Real-Time Constrained Trajectory Planning and Vehicle Control for Proactive Autonomous Driving with Road Users
Paper in proceeding, 2019
For motion planning and control of autonomous vehicles to be proactive and safe, pedestrians' and other road users' motions must be considered. In this paper, we present a vehicle motion planning and control framework, based on Model Predictive Control, accounting for moving obstacles. Measured pedestrian states are fed into a prediction layer which translates each pedestrians' predicted motion into constraints for the MPC problem.
Simulations and experimental validation were performed with simulated crossing pedestrians to show the performance of the framework. Experimental results show that the controller is stable even under significant input delays, while still maintaining very low computational times. In addition, real pedestrian data was used to further validate the developed framework in simulations.
Simulations and experimental validation were performed with simulated crossing pedestrians to show the performance of the framework. Experimental results show that the controller is stable even under significant input delays, while still maintaining very low computational times. In addition, real pedestrian data was used to further validate the developed framework in simulations.
road user avoidance
model predictive control
autonomous driving
Author
Ivo Batkovic
Chalmers, Electrical Engineering, Systems and control
Mario Zanon
IMT School for Advanced Studies
Paolo Falcone
Chalmers, Electrical Engineering, Systems and control
Mohammad Ali
Zenuity AB
2019 18th European Control Conference, ECC 2019
256-262
978-3-907144-00-8 (ISBN)
18th European Control Conference (ECC)
Neapel, Italy,
Neapel, Italy,
Subject Categories
Control Engineering
DOI
10.23919/ECC.2019.8796099
ISBN
9783907144008