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Auteurs principaux: Kebbati, Yassine, Ait-Oufroukh, Naima, Vigneron, Vincent, Ichalal, Dalil
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2509.19529
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author Kebbati, Yassine
Ait-Oufroukh, Naima
Vigneron, Vincent
Ichalal, Dalil
author_facet Kebbati, Yassine
Ait-Oufroukh, Naima
Vigneron, Vincent
Ichalal, Dalil
contents Autonomous driving is achieved by controlling the coupled nonlinear longitudinal and lateral vehicle dynamics. Longitudinal control greatly affects lateral dynamics and must preserve lateral stability conditions, while lateral controllers must take into account actuator limits and ride comfort. This work deals with the coordinated longitudinal and lateral control for autonomous driving. An improved particle swarm optimized PID (PSO-PID) is proposed to handle the task of speed tracking based on nonlinear longitudinal dynamics. An enhanced linear parameter varying model predictive controller (LPV-MPC) is also designed to control lateral dynamics, the latter is formulated with an adaptive LPV model in which the tire cornering stiffness coefficients are estimated by a recursive estimator. The proposed LPV-MPC is enhanced with an improved cost function to provide better performance and stability. Matlab/Carsim co-simulations are carried out to validate the proposed controllers. Code can be found here: https://github.com/yassinekebbati/PSO_PID-with-LPV_MPC-for-autonomous-driving
format Preprint
id arxiv_https___arxiv_org_abs_2509_19529
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Coordinated PSO-PID based longitudinal control with LPV-MPC based lateral control for autonomous vehicles
Kebbati, Yassine
Ait-Oufroukh, Naima
Vigneron, Vincent
Ichalal, Dalil
Optimization and Control
Autonomous driving is achieved by controlling the coupled nonlinear longitudinal and lateral vehicle dynamics. Longitudinal control greatly affects lateral dynamics and must preserve lateral stability conditions, while lateral controllers must take into account actuator limits and ride comfort. This work deals with the coordinated longitudinal and lateral control for autonomous driving. An improved particle swarm optimized PID (PSO-PID) is proposed to handle the task of speed tracking based on nonlinear longitudinal dynamics. An enhanced linear parameter varying model predictive controller (LPV-MPC) is also designed to control lateral dynamics, the latter is formulated with an adaptive LPV model in which the tire cornering stiffness coefficients are estimated by a recursive estimator. The proposed LPV-MPC is enhanced with an improved cost function to provide better performance and stability. Matlab/Carsim co-simulations are carried out to validate the proposed controllers. Code can be found here: https://github.com/yassinekebbati/PSO_PID-with-LPV_MPC-for-autonomous-driving
title Coordinated PSO-PID based longitudinal control with LPV-MPC based lateral control for autonomous vehicles
topic Optimization and Control
url https://arxiv.org/abs/2509.19529