Vehicular networking is an emerging research area. It enables the vehicles equipped with communication and sensing capacities to communicate vehicle-to-vehicle or with available roadside infrastructure. It has significant applications in terms of information and traffic management and road safety. To make vehicular communication more effective, vehicular cloud computing (VCC) architecture is introduced by utilising vehicular resources, cloud computing infrastructure and internet of things environment. VCC provides a scalable platform to support intelligent transport systems. However, there is a lack of efficient and secure mutual authentication framework in VCC. This study presents a chaotic map-based mutual authentication framework for VCC to ensure secure and efficient communication along with anonymity. The authors use a simulation tool AVISPA ‘Automated Validation of Internet Security Protocols and Applications’ to verify the protocol security against active attacks. The study also includes the proof of security in the random oracle model to justify security claim against known attacks. It presents the study of performance to validate the efficiency of the proposed scheme. Moreover, a comparative study of performance attributes with related schemes to identify the improvement in communication and computation efficiency is included.
SFVCC: Chaotic map-based security framework for vehicular cloud computing
IET Intelligent Transport Systems ; 14 , 4 ; 241-249
2020-03-06
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
message authentication , protocol security , sensing capacities , chaotic map-based mutual authentication framework , computation efficiency , vehicular resources , authorisation , cryptographic protocols , vehicular ad hoc networks , vehicular cloud computing , secure mutual authentication framework , intelligent transport systems , chaotic map-based security framework , security claim , vehicular communication , internet of things environment , vehicle-to-vehicle , road safety , intelligent transportation systems , traffic management , available roadside infrastructure , cloud computing , Internet of Things , SFVCC , telecommunication security , scalable platform , mobile computing , Automated Validation of Internet Security Protocols and Applications , vehicular networking
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