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A New Adaptive RISE Feedforward Approach based on Associative Memory Neural Networks for the Control of PKMs

Abstract : In this paper, a RISE (Robust Integral of the Sign Error) controller with adaptive feedforward compensation terms based on Associative Memory Neu-ral Network (AMNN) type B-Spline is proposed to regulate the positioning of a Delta Parallel Robot (DPR) with three degrees of freedom. Parallel Kinematic Manipulators (PKMs) are highly nonlinear systems, so the design of a suitable control scheme represents a significant challenge given that these kinds of systems are continually dealing with parametric and non-parametric uncertainties and external disturbances. The main contribution of this work is the design of an adaptive feedforward compensation term using B-Spline Neural Networks (BSNNs). They make an on-line approximation of the DPR dynamics and integrates it into the control loop. The BSNNs' functions are bounded according to the extreme values of the desired joint space trajectories that are the BSNNs' inputs, and their weights are on-line adjusted by gradient descend rules. In order to evaluate the effectiveness of the proposed control scheme with respect to the standard RISE controller, numerical simulations for different case studies under different scenarios were performed.
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Submitted on : Monday, August 31, 2020 - 10:22:31 AM
Last modification on : Friday, August 5, 2022 - 3:03:30 PM
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Jonatan Martín Escorcia-Hernández, Hipolito Aguilar-Sierra, Omar Aguilar-Mejía, Ahmed Chemori, José Humbérto Arroyo-Nuñez. A New Adaptive RISE Feedforward Approach based on Associative Memory Neural Networks for the Control of PKMs. Journal of Intelligent and Robotic Systems, Springer Verlag, 2020, 200, pp.827-847. ⟨10.1007/s10846-020-01242-9⟩. ⟨lirmm-02925920⟩



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