We prove the existence of a P-type (proportional-type) space-learning control, which, on the basis of a kinematic third order nonlinear model of an autonomous nonholonomic vehicle and by a proper choice of the proportional control gain, guarantees asymptotic tracking of planar curves whose uncertain curvature is LL-periodic in the curvilinear abscissa. The behavior of a human driver, who repetitively learns the correct action from the past experience in the space, is mathematically reproduced. A stability analysis is presented while simulation results demonstrate the effectiveness of the presented approach.
Consolini, L., Verrelli, C.m. (2014). Learning control in spatial coordinates for the path-following of autonomous vehicles. AUTOMATICA, 50(7), 1867-1874 [10.1016/j.automatica.2014.05.002].
Learning control in spatial coordinates for the path-following of autonomous vehicles
VERRELLI, CRISTIANO MARIA
2014-01-01
Abstract
We prove the existence of a P-type (proportional-type) space-learning control, which, on the basis of a kinematic third order nonlinear model of an autonomous nonholonomic vehicle and by a proper choice of the proportional control gain, guarantees asymptotic tracking of planar curves whose uncertain curvature is LL-periodic in the curvilinear abscissa. The behavior of a human driver, who repetitively learns the correct action from the past experience in the space, is mathematically reproduced. A stability analysis is presented while simulation results demonstrate the effectiveness of the presented approach.| File | Dimensione | Formato | |
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