Performance Analysis of Novel Randomly Shifted Certification Authority Authentication Protocol for MANETs

  • G. A. Safdar1Email author and

    Affiliated with

    • M. P. O'Neill (nee McLoone)1

      Affiliated with

      EURASIP Journal on Wireless Communications and Networking20092009:243956

      DOI: 10.1155/2009/243956

      Received: 14 August 2008

      Accepted: 3 June 2009

      Published: 13 July 2009


      The provision of security in mobile ad hoc networks is of paramount importance due to their wireless nature. However, when conducting research into security protocols for ad hoc networks it is necessary to consider these in the context of the overall system. For example, communicational delay associated with the underlying MAC layer needs to be taken into account. Nodes in mobile ad hoc networks must strictly obey the rules of the underlying MAC when transmitting security-related messages while still maintaining a certain quality of service. In this paper a novel authentication protocol, RASCAAL, is described and its performance is analysed by investigating both the communicational-related effects of the underlying IEEE 802.11 MAC and the computational-related effects of the cryptographic algorithms employed. To the best of the authors' knowledge, RASCAAL is the first authentication protocol which proposes the concept of dynamically formed short-lived random clusters with no prior knowledge of the cluster head. The performance analysis demonstrates that the communication losses outweigh the computation losses with respect to energy and delay. MAC-related communicational effects account for 99% of the total delay and total energy consumption incurred by the RASCAAL protocol. The results also show that a saving in communicational energy of up to 12.5% can be achieved by changing the status of the wireless nodes during the course of operation.

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      Authors’ Affiliations

      The Institute of Electronics, Communications and Information Technology (ECIT), Queen's University of Belfast


      © G. A. Safdar and M. P. O’Neill (nee McLoone). 2009

      This article is published under license to BioMed Central Ltd. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.