Research on Lane-Change Decision and Planning in Multilane Expressway Scenarios for Autonomous Vehicles
Author:
Tang Chuanyin1ORCID, Pan Lv1, Xia Jifeng1, Fan Shi2
Affiliation:
1. School of Mechanical Engineering and Automation, Northeastern University, Shenyang 110819, China 2. College of Science, Northeastern University, Shenyang 110819, China
Abstract
Taking into account the issues faced by self-driving vehicles in multilane expressway scenarios, a lane-change decision planning framework that considers two adjacent lanes is proposed. Based on this framework, the lateral stability of an autonomous vehicle under near-limit conditions during lane change is studied by the phase-plane method. Firstly, a state-machine-based driving logic is designed and a decision method is proposed to design the lane-change intention based on the surrounding traffic information and to consider the influence of the motion state of other vehicles in the adjacent lanes on the self-driving vehicle. In order to realize adaptive cruising under the full working conditions of the vehicle, a safety distance model is established for different driving speeds and switching strategies for fixed-speed cruising, following driving, and emergency braking are developed. Secondly, for the trajectory planning problem, a lane-change trajectory based on a quintuple polynomial optimization method is proposed. Then, the vehicle lateral stability boundary is investigated; the stability boundary and rollover boundary are incorporated into the designed path-tracking controller to improve the tracking accuracy while enhancing the rollover prevention capability. Finally, a simulation analysis is carried out through a joint simulation platform; the simulation results show that the proposed method can ensure the driving safety of autonomous vehicles in a multilane scenario.
Funder
The Central University Basic Research Expenses Project—Strategic Emerging Project of China
Subject
Electrical and Electronic Engineering,Industrial and Manufacturing Engineering,Control and Optimization,Mechanical Engineering,Computer Science (miscellaneous),Control and Systems Engineering
Reference23 articles.
1. An LPV Approach to Autonomous Vehicle Path Tracking in the Presence of Steering Actuation Nonlinearities;Corno;IEEE Trans. Control Syst. Technol.,2021 2. Lateral Vehicle Trajectory Optimization Using Constrained Linear Time-Varying MPC;Gutjahr;IEEE Trans. Intell. Transp. Syst.,2016 3. Longitudinal and Lateral Control for Automated Yielding Maneuvers;Nilsson;IEEE Trans. Intell. Transp. Syst.,2016 4. Fan, H., Zhu, F., Liu, C., Zhang, L., Zhuang, L., Li, D., Zhu, W., Hu, J., Li, H., and Kong, Q. (2018). Baidu Apollo EM Motion Planner. arXiv. 5. Mehdi, S.B., Choe, R., and Hovakimyan, N. (2015, January 15–18). Avoiding multiple collisions through trajectory replanning using piecewise Bézier curves. Proceedings of the 2015 54th IEEE Conference on Decision and Control (CDC), Osaka, Japan.
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