This paper investigates the stabilization problem for discrete-time linear controllable systems subject to actuator saturation. In the case of completely known plants, a control design technique based on a time varying sliding surface is proposed ensuring stabilization under the assumption of availability of all state measurements. Further, in the presence of matched disturbances with known constant bound, a discrete time sliding mode controller is proposed ensuring plant practical stabilization, and a conservative estimate of the attraction domain is given. Theoretical results have been validated by experimental data using a twin-rotor system.
Stabilization of discrete-time linear systems with saturating actuators using sliding modes: application to a twin-rotor system / Corradini, Maria Letizia; Cristofaro, Andrea; Orlando, G.. - (2011), pp. 8237-8242. (Intervento presentato al convegno 50th IEEE Conference on Decision and Control and European Control Conference tenutosi a Orlando, FL; United States) [10.1109/CDC.2011.6160601].
Stabilization of discrete-time linear systems with saturating actuators using sliding modes: application to a twin-rotor system
CRISTOFARO, ANDREA
;
2011
Abstract
This paper investigates the stabilization problem for discrete-time linear controllable systems subject to actuator saturation. In the case of completely known plants, a control design technique based on a time varying sliding surface is proposed ensuring stabilization under the assumption of availability of all state measurements. Further, in the presence of matched disturbances with known constant bound, a discrete time sliding mode controller is proposed ensuring plant practical stabilization, and a conservative estimate of the attraction domain is given. Theoretical results have been validated by experimental data using a twin-rotor system.| File | Dimensione | Formato | |
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