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Adaptive fractional tracking control of robotic manipulator using fixed-time method

Saim Ahmed, Ahmad Taher Azar

2023Complex & Intelligent Systems56 citationsDOIOpen Access PDF

Abstract

Abstract This paper proposes an adaptive fractional-order sliding mode controller to control and stabilize a nonlinear uncertain disturbed robotic manipulator in fixed-time. Fractional calculus is used to construct a fractional-order sliding mode controller (FtNTSM) that suppresses chattering to help the robotic manipulator converge to equilibrium in a fixed-settling time based on fixed-time stability theory. Then, adaptive control is introduced and combined with FtNTSM to overcome the unknown system dynamics. The convergence time of the proposed fixed-time fractional-order sliding mode controller (AFtNTSM) is independent of beginning circumstances and can be precisely assessed, unlike the finite-time control approach. Finally, numerical simulations show that the adaptive fractional-order sliding mode controller outperforms finite-time sliding mode controller.

Topics & Concepts

Settling timeControl theory (sociology)Controller (irrigation)Sliding mode controlConvergence (economics)Nonlinear systemAdaptive controlMode (computer interface)Fractional calculusComputer scienceComputational intelligenceMathematicsStability (learning theory)Control engineeringControl (management)EngineeringApplied mathematicsArtificial intelligenceStep responseQuantum mechanicsEconomicsEconomic growthBiologyOperating systemAgronomyPhysicsMachine learningAdvanced Control Systems DesignAdaptive Control of Nonlinear SystemsExtremum Seeking Control Systems
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