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Intelligent vehicle lane change trajectory control algorithm based on weight coefficient adaptive adjustment

Junnian Wang, F.C. Teng, Jing Li, Liguo Zang, Tianxin Fan, Jiaxu Zhang, Xingyu Wang

2021Advances in Mechanical Engineering23 citationsDOIOpen Access PDF

Abstract

In order to improve the trajectory smoothness and the accuracy of lane change control, an adaptive control algorithm based on weight coefficient was proposed. According to lane change trajectory constraint conditions, the sixth-order polynomial lane change trajectory applied to intelligent vehicles was constructed. Based on the vehicle model and the model predictive control theory, the time-varying linear variable path vehicle predictive model was derived by combining soft constraint of the side slip angle. Combined with fuzzy control algorithm, the weight coefficient of the deviation of the lateral displacement was dynamically adjusted. Finally, the FMPC (model predictive controller based on fuzzy control) and MPC controller were compared and analyzed by co-simulation of CarSim and Simulink under different speeds. The simulation results show that the designed FMPC controller can track the lane change trajectory better, and the controller has better robustness when the vehicle changes lanes at different speeds.

Topics & Concepts

CarSimControl theory (sociology)TrajectoryModel predictive controlRobustness (evolution)Controller (irrigation)Fuzzy logicComputer scienceVehicle dynamicsMathematicsEngineeringArtificial intelligenceControl (management)BiologyAgronomyChemistryPhysicsAutomotive engineeringBiochemistryAstronomyGeneAutonomous Vehicle Technology and SafetyVehicle Dynamics and Control SystemsRobotic Path Planning Algorithms
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