Abstract
Trajectory tracking and state estimation are significant in the motion planning and intelligent vehicle control. This article focuses on the model predictive control approach for the trajectory tracking of the intelligent vehicles and state estimation of the nonlinear vehicle system. The constraints of the system states are considered when applying the model predictive control method to the practical problem, while 4-degree-of-freedom vehicle model and unscented Kalman filter are proposed to estimate the vehicle states. The estimated states of the vehicle are used to provide model predictive control with real-time control and judge vehicle stability. Furthermore, in order to decrease the cost of solving the nonlinear optimization, the linear time-varying model predictive control is used at each time step. The effectiveness of the proposed vehicle state estimation and model predictive control method is tested by driving simulator. The results of simulations and experiments show that great and robust performance is achieved for trajectory tracking and state estimation in different scenarios.
Highlights
With the development of the intelligent transportation technology, intelligent vehicles have stepped into our daily lives
Google has already tested autonomous cars successfully. Several automotive companies such as Volvo, Ford, and Tesla have developed new intelligent vehicles with claims that autonomous cars will become available for limited markets by 2030
The work is presented to investigate the model predictive control (MPC) method in the trajectory tracking with the nonlinear state estimation of the vehicle
Summary
With the development of the intelligent transportation technology, intelligent vehicles have stepped into our daily lives. Keywords Intelligent vehicle, trajectory tracking, unscented Kalman filter, state estimation, model predictive control The work is presented to investigate the MPC method in the trajectory tracking with the nonlinear state estimation of the vehicle.
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