In this paper, a novel distributed consensus control approach for vehicular platooning systems is proposed. In formalizing the underlying consensus problem, a realistic vehicle dynamics model is considered and a velocity-dependent spacing-policy between two consecutive vehicles is realized. For a generic communication topology, conditions for asymptotic platoon stability are proposed. As a particular case, these results allow to consider bi-directional vehicle interaction, which improves the coherence between the vehicles in the platoon. The theoretical results are experimentally validated using a three-vehicle platoon consisting of (longitudinally) automated vehicles equipped with wireless inter-vehicle communication and radar-based sensin...
A third-order consensus approach is proposed for the vehicle platoon. For addressing the platoon pro...
First, a distributed algorithm to accelerate the convergence of a class of linear time-invariant con...
The advances in distributed inter-vehicle communication networks have stimulated a fruitful line of ...
In this paper, a novel distributed consensus control approach for vehicular platooning systems is pr...
\u3cp\u3eIn this paper, a distributed consensus control approach for vehicular platooning systems is...
In this paper, a distributed consensus control approach for vehicular platooning systems is proposed...
Automated and coordinated vehicles' driving (platooning) is gaining more and more attention today an...
Automated and coordinated vehicles' driving (platooning) is gaining more and more attention today an...
Cooperative driving is an essential component of future intelligent road systems. It promises greate...
Automated and coordinated vehicles' driving (platooning) is very challenging due to the multi-body c...
In this paper, a novel Multi-Layer Consensus Seeking (MLCS) framework is proposed, focusing on the v...
In this paper, a novel Multi-Layer Consensus Seeking (MLCS) framework is proposed, focusing on the v...
A third-order consensus approach is proposed for the vehicle platoon. For addressing the platoon pro...
First, a distributed algorithm to accelerate the convergence of a class of linear time-invariant con...
The advances in distributed inter-vehicle communication networks have stimulated a fruitful line of ...
In this paper, a novel distributed consensus control approach for vehicular platooning systems is pr...
\u3cp\u3eIn this paper, a distributed consensus control approach for vehicular platooning systems is...
In this paper, a distributed consensus control approach for vehicular platooning systems is proposed...
Automated and coordinated vehicles' driving (platooning) is gaining more and more attention today an...
Automated and coordinated vehicles' driving (platooning) is gaining more and more attention today an...
Cooperative driving is an essential component of future intelligent road systems. It promises greate...
Automated and coordinated vehicles' driving (platooning) is very challenging due to the multi-body c...
In this paper, a novel Multi-Layer Consensus Seeking (MLCS) framework is proposed, focusing on the v...
In this paper, a novel Multi-Layer Consensus Seeking (MLCS) framework is proposed, focusing on the v...
A third-order consensus approach is proposed for the vehicle platoon. For addressing the platoon pro...
First, a distributed algorithm to accelerate the convergence of a class of linear time-invariant con...
The advances in distributed inter-vehicle communication networks have stimulated a fruitful line of ...