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Model-free adaptive iterative learning integral terminal sliding mode control of exoskeleton robots

Babak Esmaeili, Seyedeh Sepideh Madani, Mina Salim, Mahdi Baradarannia, Sohrab Khanmohammadi

2021Journal of Vibration and Control26 citationsDOI

Abstract

This article addresses the reference tracking issue of multi-degree-of-freedom robotic exoskeletons under exogenous perturbations. First, by considering the concept of iteration-dependent full-format dynamic linearization, the exoskeleton robot’s dynamics is reformulated as a linear data model in an iterative manner. Then, based upon an iterative sliding variable, a novel data-based model-free adaptive iterative learning integral terminal sliding mode control is designed. The superiority of the proposed study is that the reference tracking problem is just solved by using the measured input/output information of exoskeletons. In addition, its finite-iteration convergence is also affirmed by mathematical analysis. The simulation investigation together with the compared results also clarifies the efficiency of the developed learning-based control algorithm.

Topics & Concepts

Iterative learning controlControl theory (sociology)Convergence (economics)Computer scienceLinearizationTrajectoryRobotExoskeletonTerminal sliding modeIterative methodTracking (education)Sliding mode controlControl engineeringArtificial intelligenceEngineeringControl (management)Nonlinear systemAlgorithmSimulationEconomic growthQuantum mechanicsPedagogyAstronomyEconomicsPhysicsPsychologyIterative Learning Control SystemsPiezoelectric Actuators and ControlControl Systems in Engineering
Model-free adaptive iterative learning integral terminal sliding mode control of exoskeleton robots | Litcius