Design Fractional-order PID Controllers for Single-Joint Robot Arm Model

Iqbal M. Batiha; Suhaib A. Njadat; Radwan M. Batyha; Amjed Zraiqat; Amer Dababneh; Shaher Momani

doi:10.15849/IJASCA.220720.07

Design Fractional-order PID Controllers for Single-Joint Robot Arm Model

Iqbal M. Batiha
, Suhaib A. Njadat
, Radwan M. Batyha
, Amjed Zraiqat
, Amer Dababneh
, Shaher Momani

Nonlinear Dynamic Research Centre (NDRC)

Irbid National University
Al-Zaytoonah University of Jordan
University of Jordan

Research output: Contribution to journal › Article › peer-review

123 Scopus citations

Abstract

The major goal of the this work is to present an optimal design of the Fractional-order Proportional-Derivative-Integral (FoPID) controller for the single-joint arm dynamics. For meeting this aim, the Particle Swarm Optimization (PSO) algorithm will be implement to tune the parameters of such con-troller. Six FoPID-controllers will be generated in accordance with two kinds of approaches (Continued Fraction Expansion (CFE) and Outstaloup’s approaches) for Laplacian operators, coupled with three fitness functions (IAE, ITAE, ITSE). These controllers will be competed to each other to determine which one can provide to the closed-loop system of the single-joint robot arm model a good rise time, short settling time, and an excellent overshoot.

Original language	English
Pages (from-to)	96-114
Number of pages	19
Journal	International Journal of Advances in Soft Computing and its Applications
Volume	14
Issue number	2
DOIs	https://doi.org/10.15849/IJASCA.220720.07
State	Published - 2022

Keywords

Continued
Fractional-order model; Oustaloup approximation

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title = "Design Fractional-order PID Controllers for Single-Joint Robot Arm Model",

abstract = "The major goal of the this work is to present an optimal design of the Fractional-order Proportional-Derivative-Integral (FoPID) controller for the single-joint arm dynamics. For meeting this aim, the Particle Swarm Optimization (PSO) algorithm will be implement to tune the parameters of such con-troller. Six FoPID-controllers will be generated in accordance with two kinds of approaches (Continued Fraction Expansion (CFE) and Outstaloup{\textquoteright}s approaches) for Laplacian operators, coupled with three fitness functions (IAE, ITAE, ITSE). These controllers will be competed to each other to determine which one can provide to the closed-loop system of the single-joint robot arm model a good rise time, short settling time, and an excellent overshoot.",

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language = "English",

volume = "14",

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AU - Batiha, Iqbal M.

AU - Njadat, Suhaib A.

AU - Batyha, Radwan M.

AU - Zraiqat, Amjed

AU - Dababneh, Amer

AU - Momani, Shaher

N1 - Publisher Copyright: © Al-Zaytoonah University of Jordan (ZUJ).

PY - 2022

Y1 - 2022

N2 - The major goal of the this work is to present an optimal design of the Fractional-order Proportional-Derivative-Integral (FoPID) controller for the single-joint arm dynamics. For meeting this aim, the Particle Swarm Optimization (PSO) algorithm will be implement to tune the parameters of such con-troller. Six FoPID-controllers will be generated in accordance with two kinds of approaches (Continued Fraction Expansion (CFE) and Outstaloup’s approaches) for Laplacian operators, coupled with three fitness functions (IAE, ITAE, ITSE). These controllers will be competed to each other to determine which one can provide to the closed-loop system of the single-joint robot arm model a good rise time, short settling time, and an excellent overshoot.

AB - The major goal of the this work is to present an optimal design of the Fractional-order Proportional-Derivative-Integral (FoPID) controller for the single-joint arm dynamics. For meeting this aim, the Particle Swarm Optimization (PSO) algorithm will be implement to tune the parameters of such con-troller. Six FoPID-controllers will be generated in accordance with two kinds of approaches (Continued Fraction Expansion (CFE) and Outstaloup’s approaches) for Laplacian operators, coupled with three fitness functions (IAE, ITAE, ITSE). These controllers will be competed to each other to determine which one can provide to the closed-loop system of the single-joint robot arm model a good rise time, short settling time, and an excellent overshoot.

KW - Continued

KW - Fractional-order model; Oustaloup approximation

UR - https://www.scopus.com/pages/publications/85134640728

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JO - International Journal of Advances in Soft Computing and its Applications

JF - International Journal of Advances in Soft Computing and its Applications

IS - 2

ER -

Design Fractional-order PID Controllers for Single-Joint Robot Arm Model

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Keywords

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