Advertisement

A New Traffic Priority Aware and Energy Efficient Protocol for WBANs

  • Wei WangEmail author
  • Dunqiang Lu
  • Xin Zhou
  • Baoju Zhang
  • Jiasong MuEmail author
  • Yuanyuan Li
Conference paper
  • 16 Downloads
Part of the Lecture Notes in Electrical Engineering book series (LNEE, volume 571)

Abstract

For long-term real-time monitoring of human parameters, providing effective treatment for patients and reduce medical costs WBANs emerged, electrical devices microminiaturization makes WBANs come true. The network environment of WBAN is heterogeneous, nodes function and data types are various, however, in typical SPIN data priority is not considered. Limited resource is another challenge for WBANs, whole network energy balance is neglected by now available protocol. Aiming on provide low latency transmission for critical data and extend network lifetime, we proposed a optimization protocol for SPIN, data transmission and routing selection based on data priorities and residual energy. The outcome of simulation we performed show that the improved algorithm result in low latency and longer network lifetime.

Keywords

SPIN WBAN Routing Priority Energy 

References

  1. 1.
    Ullah S, Higgins H, Braem B, Latre B, Blondia C, Moerman I, Saleem S, Rahman Z, Kwak KS (2012) A comprehensive survey of wireless body area networks. J Med Syst 36(3):1065–1094Google Scholar
  2. 2.
    Movassaghi S, Abolhasan M, Lipman J et al (2014) Wireless body area networks: a survey. IEEE Commun Surv Tutor 16(3):1658–1686CrossRefGoogle Scholar
  3. 3.
    Ragesh GK, Baskaran K (2012) A survey on futuristic health care system: WBANs. Procedia Eng 30:889–896CrossRefGoogle Scholar
  4. 4.
    Cavallari R, Martelli F, Rosini R, Buratti C, Verdone R (2014) A survey on wireless body area networks: technologies and design challenges. IEEE Commun Surv Tutor 16(3):1635–1657CrossRefGoogle Scholar
  5. 5.
    Quwaider M, Biswas S (2010) DTN routing in body sensor networks with dynamic postural partitioning. Ad Hoc Netw 8(8):824–841CrossRefGoogle Scholar
  6. 6.
    Zuhra FT, Bakar KA, Ahmed A, Tunio MA (2017) Routing protocols in wireless body sensor networks: a comprehensive survey. J Netw Comput Appl 99:73–97CrossRefGoogle Scholar
  7. 7.
    Antonescu B, Basagni S (2013) Wireless body area networks: challenges, trends and emerging technologies. In: International conference on body area networks, 2013Google Scholar
  8. 8.
    Gyselinckx B, Vullers R, Hoof CV, Ryckaert J, Yazicioglu RF, Fiorini P, Leonov V Human++: emerging technology for body area networks. In: 2006 IFIP international conference on very large scale integration, Oct 2006, pp 175–180Google Scholar
  9. 9.
    Monowar MM, Bajaber F (2015) On designing thermal-aware localized QoS routing protocol for in-vivo sensor nodes in wireless body area networks. Sensors 15(6):14016–14044CrossRefGoogle Scholar
  10. 10.
    Yessad N, Omar M, Tari A, Bouabdallah A (2018) QoS-based routing in wireless body area networks: a survey and taxonomy. Computing 100(3):245–275MathSciNetCrossRefGoogle Scholar
  11. 11.
    Basagni S (1999) Distributive and mobility-adaptive clustering for multimedia support in multi-hop wireless networks. In: Proceedings of vehicular technology conference, VTC, vol 2, p 889893Google Scholar
  12. 12.
    Kuik J, Heinzeman W, Baakrishna H (2002) Negotiation-based protocol for disseminating information in wireless sensor network. Wirel Netw 8:169–185CrossRefGoogle Scholar
  13. 13.
    Al-Karki JN, Kama AE (2004) Routing techniques in wireless sensor networks: a survey. IEEE Wirel Commun 11(1):6–28CrossRefGoogle Scholar
  14. 14.
    Padmanabhan K (2011) A study on energy efficient routing protocols in wireless sensor networks Eur J Sci Res 60(4):499–511. ISSN 1450-216XGoogle Scholar
  15. 15.
    Heinzelman WR, Kulik J, Balakrishnan H (1999) Adaptive protocols for information dissemination in wireless sensor networks. In: Proceedings of the 5th annual ACM/IEEE conference on mobile computing and networking, Seattle, Washington, United States, 15–19 Aug 1999, pp 174–185Google Scholar
  16. 16.
    Elhadj HB, Elias J, Chaari L et al (2015) A priority based cross layer routing protocol for healthcare applications. Ad Hoc Netw. S1570870515002474Google Scholar

Copyright information

© Springer Nature Singapore Pte Ltd. 2020

Authors and Affiliations

  1. 1.College of Physical and Electronic InformationTianjin Normal UniversityTianjinChina

Personalised recommendations