Multi-variable decoupling GPC system design of the aniline hydrogenation reaction

Qing Qing Huang; Cui Mei Bo; Dan Dan Lu

doi:10.14135/j.cnki.1006-3080.2016.03.017

Multi-variable decoupling GPC system design of the aniline hydrogenation reaction

Qing Qing Huang, Cui Mei Bo, Dan Dan Lu

COLLEGE OF ELECTRICAL ENGINEERING AND CONTROL SCIENCE

Nanjing Tech University

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

Abstract

Due to the high degree of uncertainty and cross coupling, the traditional PID controller is difficult to achieve the ideal control quality. The step control strategy is used to design multi-variable decoupling generalized predictive control (GPC) control system. Firstly, considering the cross coupling of the system, the decoupling algorithm of the target function is reduced to reduce the amount of computation effectively. And the GPC is used to construct a dual input dual output decoupling GPC system. In the end, the multi-variable decoupling GPC control and the traditional PID variable structure control are compared and analyzed. The simulation results verify the effectiveness and robustness of the control system.

Original language	English
Pages (from-to)	399-403
Number of pages	5
Journal	Huadong Ligong Daxue Xuebao /Journal of East China University of Science and Technology
Volume	42
Issue number	3
DOIs	https://doi.org/10.14135/j.cnki.1006-3080.2016.03.017
State	Published - 1 Jun 2016

Keywords

Aniline hydrogenation
Batch process
GPC
Multi-variable decoupling

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abstract = "Due to the high degree of uncertainty and cross coupling, the traditional PID controller is difficult to achieve the ideal control quality. The step control strategy is used to design multi-variable decoupling generalized predictive control (GPC) control system. Firstly, considering the cross coupling of the system, the decoupling algorithm of the target function is reduced to reduce the amount of computation effectively. And the GPC is used to construct a dual input dual output decoupling GPC system. In the end, the multi-variable decoupling GPC control and the traditional PID variable structure control are compared and analyzed. The simulation results verify the effectiveness and robustness of the control system.",

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AU - Huang, Qing Qing

AU - Bo, Cui Mei

AU - Lu, Dan Dan

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N2 - Due to the high degree of uncertainty and cross coupling, the traditional PID controller is difficult to achieve the ideal control quality. The step control strategy is used to design multi-variable decoupling generalized predictive control (GPC) control system. Firstly, considering the cross coupling of the system, the decoupling algorithm of the target function is reduced to reduce the amount of computation effectively. And the GPC is used to construct a dual input dual output decoupling GPC system. In the end, the multi-variable decoupling GPC control and the traditional PID variable structure control are compared and analyzed. The simulation results verify the effectiveness and robustness of the control system.

AB - Due to the high degree of uncertainty and cross coupling, the traditional PID controller is difficult to achieve the ideal control quality. The step control strategy is used to design multi-variable decoupling generalized predictive control (GPC) control system. Firstly, considering the cross coupling of the system, the decoupling algorithm of the target function is reduced to reduce the amount of computation effectively. And the GPC is used to construct a dual input dual output decoupling GPC system. In the end, the multi-variable decoupling GPC control and the traditional PID variable structure control are compared and analyzed. The simulation results verify the effectiveness and robustness of the control system.

KW - Aniline hydrogenation

KW - Batch process

KW - GPC

KW - Multi-variable decoupling

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JF - Huadong Ligong Daxue Xuebao /Journal of East China University of Science and Technology

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Multi-variable decoupling GPC system design of the aniline hydrogenation reaction

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