Andere Kunden interessierten sich auch für
![Experimental Communication Testbed for Intelligent Transport Systems]( "Experimental Communication Testbed for Intelligent Transport Systems")
Experimental Communication Testbed for Intelligent Transport Systems32,99 €![Directional Routing Techniques In Vehicular Ad hoc Networks (VANET)]( "Directional Routing Techniques In Vehicular Ad hoc Networks (VANET)")
Directional Routing Techniques In Vehicular Ad hoc Networks (VANET)51,99 €![A novel BBICR Technique in Vehicular Ad-hoc Networks]( "A novel BBICR Technique in Vehicular Ad-hoc Networks")
A novel BBICR Technique in Vehicular Ad-hoc Networks30,99 €![Authentication for broadcast communication in vehicular networks]( "Authentication for broadcast communication in vehicular networks")
Authentication for broadcast communication in vehicular networks19,99 €![Efficient Anonymous Authentication and Key Management Techniques for Vehicular Ad-hoc Networks]( "Efficient Anonymous Authentication and Key Management Techniques for Vehicular Ad-hoc Networks")
Efficient Anonymous Authentication and Key Management Techniques for Vehicular Ad-hoc Networks49,99 €![Vehicular Ad hoc Networks]( "Vehicular Ad hoc Networks")
Vehicular Ad hoc Networks32,99 €![Dynamic Congestion Control Algorithm for Vehicular Ad hoc Networks]( "Dynamic Congestion Control Algorithm for Vehicular Ad hoc Networks")
Dynamic Congestion Control Algorithm for Vehicular Ad hoc Networks26,99 €
Security and privacy are among the growing concerns of a Vehicular Ad hoc Network (VANET) which requires a high degree of liability from its participants. In this dissertation, we address security, anonymity, and privacy challenges of VANETs in the light of the IEEE standards for vehicular communications. VANET provides a variety of road-safety and other applications through wireless devices installed in vehicles and roadside infrastructure. However, a vehicle must not be able to take advantage of its anonymity for any misbehavior like sending false messages or malicious updates to other vehicles or a roadside infrastructure. We use proxy signature, identity-based signature, and elliptic curve cryptosystems to provide authentication for infrastructure generated messages, and anonymous authentication for vehicle originated messages. Also, we investigate how some of the MAC-layer weaknesses may impair the security of a VANET. Our solutions are lightweight, bandwidth friendly and compatible to the current standards of vehicular communications.