Position control of the Thomson’s ring system using fractional operators

Manuel A. Duarte-Mermoud; Norelys Aguila-Camacho; Rafael Castro-Linares

Position control of the Thomson’s ring system using fractional operators

Manuel A. Duarte-Mermoud
, Norelys Aguila-Camacho
, Rafael Castro-Linares

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

1 Scopus citations

Abstract

The position control of a magnetic levitation system, known as Thomson’s ring, is studied in this paper. The design and implementation of three control strategies are presented; the first corresponds to a pole placement control (PPC), the second is a fractional order proportional integral derivative (FOPID) control and the third consists of a sliding mode control (SMC). In all three cases, a fractional order observer is used to estimate the ring speed. A particle swarm optimization (PSO) technique was used in the case of the FOPID control, in order to select the optimal parameters of the controller. Stabilization and tracking experiments are carried out in order to observe the behavior of the controlled system. Also, the effect of external disturbances on the output of the system is addressed.

Original language	English
Pages (from-to)	344-352
Number of pages	9
Journal	International Journal of Circuits, Systems and Signal Processing
Volume	9
State	Published - 2015
Externally published	Yes

Keywords

Fractional order observers
Fractional order PID
Magnetic levitation systems
Pole placement control
Sliding mode control
Thomson’s ring

Cite this

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title = "Position control of the Thomson{\textquoteright}s ring system using fractional operators",

abstract = "The position control of a magnetic levitation system, known as Thomson{\textquoteright}s ring, is studied in this paper. The design and implementation of three control strategies are presented; the first corresponds to a pole placement control (PPC), the second is a fractional order proportional integral derivative (FOPID) control and the third consists of a sliding mode control (SMC). In all three cases, a fractional order observer is used to estimate the ring speed. A particle swarm optimization (PSO) technique was used in the case of the FOPID control, in order to select the optimal parameters of the controller. Stabilization and tracking experiments are carried out in order to observe the behavior of the controlled system. Also, the effect of external disturbances on the output of the system is addressed.",

keywords = "Fractional order observers, Fractional order PID, Magnetic levitation systems, Pole placement control, Sliding mode control, Thomson{\textquoteright}s ring",

author = "Duarte-Mermoud, \{Manuel A.\} and Norelys Aguila-Camacho and Rafael Castro-Linares",

year = "2015",

language = "English",

volume = "9",

pages = "344--352",

journal = "International Journal of Circuits, Systems and Signal Processing",

issn = "1998-4464",

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T1 - Position control of the Thomson’s ring system using fractional operators

AU - Duarte-Mermoud, Manuel A.

AU - Aguila-Camacho, Norelys

AU - Castro-Linares, Rafael

PY - 2015

Y1 - 2015

N2 - The position control of a magnetic levitation system, known as Thomson’s ring, is studied in this paper. The design and implementation of three control strategies are presented; the first corresponds to a pole placement control (PPC), the second is a fractional order proportional integral derivative (FOPID) control and the third consists of a sliding mode control (SMC). In all three cases, a fractional order observer is used to estimate the ring speed. A particle swarm optimization (PSO) technique was used in the case of the FOPID control, in order to select the optimal parameters of the controller. Stabilization and tracking experiments are carried out in order to observe the behavior of the controlled system. Also, the effect of external disturbances on the output of the system is addressed.

AB - The position control of a magnetic levitation system, known as Thomson’s ring, is studied in this paper. The design and implementation of three control strategies are presented; the first corresponds to a pole placement control (PPC), the second is a fractional order proportional integral derivative (FOPID) control and the third consists of a sliding mode control (SMC). In all three cases, a fractional order observer is used to estimate the ring speed. A particle swarm optimization (PSO) technique was used in the case of the FOPID control, in order to select the optimal parameters of the controller. Stabilization and tracking experiments are carried out in order to observe the behavior of the controlled system. Also, the effect of external disturbances on the output of the system is addressed.

KW - Fractional order observers

KW - Fractional order PID

KW - Magnetic levitation systems

KW - Pole placement control

KW - Sliding mode control

KW - Thomson’s ring

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M3 - Article

AN - SCOPUS:84947051556

SN - 1998-4464

VL - 9

SP - 344

EP - 352

JO - International Journal of Circuits, Systems and Signal Processing

JF - International Journal of Circuits, Systems and Signal Processing

ER -

Position control of the Thomson’s ring system using fractional operators

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Keywords

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