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AUTONOMICS
2007
ACM
2007
ACM
End-to-end vs. hop-by-hop transport under intermittent connectivity
This paper revisits the fundamental trade-off between endto-end and hop-by-hop transport control. The end-to-end principle has been one of the building blocks of the Internet; but in real-world wireless scenarios, end-to-end connectivity is often intermittent, limiting the performance of end-to-end transport protocols. We use a stochastic model that captures both the availability ratio of links and the duration of link disruptions to represent intermittent connectivity. We compare the performance of end-to-end and hop-by-hop transport over an intermittently-connected path. End-toend, perhaps surprisingly, may perform better than hop-byhop transport under long disruption periods. We propose the spaced hop-by-hop policy which is found to dominate (in terms of delivery ratio) the end-to-end policy over the whole parameter range and the basic hop-by-hop policy over most of the relevant range.
Real-time TrafficAUTONOMICS 2007 | Communications | End-to-end Connectivity | End-to-end Transport Protocols | Hop-by-hop Transport |
| Added | 12 Aug 2010 |
| Updated | 12 Aug 2010 |
| Type | Conference |
| Year | 2007 |
| Where | AUTONOMICS |
| Authors | Simon Heimlicher, Merkourios Karaliopoulos, Hanoch Levy, Martin May |
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