Platooning of connected and autonomous vehicles (CAVs) has a significant potential for throughput improvement. However, the interaction between CAVs and non-CAVs may limit the practically attainable improvement due to platooning. To better understand and address this limitation, we introduce a new fluid model of mixed-autonomy traffic flow and use this model to analyze and design platoon coordination strategies. We propose a tandem-link fluid model that considers randomly arriving platoons sharing highway capacity with non-CAVs. We derive verifiable conditions for stability of the fluid model by analyzing an underlying M/D/1 queuing process and establishing a Foster–Lyapunov drift condition for the fluid model. These stability conditions en...
With Vehicle-to-Vehicle (V2V) communication capability, vehicle platoon on the highway helps to redu...
Emerging connected and autonomous vehicle technologies (CAV) provide an opportunity to improve highw...
To deal with current high level of congestion, especially in urban areas, as bottleneck of mobility,...
Vehicle platooning is a promising technology that can lead to significant fuel savings and emission ...
Vehicle platooning is a promising technology that can lead to significant fuel savings and emission ...
Connected and autonomous (CA) vehicles have been verified to significantly improve traffic efficienc...
Future Intelligent Transportation System strategies that use cooperative automation have the potenti...
Autonomous vehicles (AV) will be present in freeways, and they will have to share current infrastruc...
Automated platooning is one of the most challenging fields in the domain of ITS. Conceptually, plato...
In the near future, autonomous vehicles (AVs) will travel sharing the current freeways with human dr...
Coordination of connected and automated vehicles (CAVs) in a mixed traffic environment poses signifi...
This project aims to analyze the potential of car platooning to improve the overall road system perf...
Microscopic detail of complex vehicle interactions in mixed traffic, involving manual driving system...
This paper considers a coordination problem for Connected and Automated Vehicles (CAVs) in mixed tra...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
With Vehicle-to-Vehicle (V2V) communication capability, vehicle platoon on the highway helps to redu...
Emerging connected and autonomous vehicle technologies (CAV) provide an opportunity to improve highw...
To deal with current high level of congestion, especially in urban areas, as bottleneck of mobility,...
Vehicle platooning is a promising technology that can lead to significant fuel savings and emission ...
Vehicle platooning is a promising technology that can lead to significant fuel savings and emission ...
Connected and autonomous (CA) vehicles have been verified to significantly improve traffic efficienc...
Future Intelligent Transportation System strategies that use cooperative automation have the potenti...
Autonomous vehicles (AV) will be present in freeways, and they will have to share current infrastruc...
Automated platooning is one of the most challenging fields in the domain of ITS. Conceptually, plato...
In the near future, autonomous vehicles (AVs) will travel sharing the current freeways with human dr...
Coordination of connected and automated vehicles (CAVs) in a mixed traffic environment poses signifi...
This project aims to analyze the potential of car platooning to improve the overall road system perf...
Microscopic detail of complex vehicle interactions in mixed traffic, involving manual driving system...
This paper considers a coordination problem for Connected and Automated Vehicles (CAVs) in mixed tra...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
With Vehicle-to-Vehicle (V2V) communication capability, vehicle platoon on the highway helps to redu...
Emerging connected and autonomous vehicle technologies (CAV) provide an opportunity to improve highw...
To deal with current high level of congestion, especially in urban areas, as bottleneck of mobility,...