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Energy-Efficient Medium Access Control in Wireless Sensor Networks

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Guide to Wireless Sensor Networks

Part of the book series: Computer Communications and Networks ((CCN))

Abstract

Medium access control for wireless sensor networks has been an active research area in the past decade. This chapter discusses a set of important medium access control (MAC) attributes and possible design trade-offs in protocol design, with an emphasis on energy efficiency. Then we categorize existing MAC protocols into five groups, outline the representative protocols, and compare their advantages and disadvantages in the context of wireless sensor network. Finally, thoughts for practitioners are presented and open research issues are also discussed.

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References

  1. P. Coronel, R. Doss, and W. Schott. Geographic routing with cooperative relaying and leapfrogging in WSNs. IEEE Global Telecommunications Conference (Globecom’07), USA, November

    Google Scholar 

  2. N. Abramson. The ALOHA system – Another alternative for computer communications. In Fall Joint Computer Conference, Montvale, NJ, 37:281–285,

    Google Scholar 

  3. R. Jurdak, C. Lopes, and P. Baldi. A Survey, classification and comparative analysis of medium access control protocols for ad hoc networks. IEEE Communications Surveys and Tutorials, 6(1):2–16,

    Google Scholar 

  4. J.F. Kurose and K.W. Ross. Computer Networking: A Top–Down Approach Featuring the Internet. Reading, MA: Addison Wesley, Third edition,

    Google Scholar 

  5. F. Tobagi and L. Kleinrock. Packet switching in radio channels: Part II – the hidden terminal problem in carrier sense multiple access and the busy-tone solution. IEEE Transactions on Communications, 23(12):1417–1433,

    Google Scholar 

  6. Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specification, IEEE Std. 802.

    Google Scholar 

  7. I.F. Akyildiz, W. Su, Y. Sankarasubramaniam, and E. Cayirci. Wireless sensor networks: A survey. Computer Networks, 38(4):393–422, March

    Google Scholar 

  8. K. Langedoen and G. Halkes. Energy-efficient medium access control. In R. Zurawski (ed.), Embedded Systems Handbook, Boca Raton, FL: CRC Press,

    Google Scholar 

  9. K. Kredo II and P. Mohapatra. Medium access control in wireless sensor networks. Computer Networks, 51(4):961–994,

    Google Scholar 

  10. R. Doss, G. Li, V. Mak, S. Yu, and M. Chowdhury. The crossroads approach to information discovery in WSNs. Lecture Notes in Computer Science 4094, January

    Google Scholar 

  11. W. Ye, J. Heidemann, and D. Estrin. Medium access control with coordinated adaptive sleeping for wireless sensor networks. IEEE/ACM Transactions on Networking, 12(3):493–506,

    Google Scholar 

  12. A. El-Hoiydi. ALOHA with preamble sampling for sporadic traffic in ad hoc wireless sensor networks. In IEEE International Conference on Communications (ICC2002), New York, April

    Google Scholar 

  13. J. Hill and D. Culler. MICA: A wireless platform for deeply embedded networks. IEEE Micro, 22(6):12–24,

    Google Scholar 

  14. A. El-Hoiydi and J.-D. Decotignie. WiseMAC: An ultra low power MAC protocol for multi-hop wireless sensor networks. In Proceedings of the International Workshop on Algorithmic Aspects of Wireless Sensor Networks (Algosensors), pages 18–31, July 2004.

    Google Scholar 

  15. A. Woo and D. Culler. A transmission control scheme for media access in sensor networks. In Proceedings of ACM/IEEE International Conference on Mobile Computing and Networking, Rome, Italy, pages 221–235, July

    Google Scholar 

  16. S. Mahlknecht and M. Böck. CMSA-MPS: A minimum preamble sampling MAC protocol for low power wireless sensor networks. In Proceedings of the IEEE International Workshop on Factory Communication Systems, pages 73–80, September

    Google Scholar 

  17. L.F.W. van Hoesel and P.J.M. Havinga. Poster abstract: A TDMA-based MAC protocol for WSNs. In Proceedings of the International Conference on Embedded Networked Sensor Systems (SenSys), pages 303–304, November

    Google Scholar 

  18. L.F.W. van Hoesel and P.J.M. Havinga. A lightweight medium access protocol (LMAC) for wireless sensor networks: Reducing preamble transmissions and transceiver state switches. In Proceedings of the International Conference on Networked Sensing Systems (INSS), Tokyo, Japan, June

