@inproceedings{afsana_outage_2015,
	title = {Outage capacity analysis of cluster-based forwarding scheme for {Body} {Area} {Network} using nano-electromagnetic communication},
	doi = {10.1109/EICT.2015.7391981},
	abstract = {The emergence of nano-electromagnetic communication becomes appealing for potential applications in nano-scale Body Area Network. In this work a new energy aware communication model for nano-electromagnetic communication in Terahertz Band is developed based on clustering scheme for the performance improvement of BAN. The proposed conceptual network model is used to determine channel capacity. A closed-form expression for outage probability is also derived. The approach is extended to determine outage capacity for maintaining a constant rate with a specified outage probability. Simulation shows that in term of capacity, proposed scheme outperforms the random forwarding scheme.},
	booktitle = {2015 2nd {International} {Conference} on {Electrical} {Information} and {Communication} {Technologies} ({EICT})},
	author = {Afsana, Fariha and Mamun, S. A. and Kaiser, M. S. and Ahmed, M. R.},
	month = dec,
	year = {2015},
	keywords = {Logic gates, Transmitters, body area network, cluster, nanotechnology, outage capacity, terahertz},
	pages = {383--388},
}

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