Type: Article
Adaptive fuzzy control for a class of constrained nonlinear systems with application to a surface vessel
Journal: Journal of Theoretical and Applied Mechanics (14292955)Year: 2016Volume: 54Issue: Pages: 987 - 1000
Abstract
In this paper, adaptive control for a class of uncertain nonlinear systems with input constraints is addressed. The main goal is to achieve a self-regulator PID controller whose coefficients are adjusted by using some adaptive fuzzy rules. The constraints on the control signal are taken into account as a saturation operator. The stability of the closed-loop system is analytically proved by using the Lyapunov stability theorem. The proposed method is then applied to a surface vessel with uncertain dynamic equations. The simulation results show the effectiveness of the proposed control strategy.
Author Keywords
Constraint nonlinear systemsFuzzy estimationFuzzy pid controllerSelf-regulatorUncertainty
Other Keywords
Closed loop systemsControllersElectric control equipmentFuzzy controlFuzzy inferenceNonlinear systemsProportional control systemsThree term control systemsConstrained nonlinear systemsFuzzy estimationFuzzy PID controllerLyapunov stability theoremSelf-regulatorUncertain dynamic equationsUncertain nonlinear systemsUncertaintyAdaptive control systems