Abstract
Smart cities involve the provision of advanced services for road traffic users. Vehicular ad hoc networks (VANETs) are a promising communication technology in this regard. Preservation of privacy is crucial in these services to foster their acceptance. Previous approaches have mainly focused on PKI-based or ID-based cryptography. However, these works have not fully addressed the minimum information disclosure principle. Thus, questions such as how to prove that a driver is a neighbour of a given zone, without actually disclosing his identity or real address, remain unaddressed. A set of techniques, referred to as Attribute-Based Credentials (ABCs), have been proposed to address this need in traditional computation scenarios. In this paper, we explore the use of ABCs in the vehicular context. For this purpose, we focus on a set of use cases from European Telecommunications Standards Institute (ETSI) Basic Set of Applications, specially appropriate for the early development of smart cities. We assess which ABC techniques are suitable for this scenario, focusing on three representative ones—Idemix, U-Prove and VANET-updated Persiano systems. Our experimental results show that they are feasible in VANETs considering state-of-the-art technologies, and that Idemix is the most promising technique for most of the considered use cases.
Highlights
Smart cities involve the management of different infrastructures in order to provide better services to citizens
As Attribute-Based Credentials (ABCs)-related protocols can be seen as applications themselves, in the following, we focus on intelligent transport systems (ITS)-SU composition (Fig. 1)
Regarding the OnBoard Units (OBUs), we simulated the experiments on a less powerful machine with a 3-core CPU of 460 Mhz and 256 MB of RAM, comparable to state-of-theart devices, such as the OBU-201U.3. Each of these machines carry out the steps and operations that correspond to its entity in every ABC technique
Summary
Smart cities involve the management of different infrastructures in order to provide better services to citizens. Among these services, those intended to improve road traffic play a key role in smart cities development [3]. In order to achieve this goal, vehicular ad hoc networks (VANETs) are being developed. VANETs allow the exchange of information with vehicles around and with the traffic manager and other service providers. In this way, VANETs enable traffic management and a plethora of services to enhance citizens’ experience of travelling.
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