Visibility-Graph-Based Shortest-Path Geographic Routing in Sensor Networks

We study the problem of shortest-path geographic routing in a static sensor network. Existing algorithms often make routing decisions based on node information in local neighborhoods. However, it is shown by Kuhn et al. that such a design constraint results in a highly undesirable lower bound for ro...

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Hauptverfasser:	Tan, G., Bertier, M., Kermarrec, A.-M.
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Sprache:	eng
Schlagworte:	Algorithm design and analysis Communications Society Euclidean distance Network topology Peer to peer computing Resumes Routing protocols Scalability Shape Wireless networks
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creator	Tan, G. Bertier, M. Kermarrec, A.-M.
description	We study the problem of shortest-path geographic routing in a static sensor network. Existing algorithms often make routing decisions based on node information in local neighborhoods. However, it is shown by Kuhn et al. that such a design constraint results in a highly undesirable lower bound for routing performance: if a best route has length c, then in the worst case a route produced by any localized algorithm has length Omega(c 2 ), which can be arbitrarily worse than the optimal. We present VIGOR, a visibility-graph-based routing protocol that produces routes of length Theta(c). Our design is based on the construction of a much reduced visibility graph, which guides nodes to find near-optimal paths. The per-node protocol overheads in terms of state information and message transmission depend only on the complexity of the field's large topological features, rather than on the network size. Simulation results show that our protocol dramatically outperforms localized protocols such as GPSR and GOAFR+ in both average and worst cases, with reasonable extra overheads.
doi_str_mv	10.1109/INFCOM.2009.5062091
format	Conference Proceeding
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subjects	Algorithm design and analysis Communications Society Euclidean distance Network topology Peer to peer computing Resumes Routing protocols Scalability Shape Wireless networks
title	Visibility-Graph-Based Shortest-Path Geographic Routing in Sensor Networks
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