Topology Control Algorithms: a qualitative study during the sensor networks life

The goal of the self-organization is to structure the wireless sensor networks (WSN) using a connected logical topology (backbone) or a non connected one (clusters) in order to introduce stability and robustness. More, networking protocols based on such virtual structures should lead to better perfo...

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Hauptverfasser:	Heurtefeux, K., Valois, F.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Clustering algorithms Delay Energy consumption Network topology Performance evaluation Protocols Robust stability Robustness Spine Wireless sensor networks
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creator	Heurtefeux, K. Valois, F.
description	The goal of the self-organization is to structure the wireless sensor networks (WSN) using a connected logical topology (backbone) or a non connected one (clusters) in order to introduce stability and robustness. More, networking protocols based on such virtual structures should lead to better performances than the classical flat approach. A lot of studies deal with performance evaluations of virtual topologies in terms of energy consumption, cardinality, etc. But the network is mainly assumed fully deployed. In our point of view, a more accurate analysis should be done in order to characterize self-organization strategies during the different steps of the WSN life. We propose to study the robustness, the latency and the cardinality of the main self-organization strategies: i) dominant-based strategies which select a subset of nodes as dominants, ii) link-pruning strategies which select all the nodes and a subset of links. We study the evolution of these schemes during the chaotic deployment of the network (birth phase), the working life and the death of nodes.
doi_str_mv	10.1109/MOBHOC.2007.4428705
format	Conference Proceeding
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subjects	Clustering algorithms Delay Energy consumption Network topology Performance evaluation Protocols Robust stability Robustness Spine Wireless sensor networks
title	Topology Control Algorithms: a qualitative study during the sensor networks life
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