R. Rahmatizadeh, S. Khan, A.P. Jayasumana, D. Turgut, and L. Bölöni

Circular update directional virtual coordinate routing protocol in sensor networks


Cite as:

R. Rahmatizadeh, S. Khan, A.P. Jayasumana, D. Turgut, and L. Bölöni. Circular update directional virtual coordinate routing protocol in sensor networks. In Proceedings of IEEE GLOBECOM'15, pp. 1–6, December 2015.

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Abstract:

In a wireless sensor network, virtual coordinates provide most of the advantages of geographic routing strategies without actually relying on the location of nodes. Using a mobile sink provides advantages such as distributing energy consumption throughout the network. However, nodes need to know the updated virtual coordinates of the mobile sink to route to it. In this paper, we propose Circular Update-Directional Virtual Coordinate Routing (CU-DVCR), an algorithm specialized in routing towards a mobile sink in virtual coordinates. Through a set of experimental studies we show that CU-DVCR consumes less energy compared to alternative algorithms while providing comparable performance.

BibTeX:

@inproceedings{Rahmatizadeh-2015-GLOBECOM,
   author = "R. Rahmatizadeh and S. Khan and A.P. Jayasumana and D. Turgut and L. B{\"o}l{\"o}ni",
   title = "Circular update directional virtual coordinate routing protocol in sensor networks",
   booktitle = "Proceedings of IEEE GLOBECOM'15",
   month = "December",
   year = "2015",
   pages = "1-6",
   abstract = {
   In a wireless sensor network, virtual coordinates provide most of the
   advantages of geographic routing strategies without actually relying
   on the location of nodes. Using a mobile sink provides advantages
   such as distributing energy consumption throughout the network.
   However, nodes need to know the updated virtual coordinates of the
   mobile sink to route to it. In this paper, we propose Circular
   Update-Directional Virtual Coordinate Routing (CU-DVCR), an algorithm
   specialized in routing towards a mobile sink in virtual coordinates.
   Through a set of experimental studies we show that CU-DVCR consumes
   less energy compared to alternative algorithms while providing
   comparable performance.
   },
}

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