2020
DOI: 10.1155/2020/8813217
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Trajectory Tracking of a Flexible Robot Manipulator by a New Optimized Fuzzy Adaptive Sliding Mode-Based Feedback Linearization Controller

Abstract: This work presents a novel fuzzy adaptive sliding mode-based feedback linearization controller for trajectory tracking of a flexible robot manipulator. To reach this goal, after deriving the dynamical equations of the robot, the feedback linearization approach is utilized to change the nonlinear dynamics to a linear one and find the control law. Then, the sliding mode control strategy is implemented to design a stabilizer for trajectory tracking of the flexible robot. In order to adaptively tune the pa… Show more

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Cited by 6 publications
(3 citation statements)
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References 63 publications
(74 reference statements)
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“…In Reference [24], the adaptive fuzzy sliding mode controller is proposed to stabilise the attitude of the flexible satellite. In Reference [25], a fuzzy adaptive sliding mode-based feedback linearisation controller is proposed. A feedback linearisation approach is utilised to change the nonlinear dynamics to a linear dynamics; then, a sliding mode control strategy is implemented as a trajectory tracking controller.…”
Section: Type Of Robots Humanoid Robot Snake Robot Rehabilitation Robotmentioning
confidence: 99%
“…In Reference [24], the adaptive fuzzy sliding mode controller is proposed to stabilise the attitude of the flexible satellite. In Reference [25], a fuzzy adaptive sliding mode-based feedback linearisation controller is proposed. A feedback linearisation approach is utilised to change the nonlinear dynamics to a linear dynamics; then, a sliding mode control strategy is implemented as a trajectory tracking controller.…”
Section: Type Of Robots Humanoid Robot Snake Robot Rehabilitation Robotmentioning
confidence: 99%
“…It starts from the initial population and selects the best individual in the current cluster based on the evaluation function values of all corresponding individuals. It uses intersection and mutation to generate new subclusters [32], which evolve the clusters into better regions to find the optimal solution. The main calculation process is as follows:…”
Section: Displacement Trajectory Optimization Of Picking Robotmentioning
confidence: 99%
“…For this reason, many studies have been conducted in this field by various methods to investigate tracking and stability, including controller designs based on the Lyapunov method [6], the adaptive control method [7,8], the sliding mode method [9][10][11][12], the feedback linearization method [13], robust control [14,15], the fuzzy method [16,17], the backtracking method [18], a combination of the fuzzy methods of neural networks [19,20], etc. In [21], an optimal proportional-derivative controller based on feedback linearization is designed for tracking the trajectory of a wheeled robot. In other research, the active observer control method based on the Kalman filter for the dynamic control of mobile robots is proposed [22].…”
Section: Introductionmentioning
confidence: 99%