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Faster Restart for TCP Friendly Rate Control (TFRC)

Faster Restart for TCP Friendly Rate Control (TFRC). draft-ietf-dccp-tfrc-faster-restart-06.txt E. Kohler, S. Floyd, and A. Sathiaseelan Nov 2008, DCCP Working Group. Faster Restart for TFRC. After an idle period of at least NFT (no feedback):

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Faster Restart for TCP Friendly Rate Control (TFRC)

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  1. Faster Restart for TCP Friendly Rate Control (TFRC) draft-ietf-dccp-tfrc-faster-restart-06.txt E. Kohler, S. Floyd, and A. Sathiaseelan Nov 2008, DCCP Working Group

  2. Faster Restart for TFRC • After an idle period of at least NFT (no feedback): • The allowed sending rate is not reduced below *twice* the initial sending rate; • Quadruple sending rate each RTT up to old rate (decayed over time);

  3. Issues • RFC3448 had inherent problems with bursty applications in idle and data-limited periods. • Faster Restart was hence proposed for idle periods • Showed very good performance improvements during idle periods. • Simultaneously, RFC3448 was reopened. • More for data-limited periods. • RFC5348 mitigated the data-limited problem. • Good result of the Faster Restart study.

  4. Application Issues • Faster Restart no effect for continuous bulk applications: • e.g. Streaming media. • Thought to be useful for conversational class: • VoIP • Videoconferencing • Any other applications? • VoIP traffic is more data-limited, than idle (in low congestion). • VoIP traffic model: Exponential distribution, mean burst = 0.352s, mean idle = 0.65s. • Sriram & Whitt, Globecomm 1985. • Simulations show Faster Restart offers slight improvements compared RFC5348 for these parameters.

  5. Application Issues (contd.) • Simulations for a range of burst, idle parameters. • e.g. (1.0,1.5), (3.0,3.5), (5,5.5) • Results showed Faster Restart improved performance. • Do they represent any appropriate applications? • So, is Faster Restart really useful? • Need to explore other applications to see benefits • e.g. models for videoconferencing, motion compensation required.

  6. Network Issues • Results examining path change from high to low capacity: • Worst case scenario – where all flows reached encoding rates, went idle, path changes and then restarted. • e.g. 100 Mbps, 100 ms link, eight 512 kbps flows, went idle for 5 seconds, during that time the link changed to 1 Mbps. Flows then restart randomly. Packet droprate at router measured for 5 seconds. • 36% packet droprates for RFC5348 and 38% packet droprates for Faster Restart!! • But, is this bad?

  7. Status • Extensive simulations have been performed. • No changes have been made to the draft. • More work needs to be done: • Better application models required.

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