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Wireless Personal Communications

Erschienen in:

01.06.2017

PERA: Priority-Based Energy-Efficient Routing Algorithm for WBANs

verfasst von: Gulnaz Ahmed, Zou Jianhua, Mian Muhammad Sadiq Fareed

Erschienen in: Wireless Personal Communications | Ausgabe 3/2017

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Abstract

Wireless body area network (WBAN) is designed to provide a variety of services for both medical and entertainment applications. This paper proposes a priority-based energy-efficient routing algorithm (PERA) for WBAN. In PERA, first priority is assigned for emergency data, second priority is used for on demand data traffic and third priority is utilized for periodic data delivery between sink and root nodes. We develop two non-linear programming based optimization models for WBAN. We use these computational models to analyze the effect of define constraints on network performance. We also use this problem formulation frame work to estimate the best possible performance of WBAN subjected to additionally design parameters such as the energy levels, topology, source rates, reception power, and number of nodes. We introduce these models for a fixed deployment strategy and examined that these optimization models show prickly changes in network throughput and network lifetime. MATLAB simulations of proposed routing protocol are performed for five different evaluation criterion in comparison with SIMPLE and M-ATTEMPT. The simulation results show that proposed routing algorithm achieves longer lifetime and more reliable than opponent routing protocols.

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Movassaghi, S., Abolhasan, M., Lipman, J., Smith, D., & Jamalipour, A. (2014). Wireless body area networks: A survey. IEEE Communications Surveys & Tutorials, 16(3), 1658–1686.CrossRef

Akinbami, L. J., Moorman, J. E., & Liu, X. (2011). Asthma prevalence, health care use, and mortality: United States, 2005–2009. National Health Statistics Reports (Vol. 32, pp. 1–14).

Otto, C. A, Jovanov, E., & Milenkovic A. (2006). A WBAN-based system for health monitoring at home. In 3rd IEEE/EMBS international Summer School and symposium on medical devices and Biosensors (pp. 20–23).

Patel, S., et al. (2009). Monitoring motor fluctuations in patients with Parkinson’s disease using wearable sensors. IEEE Transactions on Information Technology in Biomedicine, 13(6), 864–873.CrossRef

Jamil, K. Y., & Mehmet, Y. R. (2010). Wireless body area network (WBAN) for medical applications New Developments. Biomedical Engineering, 1, 591–628.

Jemal, A., Bray, F., & Ferlay, J. (2011). Global cancer statistics. CA: A Cancer Journal for Clinicians, 61(2), 69–90.

Quwaider, M., & Biswas, S. (2010). DTN routing in body sensor networks with dynamic postural partitioning. Ad Hoc Networks, 8(8), 824–841.CrossRef

Quwaider, M., & Biswas, S. (2009). On-body packet routing algorithms for body sensor networks. In Networks and communications. NETCOM 09. First international conference on (pp. 171–177).

Seo, S.-H., Gopalan, S., Chun, S.-M., Seok, K.-J., Nah, J.-W., & Park, J.-T. (2010). An energy-efficient configuration management for multi-hop wireless body area networks. In Broadband network and multimedia technology (IC-BNMT), 2010 3rd IEEE international conference on (pp. 1235–1239).

10.

Nabi, M., Basten, T., Geilen, M., Blagojevic, M., & Hendriks, T. (2010). A robust protocol stack for multi-hop wireless body area networks with transmit power adaptation. In Proceedings of the fifth international conference on body area networks (pp. 77–83). ACM.

11.

Latre, B., Braem, B., Moerman, I., Blondia, C., Reusens, E., Joseph, W., et al. (2007). A low-delay protocol for multihop wireless body area networks, mobile and ubiquitous systems: Networking and services, MobiQuitous. In Fourth annual international conference on. IEEE.

12.

Hassanpour, S., Asadi, B., Vejdanparast, Y., & Zargar, P. (2011). Improving reliability of routing in wireless body area sensor networks using genetic algorithm. In Computer science and automation engineering (CSAE), 2011 IEEE international conference on (Vol. 2, pp. 590, 593). doi:10.1109/CSAE.2011.5952540.

13.

