Robust and adaptive chatter free formation control of wheeled mobile robots with uncertainties

Robust and adaptive chatter free formation control of wheeled mobile robots with uncertainties

This paper addresses the robust formation control of non-holonomic mobile robots with homogeneous system architecture and decentralized control structure. Therefore, it was necessary the mathematical modeling of mobile robots, from which, the Separation-Bearing variant of Leader-Following control st...

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Bibliographic Details
Main Authors: Maximilian Jaderson DE MELO, Mauricio BEGNINI, Heber Rabelo DA SILVA, Marcelo Christiano DA FRANÇA JÚNIOR
Format: Article
Language:English
Published: Ediciones Universidad de Salamanca 2018-12-01
Series:Advances in Distributed Computing and Artificial Intelligence Journal
Subjects:
wheeled mobile robots
robust formation control
leader-following
sliding mode control.
Online Access:https://revistas.usal.es/index.php/2255-2863/article/view/17382
Description
Summary:This paper addresses the robust formation control of non-holonomic mobile robots with homogeneous system architecture and decentralized control structure. Therefore, it was necessary the mathematical modeling of mobile robots, from which, the Separation-Bearing variant of Leader-Following control strategy was implemented. The stability proof were based on the Lyapunov theory. The sliding mode control (SMC) strategy was used in the controller design to make the control robust to the incidence of uncertainties and disturbances. The Fuzzy Adaptive Formation Control is designed to eliminate the  previous bounding knowledge of these uncertainties and disturbances. The proposed control effectiveness is demonstrated by results obtained with simulations in Matlab/Simulink. The pure kinematic and kinematic with disturbances is also analyzed. The results shows the controllers effectiveness to formation of multi-robots systems to the eight-shaped trajectory.
ISSN:2255-2863

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