Detail publikace

Cross-layer energy model for relay assisted 802.15.4 networks in a non-beacon-enabled mode

Originální název

Cross-layer energy model for relay assisted 802.15.4 networks in a non-beacon-enabled mode

Anglický název

Cross-layer energy model for relay assisted 802.15.4 networks in a non-beacon-enabled mode

Jazyk

en

Originální abstrakt

Cross-layer models are becoming popular in various wireless networking domains due to their realistic predictions and for fundamental understanding of the interaction between adjacent networking layers. A combined PHY/MAC layer energy consumption model is considered here for short range IEEE 802.15.4 networks for non-beacon-enable mode in case of dual hop transmission under Rayleigh fading channel. For both AF and DF relays this cross layer model is developed and a comparison of energy efficiency is done for this two type of relays. In particular, we focus on how the new model differs from single-layer models (either PHY or MAC) in terms of energy efficiency.

Anglický abstrakt

Cross-layer models are becoming popular in various wireless networking domains due to their realistic predictions and for fundamental understanding of the interaction between adjacent networking layers. A combined PHY/MAC layer energy consumption model is considered here for short range IEEE 802.15.4 networks for non-beacon-enable mode in case of dual hop transmission under Rayleigh fading channel. For both AF and DF relays this cross layer model is developed and a comparison of energy efficiency is done for this two type of relays. In particular, we focus on how the new model differs from single-layer models (either PHY or MAC) in terms of energy efficiency.

BibTex


@inproceedings{BUT112151,
  author="Sankalita {Biswas} and Aniruddha {Chandra} and Sanjay {Dhar Roy}",
  title="Cross-layer energy model for relay assisted 802.15.4 networks in a non-beacon-enabled mode",
  annote="Cross-layer models are becoming popular in various wireless networking domains due to their realistic predictions and for fundamental understanding of the interaction between adjacent networking layers. A combined PHY/MAC layer energy consumption model is considered here for short range IEEE 802.15.4 networks for non-beacon-enable mode in case of dual hop transmission under Rayleigh fading channel. For both AF and DF relays this cross layer model is developed and a comparison of energy efficiency is done for this two type of relays. In particular, we focus on how the new model differs from single-layer models (either PHY or MAC) in terms of energy efficiency.",
  booktitle="IEEE International Conference on Advances in Computing, Communications and Informatics (ICACCI)",
  chapter="112151",
  doi="10.1109/ICACCI.2014.6968560",
  howpublished="electronic, physical medium",
  year="2014",
  month="september",
  pages="55--61",
  type="conference paper"
}