One bit is enough: A framework for deploying explicit feedback congestion control protocols

In this paper we describe UNO, a framework for fine-grain explicit feedback congestion control protocols that uses only 1 or 2 existing ECN bits, thus making algorithms that use more than 2 bits for encoding the load factor and the RTT immediately deployable. UNO accomplishes this task by changing t...

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Hauptverfasser:	Vasic, N., Kuntimaddi, S., Kostic, D.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bandwidth Convergence Delay Encoding Feedback Internet Pressing Proposals Protocols Throughput
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creator	Vasic, N. Kuntimaddi, S. Kostic, D.
description	In this paper we describe UNO, a framework for fine-grain explicit feedback congestion control protocols that uses only 1 or 2 existing ECN bits, thus making algorithms that use more than 2 bits for encoding the load factor and the RTT immediately deployable. UNO accomplishes this task by changing the way load and RTT information is encoded in packets in a way that is similar to some existing schemes for encoding bottleneck link load. UNO leverages the values present in the IP identification field and trades-off a small amount of time (to send several packets) for space to emulate the existence of several extra bits within the IP header. The results from extensive ns2 simulations over various bandwidth and delay scenarios are encouraging. By using only one ECN bit we achieve substantially lower convergence times and better link utilization than the existing deployable protocols, with similar low queue size and negligible packet loss. With 2 ECN bits, we achieve very good fairness for flows with different RTTs, while keeping all the good characteristics of the 1-bit protocol and providing functionality that did not previously exist.
doi_str_mv	10.1109/COMSNETS.2009.4808893
format	Conference Proceeding
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subjects	Bandwidth Convergence Delay Encoding Feedback Internet Pressing Proposals Protocols Throughput
title	One bit is enough: A framework for deploying explicit feedback congestion control protocols
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