Adaptive sliding mode control for trajectory tracking of nonholonomic mobile robot with uncertain kinematics and dynamics

Yasmine Koubaa; Mohamed Boukattaya; Tarak Damak

doi:10.1080/08839514.2018.1519100

Applied Artificial Intelligence (Nov 2018)

Adaptive sliding mode control for trajectory tracking of nonholonomic mobile robot with uncertain kinematics and dynamics

Yasmine Koubaa,
Mohamed Boukattaya,
Tarak Damak

Affiliations

Yasmine Koubaa: National School of Engineering of Sfax
Mohamed Boukattaya: National School of Engineering of Sfax
Tarak Damak: National School of Engineering of Sfax

DOI: https://doi.org/10.1080/08839514.2018.1519100
Journal volume & issue: Vol. 32, no. 9-10
pp. 924 – 938

Abstract

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This article designs a novel adaptive trajectory tracking controller for nonholonomic wheeled mobile robot under kinematic and dynamic uncertainties. A new velocity controller, in which kinematic parameter is estimated, produces velocity command of the robot. The designed adaptive sliding mode dynamic controller incorporates an estimator term to compensate for the external disturbances and dynamic uncertainties and a feedback term to improve the closed-loop stability and account for the estimation error of external disturbances. The system stability is analyzed using Lyapunov theory. Computer simulations affirm the robustness of the designed control scheme.

Published in Applied Artificial Intelligence

ISSN: 0883-9514 (Print); 1087-6545 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Science: Mathematics: Instruments and machines: Electronic computers. Computer science; Science: Science (General): Cybernetics
Website: https://www.tandfonline.com/journals/uaai

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