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Article: Spatial throughput of mobile Ad Hoc networks powered by energy harvesting

TitleSpatial throughput of mobile Ad Hoc networks powered by energy harvesting
Authors
Issue Date2013
Citation
IEEE Transactions on Information Theory, 2013, v. 59 n. 11, p. 7597-7612 How to Cite?
AbstractDesigning mobiles to harvest ambient energy such as kinetic activities or electromagnetic radiation will enable wireless networks to be self-sustaining. In this paper, the spatial throughput of a mobile ad hoc network powered by energy harvesting is analyzed using a stochastic-geometry model. In this model, transmitters are distributed as a Poisson point process and energy arrives at each transmitter randomly with a uniform average rate called the energy arrival rate. Upon harvesting sufficient energy, each transmitter transmits with fixed power to an intended receiver under an outage-probability constraint for a target signal-to-interference-and-noise ratio. It is assumed that transmitters store energy in batteries with infinite capacity. By applying the random-walk theory, the probability that a transmitter transmits, called the transmission probability, is proved to be equal to the smaller of one and the ratio between the energy-arrival rate and transmission power. This result and tools from stochastic geometry are applied to maximize the network throughput for a given energy-arrival rate by optimizing transmission power. The maximum network throughput is shown to be proportional to the optimal transmission probability, which is equal to one if the transmitter density is below a derived function of the energy-arrival rate or otherwise is smaller than one and solves a given polynomial equation. Last, the limits of the maximum network throughput are obtained for the extreme cases of high energy-arrival rates and sparse/dense networks. © 1963-2012 IEEE.
Persistent Identifierhttp://hdl.handle.net/10722/194445
ISSN
2015 Impact Factor: 1.737
2015 SCImago Journal Rankings: 1.433
ISI Accession Number ID

 

DC FieldValueLanguage
dc.contributor.authorHuang, K-
dc.date.accessioned2014-01-30T03:32:36Z-
dc.date.available2014-01-30T03:32:36Z-
dc.date.issued2013-
dc.identifier.citationIEEE Transactions on Information Theory, 2013, v. 59 n. 11, p. 7597-7612-
dc.identifier.issn0018-9448-
dc.identifier.urihttp://hdl.handle.net/10722/194445-
dc.description.abstractDesigning mobiles to harvest ambient energy such as kinetic activities or electromagnetic radiation will enable wireless networks to be self-sustaining. In this paper, the spatial throughput of a mobile ad hoc network powered by energy harvesting is analyzed using a stochastic-geometry model. In this model, transmitters are distributed as a Poisson point process and energy arrives at each transmitter randomly with a uniform average rate called the energy arrival rate. Upon harvesting sufficient energy, each transmitter transmits with fixed power to an intended receiver under an outage-probability constraint for a target signal-to-interference-and-noise ratio. It is assumed that transmitters store energy in batteries with infinite capacity. By applying the random-walk theory, the probability that a transmitter transmits, called the transmission probability, is proved to be equal to the smaller of one and the ratio between the energy-arrival rate and transmission power. This result and tools from stochastic geometry are applied to maximize the network throughput for a given energy-arrival rate by optimizing transmission power. The maximum network throughput is shown to be proportional to the optimal transmission probability, which is equal to one if the transmitter density is below a derived function of the energy-arrival rate or otherwise is smaller than one and solves a given polynomial equation. Last, the limits of the maximum network throughput are obtained for the extreme cases of high energy-arrival rates and sparse/dense networks. © 1963-2012 IEEE.-
dc.languageeng-
dc.relation.ispartofIEEE Transactions on Information Theory-
dc.titleSpatial throughput of mobile Ad Hoc networks powered by energy harvesting-
dc.typeArticle-
dc.description.naturelink_to_subscribed_fulltext-
dc.identifier.doi10.1109/TIT.2013.2276811-
dc.identifier.scopuseid_2-s2.0-84886683800-
dc.identifier.volume59-
dc.identifier.issue11-
dc.identifier.spage7597-
dc.identifier.epage7612-
dc.identifier.isiWOS:000325981100039-

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