Sliding mode neuro-adaptive controller designed in discrete time for mobile robots

SORIA, CARLOS; ROSSOMANDO, FRANCISCO G.; CARELLI, RICARDO O.; FREIRE, EDUARDO O.

Mechatronic Systems and Control

Acta Press

Año: 2018 vol. 46 p. 55 - 63

2561-1771

It is well known that all robotic systems have additional dynamics and disturbances beyond those that are modelled. Hence, in this paper, the performance of a neuro-adaptive sliding mode control (NA-SMC) controller is analysed in the presence of disturbances and unmodelled dynamics. The proposed control strategy has two stages: first, a feedback linearization controller for a kinematic model; second, a neuro-adaptive SMC controller for a dynamic model. The entire control strategy is designed in discrete time using Lyapunov?s criterion, and the stability problems caused by direct implementation in discrete time to a system designed in a continuous domain are thereby avoided. The unmodelled dynamics introduce tracking errors in the closed-loop system; however, experiments made using the proposed approach to control mobile robots show that output tracking error tends to zero.