Add to ORKGMany future vehicle safety applications will rely on one-hop Periodic Broadcast Communication (oPBC). The key technology for supporting this communication system is the new standard IEEE 802.11p which employs the Carrier Sense Multiple Access/Collision Avoidance (CSMA/CA) mechanism to resolve channel access competition. In this work, we first aim at understanding the behavior of such oPBC under varying load conditions by considering three important quality aspects of vehicle safety applications: reliability, fairness, and delay. Second, we investigate possible improvements of these quality aspects. We start with a clear mathematical model which gives the foundation for making an accurate simulation model as well as for defining new appropri...
In this paper the medium access control (MAC) method of the upcoming vehicular communication standar...
Whereas passive safety systems more and more reach their physical limits, active safety systems are ...
Broadcasting communications is critically important in vehicular ad hoc networks. Many safety applic...
Many future vehicle safety applications will rely on one-hop Periodic Broadcast Communication (oPBC)...
Abstract—Direct radio-based vehicle-to-vehicle communication can help to prevent accidents by provid...
Vehicular ad-hoc networks (VANETs) that enable communication among vehicles have recently attracted ...
Proposed safety applications for vehicle-to-vehicle (V2V) communication rely mostly on periodic broa...
Vehicular safety applications have the potential to make travel on our roads and highways much more ...
Safety and non-safety applications envisioned for Vehicular Ad hoc NETworks (VANETs) heavily rely on...
IEEE 802.11p is the recently finalised protocol located at the bottom of the Dedicated Short Range C...
The IEEE 1609.4-Multi-Channel Operation protocol has been proposed to support the co-existence of sa...
In this paper the medium access control (MAC) method of the upcoming vehicular communication standar...
In this paper the medium access control (MAC) method of the upcoming vehicular communication standar...
Whereas passive safety systems more and more reach their physical limits, active safety systems are ...
Broadcasting communications is critically important in vehicular ad hoc networks. Many safety applic...
Many future vehicle safety applications will rely on one-hop Periodic Broadcast Communication (oPBC)...
Abstract—Direct radio-based vehicle-to-vehicle communication can help to prevent accidents by provid...
Vehicular ad-hoc networks (VANETs) that enable communication among vehicles have recently attracted ...
Proposed safety applications for vehicle-to-vehicle (V2V) communication rely mostly on periodic broa...
Vehicular safety applications have the potential to make travel on our roads and highways much more ...
Safety and non-safety applications envisioned for Vehicular Ad hoc NETworks (VANETs) heavily rely on...
IEEE 802.11p is the recently finalised protocol located at the bottom of the Dedicated Short Range C...
The IEEE 1609.4-Multi-Channel Operation protocol has been proposed to support the co-existence of sa...
In this paper the medium access control (MAC) method of the upcoming vehicular communication standar...
In this paper the medium access control (MAC) method of the upcoming vehicular communication standar...
Whereas passive safety systems more and more reach their physical limits, active safety systems are ...
Broadcasting communications is critically important in vehicular ad hoc networks. Many safety applic...