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    Machine-Learning-Based Efficient and Secure RSU Placement Mechanism for Software-Defined-IoV

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    Machine-Learning-Based_Efficient_and_Secure_RSU_Placement_Mechanism_for_Software-Defined-IoV.pdf (2.672Mb)
    Date
    2021-09-15
    Author
    Anbalagan, Sudha
    Bashir, Ali Kashif
    Raja, Gunasekaran
    Dhanasekaran, Priyanka
    Vijayaraghavan, Geetha
    Tariq, Usman
    Guizani, Mohsen
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    Abstract
    The massive increase in computing and network capabilities has resulted in a paradigm shift from vehicular networks to the Internet of Vehicles (IoV). Owing to the dynamic and heterogeneous nature of IoV, it requires efficient resource management using smart technologies, such as software-defined network (SDN), machine learning (ML), and so on. Roadside units (RSUs) in software-defined-IoV (SD-IoV) networks are responsible for network efficiency and offer several safety functions. However, it is not viable to deploy enough RSUs, and also the existing RSU placement lacks universal coverage within a region. Furthermore, any disruption in network performance or security impacts vehicular activities severely. Thus, this work aims to improve network efficiency through optimal RSU placement and enhance security with a malicious IoV detection algorithm in an SD-IoV network. Therefore, the memetic-based RSU (M-RSU) placement algorithm is proposed to reduce communication delay and increase the coverage area among IoV devices through an optimum RSU deployment. Besides the M-RSU algorithm, the work also proposes a distributed ML (DML)-based intrusion detection system (IDS) that prevents the SD-IoV network from disastrous security failures. The simulation results show that M-RSU placement reduces the transmission delay. The DML-based IDS detects the malicious IoV with an accuracy of 89.82% compared to traditional ML algorithms.
    URI
    https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85103773575&origin=inward
    DOI/handle
    http://dx.doi.org/10.1109/JIOT.2021.3069642
    http://hdl.handle.net/10576/35583
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    • Computer Science & Engineering [‎2482‎ items ]

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