Data di Pubblicazione:
2004
Abstract:
In this paper we develop an open multiclass queuing network model to describe the behavior of short-lived TCP
connections sharing a common IP network. The queuing network model is paired with a simple model of the IP
network, and the two models are solved through an iterative procedure. The combined models need as inputs only the
primitive network parameters, and they produce estimates of the packet loss probability, the round trip time, the TCP
connection throughput, and of the average TCP connection completion time (that is, of the average time necessary to
transfer a file with given size over a TCP connection). We derive models for both TCP-Tahoe and TCP-NewReno. The
Tahoe model is presented in detail, while the NewReno model is presented describing differences with respect to Tahoe.
Results are shown for both models. The analytical performance predictions are validated against detailed simulation
experiments in realistic networking scenarios, proving that the proposed modeling approach is accurate.
connections sharing a common IP network. The queuing network model is paired with a simple model of the IP
network, and the two models are solved through an iterative procedure. The combined models need as inputs only the
primitive network parameters, and they produce estimates of the packet loss probability, the round trip time, the TCP
connection throughput, and of the average TCP connection completion time (that is, of the average time necessary to
transfer a file with given size over a TCP connection). We derive models for both TCP-Tahoe and TCP-NewReno. The
Tahoe model is presented in detail, while the NewReno model is presented describing differences with respect to Tahoe.
Results are shown for both models. The analytical performance predictions are validated against detailed simulation
experiments in realistic networking scenarios, proving that the proposed modeling approach is accurate.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Queuing models; TCP performance; Short-lived connections; Transfer latency; Completion time
Elenco autori:
AJMONE MARSAN, MARCO GIUSEPPE
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