Title :
Pseudonym Schemes in Vehicular Networks: A Survey
Author :
Petit, Jonathan ; Schaub, Florian ; Feiri, Michael ; Kargl, Frank
Author_Institution :
Cybersecurity & Safety Res. Group, Univ. of Twente, Enschede, Netherlands
fDate :
Firstquarter 2015
Abstract :
Safety-critical applications in cooperative vehicular networks require authentication of nodes and messages. Yet, privacy of individual vehicles and drivers must be maintained. Pseudonymity can satisfy both security and privacy requirements. Thus, a large body of work emerged in recent years, proposing pseudonym solutions tailored to vehicular networks. In this survey, we detail the challenges and requirements for such pseudonym mechanisms, propose an abstract pseudonym lifecycle, and give an extensive overview and categorization of the state of the art in this research area. Specifically, this survey covers pseudonym schemes based on public key and identity-based cryptography, group signatures and symmetric authentication. We compare the different approaches, give an overview of the current state of standardization, and identify open research challenges.
Keywords :
data privacy; digital signatures; intelligent transportation systems; public key cryptography; vehicular ad hoc networks; abstract pseudonym lifecycle; cooperative vehicular networks; group signatures; identity-based cryptography; intelligent transport systems; message authentication; node authentication; privacy requirements; pseudonym mechanisms; pseudonym solutions; public key cryptography; safety-critical applications; security requirements; symmetric authentication; vehicular networks; Authentication; Licenses; Privacy; Tutorials; Vehicles; Vehicular ad hoc networks; Anonymity; ITS; V2X communications; VANET; authentication; intelligent transport systems; privacy; pseudonym; unlinkability; untraceability; vehicular ad-hoc networks;
Journal_Title :
Communications Surveys & Tutorials, IEEE
DOI :
10.1109/COMST.2014.2345420
