• DocumentCode
    11097
  • Title

    By-Passing Infected Areas in Wireless Sensor Networks Using BPR

  • Author

    Yaakob, Naimah ; Khalil, Ibrahim ; Kumarage, Heshan ; Atiquzzaman, Mohammed ; Tari, Zahir

  • Author_Institution
    Sch. of Comput. Sci. & IT, RMIT Univ., Melbourne, VIC, Australia
  • Volume
    64
  • Issue
    6
  • fYear
    2015
  • fDate
    June 1 2015
  • Firstpage
    1594
  • Lastpage
    1606
  • Abstract
    Abnormalities in sensed data streams indicate the spread of malicious attacks, hardware failure and software corruption among the different nodes in a wireless sensor network. These factors of node infection can affect generated and incoming data streams resulting in high chances of inaccurate data, misleading packet translation, wrong decision making and severe communication disruption. This problem is detrimental to real-time applications having stringent quality-of-service (QoS) requirements. The sensed data from other uninfected regions might also get stuck in an infected region should no prior alternative arrangements are made. Although several existing methods (BOUNDHOLE and GAR) can be used to mitigate these issues, their performance is bounded by some limitations, mainly the high risk of falling into routing loops and involvement in unnecessary transmissions. This paper provides a solution to by-pass the infected nodes dynamically using a twin rolling balls technique and also divert the packets that are trapped inside the identified area. The identification of infected nodes is done by adapting a Fuzzy data clustering approach which classifies the nodes based on the fraction of anomalous data that is detected in individual data streams. This information is then used in the proposed by-passed routing (BPR) which rotates two balls in two directions simultaneously: clockwise and counter-clockwise. The first node that hits any ball in any direction and is uninfected, is selected as the next hop. We are also concerned with the incoming packets or the packets-on-the-fly that may be affected when this problem occurs. Besides solving both of the problems in the existing methods, the proposed BPR technique has greatly improved the studied QoS parameters as shown by almost 40 percent increase in the overall performance.
  • Keywords
    fuzzy set theory; pattern clustering; quality of service; telecommunication network routing; wireless sensor networks; BPR technique; Fuzzy data clustering approach; QoS requirements; by-passed routing loop; hardware failure; malicious attacks; quality of service requirements; sensed data streaming; software corruption; twin rolling balls technique; wireless sensor network; Business process re-engineering; Hardware; Nickel; Routing; Silicon; Software; Wireless sensor networks; Wireless sensor networks; anomalies detection; fault-tolerance; performance evaluation; routing protocols;
  • fLanguage
    English
  • Journal_Title
    Computers, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9340
  • Type

    jour

  • DOI
    10.1109/TC.2014.2345400
  • Filename
    6871312