A nonlinear robust control design for the levitation and propulsion of a magnetic levitation (maglev) system is presented. The maglev dynamics under consideration are nonlinear and contain uncertain dynamics including negative damping due to eddy currents. The proposed recursive controller is designed using nonlinear state transformation and Lyapunov's direct method in order to guarantee global stability for the nonlinear maglev system. Simulation results are provided to show the effectiveness of the proposed control design.
Nonlinear robust control design for levitation and propulsion of a maglev system
01.07.2004
5 pages
Aufsatz (Zeitschrift)
Englisch
negative damping , eddy currents , control system synthesis , Lyapunov methods , propulsion control system , recursive control , Lyapunov method , magnetic levitation , magnetic levitation system , eddy current , nonlinear control systems , vehicles , global stability , robust control , nonlinear robust control design
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