This paper applies a classical physics-based model to control platooning AVs in a commercial traffic simulation software. In Spring-Mass-Damper model, each vehicle is assumed as a mass coupled with its preceding vehicle with a spring and a damper: the spring constant and damper coefficient control spacing and speed adoption between vehicles. Limitations on platooning-oriented communication range and number of vehicles in each platoon are applied to the model to reflect real-world circumstances and avoid overlengthened platoons. The SMD model control both intra-platoon and inter-platoon interactions. Initial evaluation of the model reveals that the SMD model does not cause a negative spacing error between AVs in a harsh deceleration scenario...
The paper focuses on the design of a platoon control system with diverse vehicle formation. After a ...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
This project aims to analyze the potential of car platooning to improve the overall road system perf...
Connected and automated vehicle (CAV) technologies have great potential to improve road safety. Howe...
International audienceOptimizing the inter-distances between vehicles is very important to reduce tr...
With the advent of autonomous driving, concepts like road trains or platoons are becoming more popul...
Future Intelligent Transportation System strategies that use cooperative automation have the potenti...
The rise of vehicle usage causes roads to reach capacity limits. When capacity is reached, traffic j...
Automated Electric Transportation (AET) proposes a system of automated platooning vehicles electrica...
With a steadily growing number of vehicles, our roads are getting more and more crowded. As a conseq...
AbstractThis paper studies the traffic assistance system consisting of different kinds of vehicles (...
A new bidirectional decentralized control algorithm for vehicle platoons is proposed, which guarante...
Modern vehicles are becoming smarter and smarter thanks to the continuous development of new Advance...
Autonomous vehicles have gained popularity over the years due to its increasing credibility and reli...
International audienceOptimizing the inter-distances between vehicles is very important to reduce tr...
The paper focuses on the design of a platoon control system with diverse vehicle formation. After a ...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
This project aims to analyze the potential of car platooning to improve the overall road system perf...
Connected and automated vehicle (CAV) technologies have great potential to improve road safety. Howe...
International audienceOptimizing the inter-distances between vehicles is very important to reduce tr...
With the advent of autonomous driving, concepts like road trains or platoons are becoming more popul...
Future Intelligent Transportation System strategies that use cooperative automation have the potenti...
The rise of vehicle usage causes roads to reach capacity limits. When capacity is reached, traffic j...
Automated Electric Transportation (AET) proposes a system of automated platooning vehicles electrica...
With a steadily growing number of vehicles, our roads are getting more and more crowded. As a conseq...
AbstractThis paper studies the traffic assistance system consisting of different kinds of vehicles (...
A new bidirectional decentralized control algorithm for vehicle platoons is proposed, which guarante...
Modern vehicles are becoming smarter and smarter thanks to the continuous development of new Advance...
Autonomous vehicles have gained popularity over the years due to its increasing credibility and reli...
International audienceOptimizing the inter-distances between vehicles is very important to reduce tr...
The paper focuses on the design of a platoon control system with diverse vehicle formation. After a ...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
This project aims to analyze the potential of car platooning to improve the overall road system perf...