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Title:
Throughput-Optimal Routing in Unreliable Networks

Authors: Paul Bunn, Rafail Ostrovsky

We demonstrate the feasibility of throughput-efficient routing in a highly unreliable network. Modeling a network as a graph with vertices representing nodes and edges representing the links between them, we consider two forms of unreliability: unpredictable edge-failures, and deliberate deviation from protocol specifications by corrupt nodes. The first form of unpredictability represents networks with dynamic topology, whose links may be constantly going up and down; while the second form represents malicious insiders attempting to disrupt communication by deliberately disobeying routing rules, by e.g. introducing junk messages or deleting or altering messages. We present a robust routing protocol for end-to-end communication that is simultaneously resilient to both forms of unreliability, achieving provably optimal throughput performance. Our proof proceeds in three steps: 1) We use competitive-analysis to find a lower-bound on the optimal throughput-rate of a routing protocol in networks susceptible to only edge-failures (i.e. networks with no malicious nodes); 2) We prove a matching upper bound by presenting a routing protocol that achieves this throughput rate (again in networks with no malicious nodes); and 3) We modify the protocol to provide additional protection against malicious nodes, and prove the modified protocol performs (asymptotically) as well as the original.

ePrint: https://eprint.iacr.org/2010/231

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