Vehicle platooning is a technology capable of reducing the distance between vehicles, which in turn increases the road capacity and reduces the fuel consumption. In vehicle platooning, vehicles exchange information through wireless Vehicle-to-Vehicle (V2V) communication. The maximum message rate is limited by the traffic of vehicles equipped with V2V capabilities and the communication protocols. It can vary between 1Hz and 10Hz in IEEE 802. 11p. Many platoon control strategies in the literature do not consider the limited message rate and are not usable in real-life scenarios. One of the strategies capable of dealing with lower message rates uses Model Predictive Control (MPC), a type of optimal controller with a high computational cost. In...
Abstract – Recent advances in cooperative driving hold the po-tential to significantly improve safet...
Vehicle platoons will play an important role in improving on-road safety in tomorrow\u27s smart citi...
This paper presents a novel vehicle platoon control algorithm using Vehicle to Vehicle (V2V) and Veh...
Vehicle platooning is a technology capable of reducing the distance between vehicles, which in turn ...
Vehicle platooning has gained attention for its potential to increase road capacity and safety, and ...
This paper performs a feasibility analysis of deploying Model Predictive Control (MPC) for vehicle p...
This paper performs a feasibility analysis of deploying Model Predictive Control (MPC) for vehicle p...
Road capacity, traffic safety, and energy efficiency can be extremely improved by forming platoons w...
Vehicle platooning has gained attention for its potential to achieve an increased road capacity and ...
Recent advances in cooperative driving hold the potential to significantly improve safety, comfort a...
Vehicle platooning is an enabler technology for increasing road capacity, improving safety and reduc...
Cooperative driving in platooning applications has received much attention lately due to its potenti...
Vehicle platooning has gained attention for its potential to achieve an increased road capacity and ...
Abstract – Recent advances in cooperative driving hold the po-tential to significantly improve safet...
Vehicle platoons will play an important role in improving on-road safety in tomorrow\u27s smart citi...
This paper presents a novel vehicle platoon control algorithm using Vehicle to Vehicle (V2V) and Veh...
Vehicle platooning is a technology capable of reducing the distance between vehicles, which in turn ...
Vehicle platooning has gained attention for its potential to increase road capacity and safety, and ...
This paper performs a feasibility analysis of deploying Model Predictive Control (MPC) for vehicle p...
This paper performs a feasibility analysis of deploying Model Predictive Control (MPC) for vehicle p...
Road capacity, traffic safety, and energy efficiency can be extremely improved by forming platoons w...
Vehicle platooning has gained attention for its potential to achieve an increased road capacity and ...
Recent advances in cooperative driving hold the potential to significantly improve safety, comfort a...
Vehicle platooning is an enabler technology for increasing road capacity, improving safety and reduc...
Cooperative driving in platooning applications has received much attention lately due to its potenti...
Vehicle platooning has gained attention for its potential to achieve an increased road capacity and ...
Abstract – Recent advances in cooperative driving hold the po-tential to significantly improve safet...
Vehicle platoons will play an important role in improving on-road safety in tomorrow\u27s smart citi...
This paper presents a novel vehicle platoon control algorithm using Vehicle to Vehicle (V2V) and Veh...