Add to ORKG\u3cp\u3eThis paper presents a multi-layer approach to Cooperative Adaptive Cruise Control (CACC) to improve the platoon cohesion subject to limited vehicle actuation capabilities. The objective of the design is to guarantee that the vehicles in the platoon keep their desired relative position, while maintaining desirable platoon properties in terms of disturbance attenuation. To this end, a multi-layered control architecture is proposed. On the lower layer, a unidirectional CACC is employed, involving information exchange in upstream direction. On the upper layer, a coordination variable is exchanged from each vehicle towards its direct preceding vehicle, thus yielding downstream information exchange. As a result, the leading vehicle is aw...
Previous studies have shown the ability of vehicle platooning to improve highway safety and throughp...
In this paper, a heterogeneous vehicle platoon equipped with Cooperative Adaptive Cruise Control (CA...
Cooperative driving is an essential component of intelligent transport systems (ITSs). It promises g...
Cooperative Adaptive Cruise Control (CACC) provides an intermediate step toward a longer-term vision...
Automated driving, one of the rapidly growing research topics in the field of smart traffic, has pro...
The advances in distributed inter-vehicle communication networks have stimulated a fruitful line of ...
This paper proposes a solution to the problem of cooperative adaptive cruise control (CACC) of a pla...
Road throughput can be increased by cooperative adaptive cruise control (CACC), which allows vehicle...
In adaptive platooning strategies proposed inliterature to handle uncertain and nonidentical uncerta...
Despite the progresses in Cooperative Adaptive Cruise Control (CACC), a crucial limitation of the st...
The capacity of public roads has become a serious problem all over the world. The traffic is constan...
\u3cp\u3eNowadays, there is an increasing societal demand for smart mobility solutions which can inc...
2018Final ReportPDFTech ReportCA18-2623Coop Agreement No. DTFH61-13-H-00012 Contract 65A0521Adaptive...
International audienceThis article addresses communication and control aspects of platooning systems...
Abstract—This paper presents a longitudinal tracking control law for Cooperative Adaptive Cruise Con...
Previous studies have shown the ability of vehicle platooning to improve highway safety and throughp...
In this paper, a heterogeneous vehicle platoon equipped with Cooperative Adaptive Cruise Control (CA...
Cooperative driving is an essential component of intelligent transport systems (ITSs). It promises g...
Cooperative Adaptive Cruise Control (CACC) provides an intermediate step toward a longer-term vision...
Automated driving, one of the rapidly growing research topics in the field of smart traffic, has pro...
The advances in distributed inter-vehicle communication networks have stimulated a fruitful line of ...
This paper proposes a solution to the problem of cooperative adaptive cruise control (CACC) of a pla...
Road throughput can be increased by cooperative adaptive cruise control (CACC), which allows vehicle...
In adaptive platooning strategies proposed inliterature to handle uncertain and nonidentical uncerta...
Despite the progresses in Cooperative Adaptive Cruise Control (CACC), a crucial limitation of the st...
The capacity of public roads has become a serious problem all over the world. The traffic is constan...
\u3cp\u3eNowadays, there is an increasing societal demand for smart mobility solutions which can inc...
2018Final ReportPDFTech ReportCA18-2623Coop Agreement No. DTFH61-13-H-00012 Contract 65A0521Adaptive...
International audienceThis article addresses communication and control aspects of platooning systems...
Abstract—This paper presents a longitudinal tracking control law for Cooperative Adaptive Cruise Con...
Previous studies have shown the ability of vehicle platooning to improve highway safety and throughp...
In this paper, a heterogeneous vehicle platoon equipped with Cooperative Adaptive Cruise Control (CA...
Cooperative driving is an essential component of intelligent transport systems (ITSs). It promises g...