This paper considers the multi-objective platooning control problem of a group of connected and automated vehicles (CAVs) with bidirectional topologies. A new distributed economic model predictive control (DEMPC) algorithm is presented to reconcile the conflict of the control objectives of tracking, safety, stability and fuel economy of the heterogeneous vehicle platoon with guaranteed string stability. Using transient engine energy efficiency indices and cooperative performance of tracking and string stability, two distributed receding horizon optimal control problems are orderly formulated by a Lyapunov-based coupling constraint. Moreover, a new concept of ɣ -string stability is defined for the platoon with bidirectional topologies. Some ...
This paper considers the design of a feedback robust model predictive control (MPC) algorithm for ve...
Vehicle platooning gains its popularity in improving traffic capacity, safety and fuel saving. The k...
With inland transportation increasing every passing day, vehicle platooning offers a good solution t...
Abstract Control of vehicle platoon can effectively reduce the traffic accidents caused by fatigue d...
This paper considers the cooperative control problem of heterogeneous nonlinear vehicle platooning s...
The rapidly developing computing and communication technologies improve the autonomy of individual v...
This thesis considers decentralized control and distributed control for vehicle platoons and more ge...
In this paper, the vehicle platoon control problems for a group of heterogeneous vehicles are invest...
This work aims at developing and testing a novel Coalitional Distributed Model Predictive Control (C...
\u3cp\u3eThis paper proposes a distributed model predictive control algorithm for vehicle platooning...
Vehicle platooning became an interesting topic in the last years, many researchers and practitioners...
Connected and autonomous driving technology is a current research hotspot, which can effectively eas...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
Vehicle platooning (enforcing the vehicles to follow each other and to maintain a safe distance betw...
This paper considers the design of a feedback robust model predictive control (MPC) algorithm for ve...
Vehicle platooning gains its popularity in improving traffic capacity, safety and fuel saving. The k...
With inland transportation increasing every passing day, vehicle platooning offers a good solution t...
Abstract Control of vehicle platoon can effectively reduce the traffic accidents caused by fatigue d...
This paper considers the cooperative control problem of heterogeneous nonlinear vehicle platooning s...
The rapidly developing computing and communication technologies improve the autonomy of individual v...
This thesis considers decentralized control and distributed control for vehicle platoons and more ge...
In this paper, the vehicle platoon control problems for a group of heterogeneous vehicles are invest...
This work aims at developing and testing a novel Coalitional Distributed Model Predictive Control (C...
\u3cp\u3eThis paper proposes a distributed model predictive control algorithm for vehicle platooning...
Vehicle platooning became an interesting topic in the last years, many researchers and practitioners...
Connected and autonomous driving technology is a current research hotspot, which can effectively eas...
Automated vehicles are designed to free drivers from driving tasks and are expected to improve traff...
Vehicle platooning (enforcing the vehicles to follow each other and to maintain a safe distance betw...
This paper considers the design of a feedback robust model predictive control (MPC) algorithm for ve...
Vehicle platooning gains its popularity in improving traffic capacity, safety and fuel saving. The k...
With inland transportation increasing every passing day, vehicle platooning offers a good solution t...