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Kinematic and dynamic adaptive control of a nonholonomic mobile robot using a RNN

contributor IPVS, Bildverstehen
creator Oubbati, Mohamed
Michael, Schanz
Levi, Paul
date 2005-06-27
description In this paper, an adaptive neurocontrol system with two levels is proposed for the motion control of a nonholonomic mobile robot. In the first level, a recurrent network improves the robustness of a kinematic controller and generates linear and angular velocities, necessary to track a reference trajectory. In the second level, another network converts the desired velocities, provided by the first level, into a torque control. The advantage of the control approach is that, no knowledge about the dynamic model is required, and no synaptic weight changing is needed in presence of parameters variation. This capability is acquired through prior meta-learning. Simulation results are demonstrated to validate the robustness of the proposed approach.
identifier  http://www.informatik.uni-stuttgart.de/cgi-bin/NCSTRL/NCSTRL_view.pl?id=INPROC-2005-35&engl=1
language eng
publisher Helsinki, Finland: IEEE
relation IEEE
source In: Proceedings of the 6th IEEE Symposium on Computational Intelligence in Robtics and Automation (CIRA05), pp. 27-33
subject Robotics (CR I.2.9)
Artificial Intelligence (CR I.2)
Nonholonomic mobile robots
adaptive control
recurrent neural networks
meta-learning
title Kinematic and dynamic adaptive control of a nonholonomic mobile robot using a RNN
type Text
Article in Proceedings