Vehicular platooning communication has been widely recognized as a promising traffic management technique for connected vehicles to improve the traffic capacity, on-road safety, and energy efficiency, etc. However, due to the high mobility and dense vehicular communication scenario, how to improve the radio resource efficiency of vehicular platooning communications is a challenge issue. In addition, considering the broadcast nature of vehicular communications, vulnerable vehicular platooning communications could be exposed to potential eavesdroppers, which would be a hidden danger for connected vehicle applications. In this paper, we investigate the secure radio resource sharing problem in device-to-device (D2D) enabled multiplatooning vehicular communications. Based on the physical layer security theory, we propose a security aware joint channel and power allocation (SA-JCPA) scheme, in which the closed-form expression for power control is derived through an algebraic method and the channel sharing strategy is obtained by leveraging a maximum weight bipartite graph matching approach. Through extensive simulations, it is demonstrated that our proposed SA- JCPA scheme can achieve efficient and secure radio resource utilization.


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    Title :

    Security-Aware Resource Sharing for D2D Enabled Multiplatooning Vehicular Communications


    Contributors:
    Peng, Xuesen (author) / Zhou, Haibo (author) / Qian, Bo (author) / Yu, Kai (author) / Cheng, Nan (author) / Shen, Xuemin (author)


    Publication date :

    2019-09-01


    Size :

    451277 byte





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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