This paper presents a novel distributed nonlinear model predictive control (DNMPC) for minimizing velocity tracking and spacing errors in heterogeneous vehicle platoon under uncertainty. The vehicle longitudinal dynamics and information flow in the platoon are established and analyzed. The algorithm of DNMPC with robustness and reliability considerations at each vehicle (or node) is developed based on the leading vehicle and reference information from nodes in its neighboring set. Together with the physical constraints on the control input, the nonlinear constraints on vehicle longitudinal dynamics, the terminal constraints on states, and the reliability constraints on both input and output, the objective function is defined to optimize the...
Abstract—In this paper, we consider the longitudinal control problem for a platoon of vehicles with ...
Platooning technology offers great benefits to society when it comes to increasing road capacity, fu...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
Connected and autonomous driving technology is a current research hotspot, which can effectively eas...
This paper proposes a distributed model reference adaptive controller (DMRAC) for vehicle platoons w...
Abstract Control of vehicle platoon can effectively reduce the traffic accidents caused by fatigue d...
The development of vehicle-to-vehicle (V2V) improves the cooperation efficiency of the connected aut...
Vehicle platooning gains its popularity in improving traffic capacity, safety and fuel saving. The k...
Platoon-based vehicular cyber-physical systems have gained increasing attention due to their potenti...
In this paper, the vehicle platoon control problems for a group of heterogeneous vehicles are invest...
This paper considers the cooperative control problem of heterogeneous nonlinear vehicle platooning s...
Vehicle platooning is a promising cooperative driving vision where a group of consecutive connected...
This paper considers the multi-objective platooning control problem of a group of connected and auto...
The work presented in this report focuses on longitudinal control of heterogeneous platoon. Firstly,...
International audienceIn this paper, a nonlinear predictive control of a platoon of several vehicles...
Abstract—In this paper, we consider the longitudinal control problem for a platoon of vehicles with ...
Platooning technology offers great benefits to society when it comes to increasing road capacity, fu...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
Connected and autonomous driving technology is a current research hotspot, which can effectively eas...
This paper proposes a distributed model reference adaptive controller (DMRAC) for vehicle platoons w...
Abstract Control of vehicle platoon can effectively reduce the traffic accidents caused by fatigue d...
The development of vehicle-to-vehicle (V2V) improves the cooperation efficiency of the connected aut...
Vehicle platooning gains its popularity in improving traffic capacity, safety and fuel saving. The k...
Platoon-based vehicular cyber-physical systems have gained increasing attention due to their potenti...
In this paper, the vehicle platoon control problems for a group of heterogeneous vehicles are invest...
This paper considers the cooperative control problem of heterogeneous nonlinear vehicle platooning s...
Vehicle platooning is a promising cooperative driving vision where a group of consecutive connected...
This paper considers the multi-objective platooning control problem of a group of connected and auto...
The work presented in this report focuses on longitudinal control of heterogeneous platoon. Firstly,...
International audienceIn this paper, a nonlinear predictive control of a platoon of several vehicles...
Abstract—In this paper, we consider the longitudinal control problem for a platoon of vehicles with ...
Platooning technology offers great benefits to society when it comes to increasing road capacity, fu...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...