Abstract
For intelligent vehicles, trajectory tracking control is of vital importance. However, due to the cut-in possibility of adjacent vehicles, trajectory planning of intelligent vehicles is challenging. Therefore, this paper proposes a trajectory tracking control method based on cut-in behavior prediction. A method of cut-in intention recognition is adopted to judge the possibility of adjacent vehicle and the driver preview model is used to predict the trajectory of the cut-in vehicle. The three driving scenarios are divided to manage trajectory planning under different cut-in behaviors. At the same time, the safety distance model is established as the basis for scene conversion. Taking the predicted trajectory of the cut-in vehicle as a reference, the model predictive control (MPC) method is used to plan and control the driving trajectory of the subject vehicle, so as to realize the coordinated control of the subject vehicle and the cut-in vehicle. Finally, the simulation shows that the subject vehicle can effectively recognize the cut-in intention of the adjacent vehicle and predict its trajectory. Facing with the cut-in vehicle, the subject vehicle can take appropriate control actions in advance to ensure the safety. Finally, a smoother coordinate control process is obtained between the subject vehicle and the cut-in vehicle.
Highlights
With the rapid development of computer, electronics, and sensor technologies, the era of artificial intelligence has arrived
In order to ensure that the intelligent vehicle always maintains a smooth control process, the cut-in intention of the adjacent vehicle needs to be recognized in advance, and its predicted trajectory becomes a part of the reference for trajectory planning of the subject vehicle
The trajectory tracking control method provided in this article was verified by the Simulink platform
Summary
With the rapid development of computer, electronics, and sensor technologies, the era of artificial intelligence has arrived. Complex driving scenarios are still challenging for intelligent driving vehicles, for example, the adjacent vehicles in adjacent lanes cut in the front of the subject vehicle. When an adjacent vehicle cuts in, the intelligent vehicle has to follow its own reference trajectory, and has to respond to the cut-in vehicle, such as emergency braking, to ensure the safety between the adjacent vehicle and the subject vehicle [4]. In order to ensure that the intelligent vehicle always maintains a smooth control process, the cut-in intention of the adjacent vehicle needs to be recognized in advance, and its predicted trajectory becomes a part of the reference for trajectory planning of the subject vehicle. The cut-in behavior prediction of the adjacent vehicle has important significance for the trajectory tracking control for intelligent vehicles
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