1. Real-time Nonlinear MPC Strategy with Full Vehicle Validation for Autonomous Driving
- Author
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Allamaa, Jean Pierre, Listov, Petr, Van der Auweraer, Herman, Jones, Colin, Son, Tong Duy, Allamaa, Jean Pierre, Listov, Petr, Van der Auweraer, Herman, Jones, Colin, and Son, Tong Duy
- Abstract
In this paper, we present the development and deployment of an embedded optimal control strategy for autonomous driving applications on a Ford Focus road vehicle. Non-linear model predictive control (NMPC) is designed and deployed on a system with hard real-time constraints. We show the properties of sequential quadratic programming (SQP) optimization solvers that are suitable for driving tasks. Importantly, the designed algorithms are validated based on a standard automotive XiL development cycle: model-in-the-loop (MiL) with high fidelity vehicle dynamics, hardware-in-the-loop (HiL) with vehicle actuation and embedded platform, and full vehicle-hardware-in-the-loop (VeHiL). The autonomous driving environment contains both virtual simulation and physical proving ground tracks. NMPC algorithms and optimal control problem formulation are fine-tuned using a deployable C code via code generation compatible with the target embedded toolchains. Finally, the developed systems are applied to autonomous collision avoidance, trajectory tracking, and lane change at high speed on city/highway and low speed at a parking environment., Comment: This paper appears in the proceedings of the 2022 American Control Conference (ACC)
- Published
- 2021
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