Ullah, S., Higgins, H., Braem, B., Latre, B., Blondia, C., Moerman, I., et al. (2012). A comprehensive survey of wireless body area networks. Journal of Medical Systems, 36(3), 1065–1094.CrossRef

14.

Kim, D. Y., Kim, W. Y, Cho, J. S., & Lee, B. (2010). Ear: An environment-adaptive routing algorithm for wbans. In Proceedings of international symposium on medical information and communication technology (ISMICT).

15.

Javaid, N., Abbas, Z., Farid, M. S., Khan, Z. A., & Alrajeh, N. (2013). M-ATTEMPT: A new energy-efficient routing protocol for wireless body area sensor networks. In The 4th international conference, ANT (pp. 224–231).

16.

Nadeem, Q., Javaid, N., Mohammad, S. N., Khan, M. Y., Sarfrazm, S., & Gull, M. (2013). SIMPLE: Stable increased-throughput multi-hop protocol for link efficiency in wireless body area networks, broadband and wireless computing, communication and applications (BWCCA). In 2013 Eighth international conference on (Vol. 221(226), pp. 28–30). doi:10.1109/BWCCA.2013.42.

17.

Annur, R., Wattanamongkhol, N., Nakpeerayuth, N., Wuttisittikulkij, L., & Takada, J. (2011). Applying the tree algorithm with prioritization for body area networks. In Autonomous decentralized systems (ISADS), 2011 10th international symposium on (pp. 23–27).

18.

Braem, B., Latr, B., Moerman, I., Blondia, C., & Demeester, P. (2006). The wireless autonomous spanning tree protocol for multihop wireless body area networks. In Proceedings of the first international workshop on personalized networks.

19.

Ivanov, S., Foley, C., Balasubramaniam, S., & Botvich, D. (2012). Virtual groups for patient WBAN monitoring in medical environments. IEEE Transactions on Biomedical Engineering, 59(11), 3238–3246.CrossRef

20.

Zhang, Y., et al. (2013). A batteryless 19 W MICS/ISM-band energy harvesting body sensor node SoC for ExG applications. IEEE Journal of Solid-State Circuits, 48(1), 199–213.CrossRef

21.

Sjoland, H., et al. (2012). A receiver architecture for devices in wirelessbody area networks. IEEE Journal on Emerging and Selected Topics in Circuits and Systems, 2(1), 82–95.CrossRef

22.

Reusens, E., et al. (2009). Characterization of on-body communication channel and energy efficient topology design for wireless body area networks. IEEE Transactions on Information Technology in Biomedicine, 13(6), 933–945.CrossRef

23.

Krishnamachari, B., & Ordónez, F. (2003). Analysis of energy-efficient, fair routing in wireless sensor networks through non-linear optimization. In Vehicular technology conference. VTC 2003-Fall. 2003 IEEE 58th (Vol. 5, pp. 2844–2848). IEEE.

24.

Ordónez, F., & Krishnamachari, B. (2004). Optimal information extraction in energy-limited wireless sensor networks. IEEE Journal on Selected Areas in Communications, 22(6), 1121–1129.CrossRef

25.

Heinzelman, W. R., Chandrakasan, A., & Balakrishnan, H. (2000). Energy efficient communication protocol for wireless microsensor networks. In System sciences, proceedings of the 33rd annual Hawaii international conference on. IEEE

26.

Rappaport, T. S. (1996). Wireless communications: Principles and practice (Vol. 2). Prentice Hall, NJ: Prentice Hall, PTR.MATH

27.

Reusens, E., Joseph, W., Vermeeren, G., Kurup, D., & Martens, L. (2008). Real human body measurements, model, and simulations of 2.45 GHz wireless body area network communication channel. In The Proceedings of international workshop on wearable and implantable body sensor networks (BSN 2008) (pp. 149–152).

Titel: PERA: Priority-Based Energy-Efficient Routing Algorithm for WBANs
verfasst von: Gulnaz Ahmed
Zou Jianhua
Mian Muhammad Sadiq Fareed
Publikationsdatum: 01.06.2017
Verlag: Springer US
Erschienen in: Wireless Personal Communications / Ausgabe 3/2017
Print ISSN: 0929-6212
Elektronische ISSN: 1572-834X
DOI: https://doi.org/10.1007/s11277-017-4415-9

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