Decoupled linear model and S-shaped curve motion trajectory for load sway reduction control in overhead cranes with double-pendulum effect

Huimin Ouyang; Jinxin Hu; Guangming Zhang; Lei Mei; Xin Deng

doi:10.1177/0954406218819029

Decoupled linear model and S-shaped curve motion trajectory for load sway reduction control in overhead cranes with double-pendulum effect

Huimin Ouyang, Jinxin Hu, Guangming Zhang, Lei Mei, Xin Deng

电气工程与控制科学学院

Nanjing Tech University

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39 引用（Scopus）

摘要

Overhead cranes with double-pendulum effect seem more practical than those with single-pendulum effect. However, in this case, it is difficult to find an applicable controller for such systems. Hence, a linearized and decoupled double-pendulum overhead crane dynamic model is derived by adopting a disturbance observer and modal analysis technique. The S-shaped trajectory is planned by solving algebraic equations, and the stability of the system is confirmed by the Routh–Hurwitz stability theory. Experimental results and simulations demonstrate the effectiveness of the proposed method. It could be realized to operate the crane accurately without sensor systems for measuring load sways by using the proposed method.

源语言	英语
页（从-至）	3678-3689
页数	12
期刊	Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
卷	233
期	10
DOI	https://doi.org/10.1177/0954406218819029
出版状态	已出版 - 1 5月 2019

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abstract = "Overhead cranes with double-pendulum effect seem more practical than those with single-pendulum effect. However, in this case, it is difficult to find an applicable controller for such systems. Hence, a linearized and decoupled double-pendulum overhead crane dynamic model is derived by adopting a disturbance observer and modal analysis technique. The S-shaped trajectory is planned by solving algebraic equations, and the stability of the system is confirmed by the Routh–Hurwitz stability theory. Experimental results and simulations demonstrate the effectiveness of the proposed method. It could be realized to operate the crane accurately without sensor systems for measuring load sways by using the proposed method.",

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Ouyang, H, Hu, J, Zhang, G, Mei, L & Deng, X 2019, 'Decoupled linear model and S-shaped curve motion trajectory for load sway reduction control in overhead cranes with double-pendulum effect', Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 卷 233, 号码 10, 页码 3678-3689. https://doi.org/10.1177/0954406218819029

Decoupled linear model and S-shaped curve motion trajectory for load sway reduction control in overhead cranes with double-pendulum effect. / Ouyang, Huimin; Hu, Jinxin; Zhang, Guangming 等.
在: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 卷 233, 号码 10, 01.05.2019, 页码 3678-3689.

科研成果: 期刊稿件 › 文章 › 同行评审

TY - JOUR

T1 - Decoupled linear model and S-shaped curve motion trajectory for load sway reduction control in overhead cranes with double-pendulum effect

AU - Ouyang, Huimin

AU - Hu, Jinxin

AU - Zhang, Guangming

AU - Mei, Lei

AU - Deng, Xin

N1 - Publisher Copyright: © IMechE 2018.

PY - 2019/5/1

Y1 - 2019/5/1

N2 - Overhead cranes with double-pendulum effect seem more practical than those with single-pendulum effect. However, in this case, it is difficult to find an applicable controller for such systems. Hence, a linearized and decoupled double-pendulum overhead crane dynamic model is derived by adopting a disturbance observer and modal analysis technique. The S-shaped trajectory is planned by solving algebraic equations, and the stability of the system is confirmed by the Routh–Hurwitz stability theory. Experimental results and simulations demonstrate the effectiveness of the proposed method. It could be realized to operate the crane accurately without sensor systems for measuring load sways by using the proposed method.

AB - Overhead cranes with double-pendulum effect seem more practical than those with single-pendulum effect. However, in this case, it is difficult to find an applicable controller for such systems. Hence, a linearized and decoupled double-pendulum overhead crane dynamic model is derived by adopting a disturbance observer and modal analysis technique. The S-shaped trajectory is planned by solving algebraic equations, and the stability of the system is confirmed by the Routh–Hurwitz stability theory. Experimental results and simulations demonstrate the effectiveness of the proposed method. It could be realized to operate the crane accurately without sensor systems for measuring load sways by using the proposed method.

KW - Overhead crane

KW - S-shaped motion trajectory

KW - double-pendulum effect

KW - load sway suppression control

KW - tracking control

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Decoupled linear model and S-shaped curve motion trajectory for load sway reduction control in overhead cranes with double-pendulum effect

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