Automated vehicles are designed to free drivers from driving tasks and are expected to improve traffic safety and efficiency when connected via vehicle-to-vehicle communication, that is, connected automated vehicles (CAVs). The time delays and model uncertainties in vehicle control systems pose challenges for automated driving in real world. Ignoring them may render the performance of cooperative driving systems unsatisfactory or even unstable. This paper aims to design a robust and flexible platooning control strategy for CAVs. A centralized control method is presented, where the leader of a CAV platoon collects information from followers, computes the desired accelerations of all controlled vehicles, and broadcasts the desired acceleratio...
Platooning, or controlled management of vehicle formation, enables multiple vehicles equipped with a...
Safety is the foremost concern for autonomous platooning. The vehicle-to-vehicle (V2V) communication...
Platoon-based vehicular cyber-physical systems have gained increasing attention due to their potenti...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
Most existing longitudinal control strategies for connected and automated vehicles (CAVs) have uncle...
Cooperative adaptive cruise control presents an opportunity to improve road transportation through i...
Vehicle platooning is a promising cooperative driving vision where a group of consecutive connected ...
Vehicle platooning gains its popularity in improving traffic capacity, safety and fuel saving. The k...
Cooperative driving is an essential component of intelligent transport systems (ITSs). It promises g...
Connected and autonomous (CA) vehicles have been verified to significantly improve traffic efficienc...
Automated driving, one of the rapidly growing research topics in the field of smart traffic, has pro...
The rise of vehicle usage causes roads to reach capacity limits. When capacity is reached, traffic j...
Coordination of connected and automated vehicles (CAVs) in a mixed traffic environment poses signifi...
This paper presents a novel vehicle platoon control algorithm using Vehicle to Vehicle (V2V) and Veh...
Cooperative adaptive cruise control presents an opportunity to improve road transportation through i...
Platooning, or controlled management of vehicle formation, enables multiple vehicles equipped with a...
Safety is the foremost concern for autonomous platooning. The vehicle-to-vehicle (V2V) communication...
Platoon-based vehicular cyber-physical systems have gained increasing attention due to their potenti...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
Most existing longitudinal control strategies for connected and automated vehicles (CAVs) have uncle...
Cooperative adaptive cruise control presents an opportunity to improve road transportation through i...
Vehicle platooning is a promising cooperative driving vision where a group of consecutive connected ...
Vehicle platooning gains its popularity in improving traffic capacity, safety and fuel saving. The k...
Cooperative driving is an essential component of intelligent transport systems (ITSs). It promises g...
Connected and autonomous (CA) vehicles have been verified to significantly improve traffic efficienc...
Automated driving, one of the rapidly growing research topics in the field of smart traffic, has pro...
The rise of vehicle usage causes roads to reach capacity limits. When capacity is reached, traffic j...
Coordination of connected and automated vehicles (CAVs) in a mixed traffic environment poses signifi...
This paper presents a novel vehicle platoon control algorithm using Vehicle to Vehicle (V2V) and Veh...
Cooperative adaptive cruise control presents an opportunity to improve road transportation through i...
Platooning, or controlled management of vehicle formation, enables multiple vehicles equipped with a...
Safety is the foremost concern for autonomous platooning. The vehicle-to-vehicle (V2V) communication...
Platoon-based vehicular cyber-physical systems have gained increasing attention due to their potenti...