Motion Planning for Autonomous Vehicles: When Model Predictive Control Meets Ensemble Kalman Smoothing

Safe and efficient motion planning is of fundamental importance for autonomous vehicles. This paper investigates motion planning based on nonlinear model predictive control (NMPC) over a neural network vehicle model. We aim to overcome the high computational costs that arise in NMPC of the neural network model due to the highly nonlinear and nonconvex optimization. In a departure from numerical optimization solutions, we reformulate the problem of NMPC-based motion planning as a Bayesian estimation problem, which seeks to infer optimal planning decisions from planning objectives. Then, we use a sequential ensemble Kalman smoother to accomplish the estimation task, exploiting its high computational efficiency for complex nonlinear systems. The simulation results show an improvement in computational speed by orders of magnitude, indicating the potential of the proposed approach for practical motion planning.

@article{askari2025_2505.06666,
  title={ Motion Planning for Autonomous Vehicles: When Model Predictive Control Meets Ensemble Kalman Smoothing },
  author={ Iman Askari and Yebin Wang and Vedeng M. Deshpande and Huazhen Fang },
  journal={arXiv preprint arXiv:2505.06666},
  year={ 2025 }
}