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Regulation of a nonholonomic dynamic wheeled mobile robot with parametric modeling uncertainty using Lyapunov functions

A. Pedro Aguiar, A.N. Atassi, A. Pascoal

Year
2002
Citations
40

Abstract

Addresses the problem of regulating the dynamic model of a nonholonomic wheeled robot of the unicycle type to a point with a desired orientation. A simple controller is derived that yields global convergence of the trajectories of the closed loop system in the presence of parametric modeling uncertainty. Controller design relies on a non-smooth coordinate transformation in the original state space, followed by the derivation of a Lyapunov-based, adaptive, smooth control law in the new coordinates. Convergence to the origin is analyzed and simulation results are presented.

Keywords

Nonholonomic systemControl theory (sociology)Lyapunov functionParametric statisticsMobile robotConvergence (economics)Controller (irrigation)Computer scienceTransformation (genetics)Adaptive control

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