End-to-end available bandwidth: Measurement methodology, dynamics, and relation with TCP throughput

End-to-end available bandwidth: Measurement methodology, dynamics, and relation with TCP throughput (2002)

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by Manish Jain , Constantinos Dovrolis

Venue:	In Proceedings of ACM SIGCOMM
Citations:	257 - 16 self

BibTeX

@INPROCEEDINGS{Jain02end-to-endavailable,
    author = {Manish Jain and Constantinos Dovrolis},
    title = {End-to-end available bandwidth: Measurement methodology, dynamics, and relation with TCP throughput},
    booktitle = {In Proceedings of ACM SIGCOMM},
    year = {2002}
}

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Abstract

The available bandwidth (avail-bw) in a network path is of major importance in congestion control, streaming applications, QoS verification, server selection, and overlay networks. We describe an end-to-end methodology, called Self-Loading Periodic Streams (SLoPS), for measuring avail-bw. The basic idea in SLoPS is that the one-way delays of a periodic packet stream show an increasing trend when the stream’s rate is higher than the avail-bw. We implemented SLoPS in a tool called pathload. The accuracy of the tool has been evaluated with both simulations and experiments over real-world Internet paths. Pathload is non-intrusive, meaning that it does not cause significant increases in the network utilization, delays, or losses. We used pathload to evaluate the variability (‘dynamics’) of the avail-bw in some paths that cross USA and Europe. The avail-bw becomes significantly more variable in heavily utilized paths, as well as in paths with limited capacity (probably due to a lower degree of statistical multiplexing). We finally examine the relation between avail-bw and TCP throughput. A persistent TCP connection can be used to roughly measure the avail-bw in a path, but TCP saturates the path, and increases significantly the path delays and jitter.

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