Title :
Globally asymptotically stable position control for an autonomous mobile robot
Author :
Tarin, C. ; Brugger, H. ; Tibken, B. ; Hofer, E.P.
Author_Institution :
Dept. of Meas., Control & Microtechnol., Univ. of Ulm, Ulm, Germany
fDate :
Aug. 31 1999-Sept. 3 1999
Abstract :
In this paper we design a position controller for an autonomous mobile robot, a nonlinear nonholonomic control system. The designed time invariant non smooth stabilizing control law assures limitation of the velocity inputs, human like driving behaviour and smooth trajectories. The global asymptotic stability of the closed loop system is proved using the Lyapunov stability theory and the In-variance Principle of La Salle and Lefschetz. Moreover a real time software environment is developed for implementing the designed controller on a real platform, which is in our case the autonomous mobile robot B21 from Real World Interface (RWI). Experimental results demonstrate the excellent performance of the designed contoller.
Keywords :
Lyapunov methods; asymptotic stability; closed loop systems; invariance; mobile robots; nonlinear control systems; position control; B21 autonomous mobile robot; Lyapunov stability theory; RWI; Real World Interface; closed loop system; global asymptotic stability; invariance principle; nonlinear nonholonomic control system; position control; software environment; time invariant nonsmooth stabilizing control law design; Asymptotic stability; Closed loop systems; Conferences; Lyapunov methods; Mobile robots; Trajectory; Autonomous Mobile Robot; Nonlinear and Complex Systems; Position Control;
Conference_Titel :
Control Conference (ECC), 1999 European
Conference_Location :
Karlsruhe
Print_ISBN :
978-3-9524173-5-5
