Multivariable fuzzy supervisory control for the laminar cooling process of hot rolled slab

Shouping Guan; Han-Xiong Li; S. K. Tso

doi:10.1109/87.911386

Multivariable fuzzy supervisory control for the laminar cooling process of hot rolled slab

Shouping Guan
, Han-Xiong Li
, S. K. Tso

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

40 Citations (Scopus)

Abstract

A multivariable fuzzy system has been presented for higher level supervision of industrial process. With the help of a statistical process controller (SPC), this fuzzy supervisory control system can replace the human operator in the laminar cooling process. Since a feedforward compensator is designed to suppress the external disturbance, the proposed system can automatically find the proper operating points for the cooling process under the variation of boundary conditions. The values of control variables at the operating point will be taken as the setpoints of a distributed control system (DCS) in the relevant cooling mode. The simulation and practical experiment show the robust performance of the suggested system and its bright future in the industry.

Original language	English
Pages (from-to)	348-356
Journal	IEEE Transactions on Control Systems Technology
Volume	9
Issue number	2
DOIs	https://doi.org/10.1109/87.911386
Publication status	Published - Mar 2001

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

Research Keywords

Feedforward control
Fuzzy control
Laminar cooling process
Multivariable control
Statistical process control
Supervisory control

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title = "Multivariable fuzzy supervisory control for the laminar cooling process of hot rolled slab",

abstract = "A multivariable fuzzy system has been presented for higher level supervision of industrial process. With the help of a statistical process controller (SPC), this fuzzy supervisory control system can replace the human operator in the laminar cooling process. Since a feedforward compensator is designed to suppress the external disturbance, the proposed system can automatically find the proper operating points for the cooling process under the variation of boundary conditions. The values of control variables at the operating point will be taken as the setpoints of a distributed control system (DCS) in the relevant cooling mode. The simulation and practical experiment show the robust performance of the suggested system and its bright future in the industry.",

keywords = "Feedforward control, Fuzzy control, Laminar cooling process, Multivariable control, Statistical process control, Supervisory control",

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AU - Guan, Shouping

AU - Li, Han-Xiong

AU - Tso, S. K.

PY - 2001/3

Y1 - 2001/3

N2 - A multivariable fuzzy system has been presented for higher level supervision of industrial process. With the help of a statistical process controller (SPC), this fuzzy supervisory control system can replace the human operator in the laminar cooling process. Since a feedforward compensator is designed to suppress the external disturbance, the proposed system can automatically find the proper operating points for the cooling process under the variation of boundary conditions. The values of control variables at the operating point will be taken as the setpoints of a distributed control system (DCS) in the relevant cooling mode. The simulation and practical experiment show the robust performance of the suggested system and its bright future in the industry.

AB - A multivariable fuzzy system has been presented for higher level supervision of industrial process. With the help of a statistical process controller (SPC), this fuzzy supervisory control system can replace the human operator in the laminar cooling process. Since a feedforward compensator is designed to suppress the external disturbance, the proposed system can automatically find the proper operating points for the cooling process under the variation of boundary conditions. The values of control variables at the operating point will be taken as the setpoints of a distributed control system (DCS) in the relevant cooling mode. The simulation and practical experiment show the robust performance of the suggested system and its bright future in the industry.

KW - Feedforward control

KW - Fuzzy control

KW - Laminar cooling process

KW - Multivariable control

KW - Statistical process control

KW - Supervisory control

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U2 - 10.1109/87.911386

DO - 10.1109/87.911386

M3 - RGC 21 - Publication in refereed journal

SN - 1063-6536

VL - 9

SP - 348

EP - 356

JO - IEEE Transactions on Control Systems Technology

JF - IEEE Transactions on Control Systems Technology

IS - 2

ER -

Multivariable fuzzy supervisory control for the laminar cooling process of hot rolled slab

Abstract

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Research Keywords

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