Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance Observer

Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance Observer

This paper studies a new fractional-order nonsingular terminal sliding mode control (FTSMC), in which all parameters of controller and observer are optimized by a modified grey wolf optimization (MGWO) technique for robotic manipulator systems. Based on an improved fractional-order terminal sliding...

Full description

Bibliographic Details
Main Author: Seongik Han
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Fractional-order terminal sliding mode control
fractional-order finite-time disturbance observer
modified grey wolf optimization
off and on-line parameter optimization
robotic manipulator
Online Access:https://ieeexplore.ieee.org/document/8957429/
id doaj-fb484e565a404035ab47059c41802c1a
record_format Article
spelling doaj-fb484e565a404035ab47059c41802c1a2021-03-30T02:53:35ZengIEEEIEEE Access2169-35362020-01-018183371834910.1109/ACCESS.2020.29662538957429Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance ObserverSeongik Han0https://orcid.org/0000-0002-9005-6870Department of Mechanical System Engineering, Dongguk University Gyeongju Campus, Gyeongju, South KoreaThis paper studies a new fractional-order nonsingular terminal sliding mode control (FTSMC), in which all parameters of controller and observer are optimized by a modified grey wolf optimization (MGWO) technique for robotic manipulator systems. Based on an improved fractional-order terminal sliding surface, the new FTSMC system is designed and the unknown disturbance is estimated by a fractional-order finite-time disturbance observer. The dynamic parameters of manipulator and gains of the controller were optimized with the help of the newly developed MGWO technique via both off-line simulation and on-line experimental optimization learning process. Simulation and experimental results of MGWO optimization and joint positioning for a self-designed manipulator showed the efficacy of the proposed optimization and control schemes.https://ieeexplore.ieee.org/document/8957429/Fractional-order terminal sliding mode controlfractional-order finite-time disturbance observermodified grey wolf optimizationoff and on-line parameter optimizationrobotic manipulator
collection DOAJ
language English
format Article
sources DOAJ
author Seongik Han
spellingShingle Seongik Han
Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance Observer
IEEE Access
Fractional-order terminal sliding mode control
fractional-order finite-time disturbance observer
modified grey wolf optimization
off and on-line parameter optimization
robotic manipulator
author_facet Seongik Han
author_sort Seongik Han
title Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance Observer
title_short Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance Observer
title_full Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance Observer
title_fullStr Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance Observer
title_full_unstemmed Modified Grey-Wolf Algorithm Optimized Fractional-Order Sliding Mode Control for Unknown Manipulators With a Fractional-Order Disturbance Observer
title_sort modified grey-wolf algorithm optimized fractional-order sliding mode control for unknown manipulators with a fractional-order disturbance observer
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description This paper studies a new fractional-order nonsingular terminal sliding mode control (FTSMC), in which all parameters of controller and observer are optimized by a modified grey wolf optimization (MGWO) technique for robotic manipulator systems. Based on an improved fractional-order terminal sliding surface, the new FTSMC system is designed and the unknown disturbance is estimated by a fractional-order finite-time disturbance observer. The dynamic parameters of manipulator and gains of the controller were optimized with the help of the newly developed MGWO technique via both off-line simulation and on-line experimental optimization learning process. Simulation and experimental results of MGWO optimization and joint positioning for a self-designed manipulator showed the efficacy of the proposed optimization and control schemes.
topic Fractional-order terminal sliding mode control
fractional-order finite-time disturbance observer
modified grey wolf optimization
off and on-line parameter optimization
robotic manipulator
url https://ieeexplore.ieee.org/document/8957429/
work_keys_str_mv AT seongikhan modifiedgreywolfalgorithmoptimizedfractionalorderslidingmodecontrolforunknownmanipulatorswithafractionalorderdisturbanceobserver
_version_ 1724184477029105664

Similar Items