Situational Nonlinear Model Predictive Control for Autonomous Driving

This paper presents a situational nonlinear model predictive control (SNMPC) approach for path following in autonomous driving. The reference path is generated using Bernstein polynomials and Bezier curves. Different criteria and weightings are determined in different driving situations. The resulting nonlinear programming problems are solved by the method of combined multiple shooting with collocation. Based on a nonlinear bicycle model, the performance of a conventional model predictive controller and the situational one is compared with a driving scenario including straight ahead driving and highly dynamic obstacle avoidance. The results show the potential for a real-time application of the proposed approach.