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

Routing towards a mobile sink using virtual coordinates in a wireless sensor network


Cite as:

R. Rahmatizadeh, S. Khan, A.P. Jayasumana, D. Turgut, and L. Bölöni. Routing towards a mobile sink using virtual coordinates in a wireless sensor network. In Proceedings of IEEE ICC'14, pp. 12–17, June 2014.

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Abstract:

Geographical routing can provide significant advantages in wireless sensor networks. However in many sensor networks, it is difficult or costly to find the exact location of the nodes. The virtual coordinate techniques allow a network to acquire a coordinate system without relying on geographical location. In this paper, we describe MS-DVCR, an extension of a state-of-the-art virtual coordinate routing protocol (DVCR) with the ability to route towards a mobile sink. We describe the design principles and implementation of the proposed protocol and through an experimental study, we show that it matches the performance of a simple extension of DVCR for mobile sinks while providing a significantly lower energy consumption.

BibTeX:

@inproceedings{Rahmatizadeh-2014-ICC,
   author = "R. Rahmatizadeh and S. Khan and A.P. Jayasumana and D. Turgut and L. B{\"o}l{\"o}ni",
   title = "Routing towards a mobile sink using virtual coordinates in a wireless sensor network",
   booktitle = "Proceedings of IEEE ICC'14",
   month = "June",
   pages = "12-17",
   year = "2014",
   abstract = {
    Geographical routing can provide significant advantages in wireless
    sensor networks. However in many sensor networks, it is difficult or
    costly to find the exact location of the nodes. The virtual
    coordinate techniques allow a network to acquire a coordinate system
    without relying on geographical location. In this paper, we describe
    MS-DVCR, an extension of a state-of-the-art virtual coordinate
    routing protocol (DVCR) with the ability to route towards a mobile
    sink. We describe the design principles and implementation of the
    proposed protocol and through an experimental study, we show that it
    matches the performance of a simple extension of DVCR for mobile
    sinks while providing a significantly lower energy consumption.
   },
}

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