Component engineering for adaptive ad-hoc systems
Proceedings of the 2008 international workshop on Software engineering for adaptive and self-managing systems
Nysiad: practical protocol transformation to tolerate Byzantine failures
NSDI'08 Proceedings of the 5th USENIX Symposium on Networked Systems Design and Implementation
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In this paper, we briefly present a novel routing algorithm, scalable source routing (SSR), which is capable of memory and message efficient routing in networks with 'random topology'. This algorithm enables sensor networks to use recent peer to-peer mechanisms from the field of overlay networks, like e.g. distributed hash tables and indirection infrastructures. Unlike other proposals along that direction, SSR integrates all necessary routing tasks into one simple, highly efficient routing protocol. Simulations demonstrate that in a small-world network with more than 100 000 nodes, SSR requires each node to only store routing data for 255 other nodes to establish routes between arbitrary pairs of nodes. These routes are on average only about 20-30% longer than the globally optimal path between these nodes.