its duration D"c, the total area A"c above c, and the number of arrived customers N"c. In the literature Laplace transforms for these quantities have been derived, as well as explicit formulae for their means. Explicit expressions for higher moments and covariances (between D"c,N"c and A"c), however, have not been found so far. This paper presents recursive relations through which all moments and covariances can be obtained. Up to a starting condition, we explicitly solve these equations; for instance, we write ED"c^2 explicitly in terms of ED"0^2. We then find formulae for these starting conditions (which directly relate to the busy period in the m/m/~ queue). Finally, a c-intercongestion period is defined as the period during which the number of customers is continuously below level c. Also for this situation a recursive scheme allows us to explicitly compute higher moments and covariances. Additionally we present the Laplace transform of a so-called intercongestion triple of the three performance quantities. It is also shown that expressions for the quantities of a c-intercongestion period can be used in an approximation for the c-congestion period. This is especially useful as the expressions for the c-intercongestion period are numerically more stable than those for the c-congestion period.