Abstract
In vehicular ad hoc networks (VANETs), conditional privacy preserving authentication (CPPA) scheme is widely deployed to solve security and privacy issues. Existing CPPA schemes usually require ideal tamper-proof devices (TPDs) on vehicles which, however, might be infeasible or do not exist in reality due to high security requirements. To address this problem, we propose a practical framework of CPPA scheme that supports more realistic TPDs which are less secure correspondingly. We demonstrate that this framework also manages to achieve nonframeability in addition to other security objectives including nonrepudiation, conditional privacy preserving, and unlinkability. Moreover, performance analysis shows that our framework has better efficiency in authentication. All these features make our framework practical for VANETs.
Highlights
As one form of mobile ad hoc network in the domain of vehicles, vehicular ad hoc network (VANET) is a promising solution for improving road safety and driving experience
A VANET is composed of roadside units (RSUs) and vehicles equipped with electronic components such as wheel rotation sensors, radars, and on-broad units (OBUs)
To authenticate itself to other entities, vehicle might have to prove the possession of secret information which is usually saved in tamper-proof device (TPD) on vehicle
Summary
As one form of mobile ad hoc network in the domain of vehicles, vehicular ad hoc network (VANET) is a promising solution for improving road safety and driving experience. Many authentication schemes [1,2,3,4,5,6,7,8] are designed under the assumption of using ideal TPD that can never be compromised by adversary to securely store secrets and to perform related calculations. This assumption might be too strong to be realistic in practice. TA maintains a dynamic list that contains authentication-related information of vehicles, and every RSU is asked to store a latest copy of this list in the background.
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