Transportation and swing reduction for double-pendulum tower cranes using partial enhanced-coupling nonlinear controller with initial saturation

Zheng Tian; Lili Yu; Huimin Ouyang; Guangming Zhang

doi:10.1016/j.isatra.2020.11.028

Transportation and swing reduction for double-pendulum tower cranes using partial enhanced-coupling nonlinear controller with initial saturation

Zheng Tian, Lili Yu, Huimin Ouyang, Guangming Zhang

COLLEGE OF ELECTRICAL ENGINEERING AND CONTROL SCIENCE

Nanjing Tech University

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

26 Scopus citations

Abstract

Achieving both jib and trolley positioning and swing reduction become more difficult when tower cranes appear double-pendulum characteristic in dynamic. Moreover, in actual applications, the initial output value of actuators is usually physically constrained and the model uncertainties and external disturbances always exist. To solve these problems, a partial enhanced-coupling nonlinear controller with initial saturation is designed and analyzed by Lyapunov technique and LaSalle's invariance theorem. The control performance and strong robustness are severally verified by lots of simulations.

Original language	English
Pages (from-to)	122-136
Number of pages	15
Journal	ISA Transactions
Volume	112
DOIs	https://doi.org/10.1016/j.isatra.2020.11.028
State	Published - Jun 2021

Keywords

Double-pendulum effect
Partial enhanced-coupling control
Swing reduction
Tower crane
Underactuated system

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10.1016/j.isatra.2020.11.028

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title = "Transportation and swing reduction for double-pendulum tower cranes using partial enhanced-coupling nonlinear controller with initial saturation",

abstract = "Achieving both jib and trolley positioning and swing reduction become more difficult when tower cranes appear double-pendulum characteristic in dynamic. Moreover, in actual applications, the initial output value of actuators is usually physically constrained and the model uncertainties and external disturbances always exist. To solve these problems, a partial enhanced-coupling nonlinear controller with initial saturation is designed and analyzed by Lyapunov technique and LaSalle's invariance theorem. The control performance and strong robustness are severally verified by lots of simulations.",

keywords = "Double-pendulum effect, Partial enhanced-coupling control, Swing reduction, Tower crane, Underactuated system",

author = "Zheng Tian and Lili Yu and Huimin Ouyang and Guangming Zhang",

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year = "2021",

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doi = "10.1016/j.isatra.2020.11.028",

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T1 - Transportation and swing reduction for double-pendulum tower cranes using partial enhanced-coupling nonlinear controller with initial saturation

AU - Tian, Zheng

AU - Yu, Lili

AU - Ouyang, Huimin

AU - Zhang, Guangming

PY - 2021/6

Y1 - 2021/6

N2 - Achieving both jib and trolley positioning and swing reduction become more difficult when tower cranes appear double-pendulum characteristic in dynamic. Moreover, in actual applications, the initial output value of actuators is usually physically constrained and the model uncertainties and external disturbances always exist. To solve these problems, a partial enhanced-coupling nonlinear controller with initial saturation is designed and analyzed by Lyapunov technique and LaSalle's invariance theorem. The control performance and strong robustness are severally verified by lots of simulations.

AB - Achieving both jib and trolley positioning and swing reduction become more difficult when tower cranes appear double-pendulum characteristic in dynamic. Moreover, in actual applications, the initial output value of actuators is usually physically constrained and the model uncertainties and external disturbances always exist. To solve these problems, a partial enhanced-coupling nonlinear controller with initial saturation is designed and analyzed by Lyapunov technique and LaSalle's invariance theorem. The control performance and strong robustness are severally verified by lots of simulations.

KW - Double-pendulum effect

KW - Partial enhanced-coupling control

KW - Swing reduction

KW - Tower crane

KW - Underactuated system

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U2 - 10.1016/j.isatra.2020.11.028

DO - 10.1016/j.isatra.2020.11.028

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AN - SCOPUS:85097405658

SN - 0019-0578

VL - 112

SP - 122

EP - 136

JO - ISA Transactions

JF - ISA Transactions

ER -

Transportation and swing reduction for double-pendulum tower cranes using partial enhanced-coupling nonlinear controller with initial saturation

Abstract

Keywords

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