Litcius/Paper detail

Platoon Control of Connected Multi-Vehicle Systems Under V2X Communications: Design and Experiments

Yongfu Li, Wenbo Chen, Srinivas Peeta, Yibing Wang

2020IEEE Transactions on Intelligent Transportation Systems189 citationsDOI

Abstract

This paper focuses on platoon control of multi-vehicle systems in a realistic vehicle-to-vehicle/vehicle-to-infrastructure (V2V/V2I, or V2X) communication environment. To this end, the communication probability of the beacon transmission is analyzed based on the carrier sense multiple access with collision avoidance (CSMA/CA) mechanism. Then, a new car-following model is proposed by considering the communication probability to capture the car-following behavior of connected vehicles (CVs) equipped with V2X communications. The stability of the proposed car-following model is analyzed using the perturbation method. In addition, a nonlinear consensus-based longitudinal control algorithm is designed by considering the interactions between CVs, and an artificial function-based lateral control algorithm is presented. The convergence of the longitudinal and lateral control algorithms is analyzed using the Hurwitz stable theorem and Lyapunov technique, respectively. Also, the string stability of the vehicular platoon is performed based on the infinity-norm method. Finally, field experiments are conducted using four CVs under the scenarios of platoon forming, vehicle merging, and vehicle diverging. The results verify the effectiveness of the proposed method in terms of the trajectory and velocity profiles.

Topics & Concepts

PlatoonLyapunov functionControl theory (sociology)Vehicle dynamicsConvergence (economics)EngineeringTrajectoryElectronic stability controlLyapunov stabilityComputer scienceNonlinear systemControl (management)Automotive engineeringArtificial intelligenceEconomic growthEconomicsPhysicsQuantum mechanicsAstronomyTraffic control and managementVehicular Ad Hoc Networks (VANETs)Autonomous Vehicle Technology and Safety