DTMP: Energy Consumption Reduction in Body Area Networks Using a Dynamic Traffic Management Protocol
Subject Areas : Sensor NetworksMona Alimardani 1 , Amir Masoud Rahmani 2 , Houman Zarrabi 3
1 - Islamic Azad University, Science and Research Branch, Tehran, Iran
2 - Islamic Azad University, Science and Research Branch, Tehran, Iran
3 - Communication Technologies Department, Iran ICT Research Center
Keywords: lifetime network, traffic management, Body area network, Energy consumption,
Abstract :
Advances in medical sciences with other fields of science and technology is closely casual profound mutations in different branches of science and methods for providing medical services affect the lives of its descriptor. Wireless Body Area Network (WBAN) represents such a leap. Those networks excite new branches in the world of telemedicine. Small wireless sensors, to be quite precise and calculated, are installed in or on the body and create a WBAN that various vital statistics or environmental parameters sampling, processing and radio. These nodes allow independent monitoring of a person's location, in typical environments and for long periods and provide for the user and the medical, offer real-time feedback from the patient's health status. In this article, the introduction of WBAN and review issues and applications of medical sensor networks, to offer a protocol has been established that the threshold for data transmission reduces power consumption on sensor nodes, increasing the lifetime of the network and motion phase to increase the dynamics of the network. The proposed protocol in the network been compared with the SIMPLE and ATTEMPT protocols. Results indicate a significant reduction in energy consumption of sensors to reduce energy consumption the entire network.
[1] Yaqoob, K.F.a.M.M., A Survey of Routing Protocols for Low Power Sensor Networks. International Journal of Computer Applications (IJCA), 2014. 108.
[2] A. Ahmad, N.J., U. Qasim, M. Ishfaq, Z. A. Khan, and T. A. Alghamdi, RE-ATTEMPT: A New Energy-Efficient Routing Protocol for Wireless Body Area Sensor Networks. Hindawi, 2014. 2014: p. 9.
[3] N. Javaid, Z.A., M. S. Fareed, Z. A. Khan, N. Alrajeh, M-ATTEMPT: A New Energy-Efficient Routing Protocol for Wireless Body Area Sensor Networks. ELSEVIER, 2011.
[4] Q. Nadeem, N.J., S. N. Mohammad, M. Y. Khan, S. Sarfraz, M. Gull, SIMPLE: Stable Increased-throughput Multi-hop Protocol for Link Efficiency in Wireless Body Area Networks, in IEEE. 2013.
[5] Lighvan, O.R.a.M.Z., M2E2: A Novel Multi-hop Routing Protocol for Wireless Body Sensor Networks. CNCS, 2014.
[6] Latr, B., A Low-delay Protocol for Multihop Wireless Body Area Networks, in IEEE. 2007.
[7] Karen Lopez-Linares Roman, G.V., Arno Thielens, Wout Joseph and Luc Martens, Characterization of path loss and absorption for a wireless radio frequency link between an in-body endoscopy capsule and a receiver outside the body. Springer, 2014.
[8] Efe, D.L. Dr Efe's Medical Art Bank. 2013 [cited 2016 March]; Available from: http://medicalartbank.com/?s=Capsule+Endoscopy&post_type=product.
[9] R. Ch´avez-Santiago, I.B.a.J.B., Ultrawideband Technology in Medicine: A Survey Hindawi, 2012. 2012.
[10] Yamamoto, T.K.a.H., Ultra-widband Propagation Loss Around a Human Body in various surrounding environments Springer, 2010.
[11] David B. Smith, D.M., Tharaka A. Lamahewa and Leif W.Hanlen, D.B. Smith & L.W., Propagation Models for Body Area Networks: A Survey and New Outlook. IEEE, 2012.
[12] Hassanien, A.D.a.A.E., Wearable and Implantable Wireless Sensor Network Solutions for ealthcare Monitoring. Sensors 2012(Sensors ).
[13] Hanlen, D.B.S.L.W., Channel Modeling for Wireless Body Area Networks. Springer, 2015.
[14] Sana Ullah, B.S., S.M. Riazul, A Study of MAC Protocols for WBANs. Sensors 2009.
[15] Chee Keong Hoa, T.S.P.S., Mehmet R. Yucec, An ultra-wideband wireless body area network: Evaluation in static and dynamic channel conditions. Elsevier, 2012.
[16] Jun-ichi Naganawa, K.W., Minseok Kim, Takahiro Aoyagi and Jun-ichi Takada, Simulation-Based Scenario-Specific Channel Modeling for WBAN Cooperative Transmission Schemes. IEEE, 2015. 19: p. 559.
[17] Bream, B., Reliable and Energy Efficient Protocols for Wireless Body Area Network. 2011: Universiteit Antwerpen.
[18] N. Javaid, S.H., M. Shakir, M. A. Khan, S. H. Bouk, Z. A. Khan, Energy Efficient MAC Protocols in Wireless Body Area Sensor Networks -A Survey. Journal of Basic Applied Scientific Research (JBASR), 2013.
[19] Wang, J.W.Q., Body area communications. 2013: WILEY, IEEE.
[20] Manteuffel, M.G.a.D., Antennas and Propagation for On-, Off and In-Body Communications, in Ultra-Wideband Radio Technologies for Communications, Localization and Sensor Applications. 2013, InTechOpen.
[21] Simon L. Cotton, R.D.E., and Claude Oestges, A review of radio channel models for body centric communications. AGU.PUBLICATIONS, 2014(Radio Science).
[22] Rabbachin, A., A Review of Channel Modelling for Wireless Body Area Network in Wireless Medical Communications. IEEE.
[23] Vahid Ayatollahitafti, M.A.N., and Johan bin Mohamad SHarif, Requirments and challenges in body sensor networks: a survey. JATIT, 2015.