A CAV Platoon Control Method for Isolated Intersections: Guaranteed Feasible Multi-Objective Approach with Priority

A CAV Platoon Control Method for Isolated Intersections: Guaranteed Feasible Multi-Objective Approach with Priority

Blog Article

This paper proposed a multi-objective guaranteed feasible connected and autonomous vehicle (CAV) platoon control method for signalized isolated intersections with priorities.Specifically, we prioritized the intersection throughput and traffic efficiency under a pre-defined signal cycle, based on which we minimized fuel consumption and emissions for CAV platoons.Longitudinal safety was also considered as a necessary condition.To handle the aforementioned targets, we firstly designed a vehicular sub-platoon splitting algorithm based on Farkas lemma lochby venture pouch to accommodate a maximum number of vehicles for each signal green time phase.Secondly, the CAV optimal trajectories control algorithm was designed as a centralized cooperative model predictive control stuart products emcelle tocopherol (MPC).

Moreover, the optimal control problem was formulated as discrete linear quadratic control problems with constraints with receding predictive horizons, which can be efficiently solved by quadratic programming after reformulation.For rigor, the proofs of the recursive feasibility and asymptotic stability of our proposed predictive control model were provided.For evaluation, the performance of the control algorithm was compared against a non-cooperative distributed CAV control through simulation.It was found that the proposed method can significantly enhance both traffic efficiency and energy efficiency with ensured safety for CAV platoons at urban signalized intersections.