With the popularity of unmanned aerial vehicles (UAVs), more and more valuable data can be collected by UAVs. In order to balance the data usage and communication cost, the data can be preprocessed in UAVs rather than directly transmitting to the data centre in the edge computing paradigm. Users can obtain information of interest by accessing the data centre remotely by authenticating themselves to the data centre using the most pervasive password authentication method. Unfortunately, the data centre becomes the main attack target because it not only stores the data but also maintains the passwords of all the users. Aiming at protecting the data as well as the password in the UAV-enabled mobile edge computing environment, the authors combine the advantages of gateway-oriented password authenticated key exchange (PAKE) protocols and two-server PAKE protocols and put forward an efficient gateway-oriented two-server PAKE protocol. The security of the proposed protocol is given in the random oracle model. The performance comparison shows their proposal has comparable efficiency in computation and communication costs. Their protocol provides better protection to the password without sacrificing efficiency. Consequently, their protocol is more suitable for real applications in UAV-enabled mobile edge computing environment.
CITATION STYLE
Zhang, H., Kumari, S., Obaidat, M. S., & Wei, F. S. (2020). Gateway-oriented two-server password authenticated key exchange protocol for unmanned aerial vehicles in mobile edge computing. IET Communications, 14(15), 2427–2433. https://doi.org/10.1049/iet-com.2019.1009
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