Opportunistic Communication in Extreme Wireless Sensor Networks
M Cattani - arXiv preprint arXiv:1705.05566, 2017 - arxiv.org
arXiv preprint arXiv:1705.05566, 2017•arxiv.org
Sensor networks can nowadays deliver 99.9% of their data with duty cycles below 1%. This
remarkable performance is, however, dependent on some important underlying
assumptions: low traffic rates, medium size densities and static nodes. In this thesis, we
investigate the performance of these same resource-constrained devices, but under
scenarios that present extreme conditions: high traffic rates, high densities and mobility: the
so-called Extreme Wireless Sensor Networks (EWSNs).
remarkable performance is, however, dependent on some important underlying
assumptions: low traffic rates, medium size densities and static nodes. In this thesis, we
investigate the performance of these same resource-constrained devices, but under
scenarios that present extreme conditions: high traffic rates, high densities and mobility: the
so-called Extreme Wireless Sensor Networks (EWSNs).
Sensor networks can nowadays deliver 99.9% of their data with duty cycles below 1%. This remarkable performance is, however, dependent on some important underlying assumptions: low traffic rates, medium size densities and static nodes. In this thesis, we investigate the performance of these same resource-constrained devices, but under scenarios that present extreme conditions: high traffic rates, high densities and mobility: the so-called Extreme Wireless Sensor Networks (EWSNs).
arxiv.org