    Google Scholar 

  19. S. Chatterjea, L.F.W. van Hoesel, and P.J.M. Havinga. AI-LMAC: An adaptive, information-centric and lightweight MAC protocol for wireless sensor networks. In Proceedings of the Intelligent Sensors, Sensor Networks, and Information Processing Conference, pages 381–388, December

    Google Scholar 

  20. I. Rhee, A. Warrier, M. Aia, and J. Min. Z-MAC: A hybrid MAC for wireless sensor networks. In Proceedings of the International Conference on Embedded Networked Sensor Systems (SenSys), pages 90–101, November

    Google Scholar 

  21. V. Rajendran, K. Obraczka, and J.J. Garcia-Luna-Aceves. Energy-efficient, collision-free medium access control for wireless sensor networks. In Proceedings of the International Conference on Embedded Networked Sensor Systems (SenSys), pages 181–192, November

    Google Scholar 

  22. P. Lin, C. Qiao, and X. Wang. Medium access control with a dynamic duty cycle for sensor networks. In Proceedings of the IEEE Wireless Communications and Networking Conference (WCNC), volume 3, pages 1534–1539, March

    Google Scholar 

  23. T. van Dam and K. Langendoen. An adaptive energy-efficient MAC protocol for wireless sensor networks. In Proceedings of the International Conference on Embedded Networked Sensor Systems (SenSys), pages 171–180, November

    Google Scholar 

  24. J. Ai, J. Kong, and D. Turgut. An adaptive coordinated medium access control for wireless sensor networks. In Proceedings of the International Symposium on Computers and Communications, volume 1, pages 214–219, July

    Google Scholar 

  25. H. Pham and S. Jha. An adaptive mobility-aware MAC protocol for sensor networks (MS-MAC). In Proceedings of the IEEE International Conference on Mobile Ad-hoc and Sensor Systems (MASS), pages 214–226, October

    Google Scholar 

  26. W.B. Heinzelman, A.P. Chandrakasan, and H. Balakrishnan. An application-specific protocol architecture for wireless microsensor networks. IEEE Transactions on Wireless Communications, 1(4):660–670, October

    Google Scholar 

  27. S. Biaz and Y.D. Barowski. GANGS: An energy efficient MAC protocol for sensor networks. In Proceedings of the Annual Southeast Regional Conference, pages 82–87, April

    Google Scholar 

  28. Y.E. Sagduyu and A. Ephremides. The problem of medium access control in wireless sensor networks. IEEE Wireless Communications, 11(6):44–53, December

    Google Scholar 

  29. M. Ali, T. Suleman, and Z.A. Uzmi. MMAC: A mobility-adaptive, collision-free MAC protocol for wireless sensor networks. In Proceedings of the 24th IEEE International Performance Computing and Communications Conference, Phoenix, Arizona, pages 401–407, USA, April

    Google Scholar 

  30. Z.R. Zaidi and B.L. Mark, Mobility estimation for wireless networks based on an auto-regressive model. In Proceedings of 2004 Global Telecommunications Conference, Dallas, TX, pages 3405–3409, December

    Google Scholar 

  31. M. Ali, U. Saif, A. Dunkels, T. Voigt, K. Romer, and K. Langendoen, Medium access control issues in sensor networks. ACM SIGCOMM Computer Communication Review, 36(2): 33–36, April

    Google Scholar 

  32. J. Polastre, J. Hui, P. Levis, J. Zhao, D. Culler, S. Shenker, and I. Stoica. A unifying link abstraction for wireless sensor networks. SenSys ’05: Proceedings of the 3rd international conference on Embedded networked sensor systems, San Diego, California, USA, pages 76–89, 2005

    Google Scholar 

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Authors and Affiliations

  1. School of Information Technology, Deakin University, VIC, 3125, Australia

    Gang Li & Robin Doss

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  1. Gang Li
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  2. Robin Doss
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Correspondence to Gang Li .

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    © 2009 Springer-Verlag London Limited

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    Li, G., Doss, R. (2009). Energy-Efficient Medium Access Control in Wireless Sensor Networks. In: Misra, S., Woungang, I., Misra, S. (eds) Guide to Wireless Sensor Networks. Computer Communications and Networks. Springer, London. https://doi.org/10.1007/978-1-84882-218-4_16

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    • DOI: https://doi.org/10.1007/978-1-84882-218-4_16

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    • Publisher Name: Springer, London

    • Print ISBN: 978-1-84882-217-7

    • Online ISBN: 978-1-84882-218-4

    • eBook Packages: Computer ScienceComputer Science (R0)

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