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The purpose of this research is to develop an advanced driver assistance system (ADAS) for the integrated longitudinal and lateral guidance of vehicles in high speed lane change maneuver. At the first step, the ADAS by considering the target vehicle position, the speed limit of the road and the available range of longitudinal acceleration produced several trajectories with different acceleration. Then, by considering vehicle and tire dynamics, the optimal trajectory is selected. Therefore, the chosen trajectory is collision free and feasible. Because the trajectory planning is carried out algebraically, its computational cost is low. This feature is very valuable in the experimental implementation. In the next step, using a combined longitudinal-lateral controller, the control inputs are calculated and transmitted to the brake/gas and steering actuators. The integrated controller design is based on sliding mode technique. Trajectory planning and controller design is based on a nonlinear tire model. Simulation results are presented and the results show the effectiveness of the integrated longitudinal and lateral guidance system.

Keywords: Advanced Driver Assistant System, High Speed Drives, Trajectory Planning, Integrated Longitudinal & Lateral Control, Nonlinear Bicycle Model

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