We derive a complete characterization (marginal distribution, autocovariance) of the service time process in a saturated IEEE 802.11 wireless LAN, both from the point of view of a single station and of the system as a whole. Our service time distribution model is then exploited to highlight the burstiness of service times and its dependence on the maximum value of the IEEE 802.11 contention window. We discuss a trade-off between throughput efficiency and service time variance, showing that a minor throughput loss can bring about a major benefit in service time smoothness, at least for practical values of the number of simultaneously competing stations (e.g.\ less than 15).
An analytical approach to characterize the service process and the tradeoff between throughput and service time burstiness in IEEE 802.11 DCF / Baiocchi, Andrea; Todini, Alfredo; Vacirca, F.. - In: JOURNAL OF INTERNET ENGINEERING. - ISSN 1791-177X. - 2:(2008), pp. 157-166.
An analytical approach to characterize the service process and the tradeoff between throughput and service time burstiness in IEEE 802.11 DCF
BAIOCCHI, Andrea;TODINI, Alfredo;
2008
Abstract
We derive a complete characterization (marginal distribution, autocovariance) of the service time process in a saturated IEEE 802.11 wireless LAN, both from the point of view of a single station and of the system as a whole. Our service time distribution model is then exploited to highlight the burstiness of service times and its dependence on the maximum value of the IEEE 802.11 contention window. We discuss a trade-off between throughput efficiency and service time variance, showing that a minor throughput loss can bring about a major benefit in service time smoothness, at least for practical values of the number of simultaneously competing stations (e.g.\ less than 15).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
