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Prescribed-Time Control for Perturbed Euler-Lagrange Systems With Obstacle Avoidance

Amir Shakouri, Nima Assadian

2021IEEE Transactions on Automatic Control56 citationsDOIOpen Access PDF

Abstract

This article introduces a class of time-varying controllers for Euler-Lagrange systems such that the convergence occurs at an arbitrary finite time, independently of initial conditions, and free of chattering. The proposed controller is based on a mapping technique and is designed in two steps: First, a conventional (obstacle avoidance) asymptotically stable controller is specified for the nominal system; then, by a simple substitution, a prescribed-time (obstacle avoidance) controller is achievable for the perturbed system. It is proved that the proposed scheme is uniformly prescribed-time stable for unperturbed systems and prescribed-time attractive for perturbed systems as it rejects matched disturbances with unknown upper bounds without disturbance observation. As an example, a two-link robot manipulator is considered for numerical simulations.

Topics & Concepts

Control theory (sociology)Obstacle avoidanceController (irrigation)Convergence (economics)MathematicsObstacleEuler's formulaSimple (philosophy)Computer scienceRobotControl (management)Mobile robotMathematical analysisArtificial intelligenceEconomicsAgronomyLawEpistemologyPolitical scienceEconomic growthBiologyPhilosophyAdaptive Control of Nonlinear SystemsStability and Control of Uncertain SystemsAdvanced Control Systems Optimization