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RBCP-WSN : The Reliable Biderectional Control Protocol for Wireless Sensor Networks

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EN
Abstrakty
EN
This paper presents the Reliable Bidirectional Control Protocol (RBCP) protocol, which is a transport protocol for Wireless Sensor Networks (WSN), focused on managing sensors' behaviour. It aims to be a utility for reliable control data transferring from source to destination unit in the network. Considering the related studies on transport protocols, which are mostly dedicated to a single-direction reliable data transport, RBCP is the answer for the lack of control mechanisms in WSNs based on bidirectional communication. The first part of this paper is focused on general presentation of the proposed solution. In the next part, evaluation of the idea and final functionality are discussed. It will finally show the results of undergone testing stage.
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Twórcy
autor
  • Institute of Telecommunications, Warsaw University of Technology, Warsaw, Poland
  • Institute of Telecommunications, Warsaw University of Technology, Warsaw, Poland
autor
  • Institute of Telecommunications, Warsaw University of Technology, Warsaw, Poland
  • Institute of Telecommunications, Warsaw University of Technology, Warsaw, Poland
autor
  • Institute of Telecommunications, Warsaw University of Technology, Warsaw, Poland
Bibliografia
  • [1] G. Riva, F. Vatalaro, F. Davide, M. Alcaiz, ”Ambient Intelligence,” IOS Press, 2005.
  • [2] I. F. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci, ”Wireless Sensor Networks: a Survey,” Computer Networks, Vol. 38, 2002, pp. 393-422.
  • [3] F. Wang, Y. Zhang, ”Improving TCP Performance over Mobile ad-hoc Networks with Out-of-Order Detection and Response,” in Proceedings of ACM Mobihoc, 2002, pp. 217-225.
  • [4] K. Sundaresan, V. Anantharaman, H.-Y. Hsieh, R. Sivakumar, ”ATP: a Reliable Transport Protocol for ad-hoc Networks,” in Proceedings of ACM Mobihoc, 2003, pp. 64-75.
  • [5] Y. Sankarasubramaniam, O. Akan, I. Akyildiz, ”ESRT: Event-to-Sink Reliable Transport in Wireless Sensor Networks,” in Proceedings of ACM MobiHoc, 2003, pp. 177-188.
  • [6] F. Stann, J. Heideman, ”RMST: Reliable Data Transport in Sensor Networks”. in Proceedings of IEEE SNPA, 2003, pp. 102-113.
  • [7] S. Park, R. Vedantham, R. Sivakumar, I. Akyildiz, ”A Scalable Approach for Reliable Downstream Data Delivery in Wireless Sensor Networks,” in Proceedings of ACM MobiHoc, 2004, pp.78-89.
  • [8] C.-Y. Wan, A.T. Campbell, L. Krishnamurthy, ”Pump Slowly, Fetch Quickly (PSFQ): a Reliable Transport Protocol for Sensor Networks,”. IEEE Journal On Selected Areas In Communications, Vol. 23, No. 4, 2005.
  • [9] N. Tezcan, W. Wang, ”ART: An Asymmetric and Reliable Transport Mechanism for Wireless Sensor Networks,” International Journal of Sensor Networks, Vol. 2, Issue 3/4, 2007, pp. 188-200.
  • [10] Y. G. Iyer, S. Gandham, S. Venkatesan, ”STCP: A Generic Transport Layer Protocol for Wireless Sensor Networks,” in Proceedings of 14th International Conference on Computer Communications and Networks, 2005, pp. 449-454.
  • [11] S. Khan, A.-S. K. Pathan, N. A. Alrajeh, ”Wireless Sensor Networks: Current Status and Future Trends,” Ch. 11, 2012, pp. 285-324.
  • [12] W. Ye, J. Heidemann, D. Estrin, ”An Energy-Efficient MAC Protocol for Wireless Sensor Networks,” IEEE INFOCOM, Vol. 3, 2002, pp. 15671576.
  • [13] W. Ye, J. Heidemann, D. Estrin, ”Medium access control with coordinated adaptive sleeping for wireless sensor networks,” IEEE/ACM Transactions on Networking, 2004, pp. 493506.
  • [14] T. Van Dam, K. Langendoen, ”An Adaptive Energy Efficient MAC Protocol for Wireless Sensor Networks,” in Proceedings of the 1st international conference on Embedded networked sensor systems, SenSys, 2003, pp. 171 180.
  • [15] https://github.com/tyll/tinyos-2.x-contrib.
  • [16] D. Moss, P. Levis, ”BoX-MACs: Exploiting Physical and Link Layer Boundaries in LowPower Networking,” Technical Report SING-08-00, Stanford University, 2008.
  • [17] P. Levis, N. Lee, M. Welsh, D. Culler, ”TOSSIM: Accurate and Scalable Simulation of Entire TinyOS Applications,” in Proceedings of the 1st international conference on Embedded networked sensor systems, SenSys, 2003, pp. 126-137.
  • [18] D. Gay, P. Levis, R. Von Behren, M. Welsh, E. Brewer, D. Culler, ”The nesC Language: A Holistic Approach to Networked Embedded Systems,” in Proceedings of Programming Language Design and Implementation (PLDI), 2003.
  • [19] http://nescc.sourceforge.net/
  • [20] D.E. Boubiche, A. Bilami, ”A Defense Strategy against Energy Exhausting Attacks in Wireless Sensor Networks,” Journal Of Emerging Technologies In Web Intelligence, Vol. 5, 2013, pp.23.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
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