An asinh-type regulator for robot manipulators with global asymptotic stability

Reyes-Cortés, Fernando; Al‐Hadithi, Basil Mohammed

doi:10.1080/00051144.2020.1796111

“…The PSO searches for the optimum solution among these possible solutions. In this sense, in [22] PSO-based-tuning for the control gains is proposed for a hyperbolic inverse regulator with global asymptotic stability and implemented on an experimental direct-drive-robot manipulator.…”

Section: Introductionmentioning

confidence: 99%

Global Saturated Regulator with Variable Gains for Robot Manipulators

Sánchez-García

¹

,

Reyes-Cortés

²

,

Al‐Hadithi

³

et al. 2021

jrc

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In this paper we propose a set of saturated controllers with variable gains to solve the regulation problem for robot manipulators in joint space. These control schemes deliver torques inside prescribed limits of servomotors. The gamma of variable gains is formed by continuous, smooth, and differentiable functions of the joint position error and velocity of manipulator. A strict Lyapunov function is proposed to demonstrate globally asymptotic stability of the close-loop equilibrium point. Finally, the functionality and performance of the proposal is illustrated via simulation results and comparative analysis against Proportional-Derivative (PD) control scheme on a two-degrees-freedom direct-drive robot manipulator.

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Design of a control algorithm for a robot manipulator with constant gains

Garcia-Ferral

¹

,

Reyes-Cortés

²

,

Sánchez-García

³

2021

2021 XVII International Engineering Congress (CONIIN)

0

View full text Add to dashboard Cite

Global Saturated Regulator with Variable Gains for Robot Manipulators

Sánchez-García

¹

,

Reyes-Cortés

²

,

Al‐Hadithi

³

et al. 2021

jrc

View full text Add to dashboard Cite

In this paper we propose a set of saturated controllers with variable gains to solve the regulation problem for robot manipulators in joint space. These control schemes deliver torques inside prescribed limits of servomotors. The gamma of variable gains is formed by continuous, smooth, and differentiable functions of the joint position error and velocity of manipulator. A strict Lyapunov function is proposed to demonstrate globally asymptotic stability of the close-loop equilibrium point. Finally, the functionality and performance of the proposal is illustrated via simulation results and comparative analysis against Proportional-Derivative (PD) control scheme on a two-degrees-freedom direct-drive robot manipulator.

show abstract

An asinh-type regulator for robot manipulators with global asymptotic stability

Cited by 3 publications

References 33 publications

Global Saturated Regulator with Variable Gains for Robot Manipulators

Global Saturated Regulator with Variable Gains for Robot Manipulators

Design of a control algorithm for a robot manipulator with constant gains

Global Saturated Regulator with Variable Gains for Robot Manipulators

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