On design of attitude controller for rotor aircraft with fuel sloshing disturbance

Jia Qi Liu; Yue Liang; Hang Yin; Xiao Zhi Gao; Xue Ling Li

doi:10.15938/j.emc.2015.08.015

On design of attitude controller for rotor aircraft with fuel sloshing disturbance

Jia Qi Liu^*, Yue Liang, Hang Yin, Xiao Zhi Gao, Xue Ling Li

^*Corresponding author for this work

Department of Electrical Engineering and Automation

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

Abstract

Fuel sloshing is the unwanted attitude disturbance of rotor aircraft which represents the force of the fuel impact the tank wall. The fuel sloshing model used for rotor aircraft represents each sloshing mode as a mass-spring-damper system. Then a nonlinear dynamic model was achieved by theoretical and empirical method to determine the relationship among the voltage, the speed of the propeller and the lift force. A sliding mode controller was developed and compared with a optimized PID controller in terms of fuel sloshing disturbance. Furthermore, the hardware in the loop simulation system with two degree of freedom was given to demonstrate the validity of the algorithms. The result shows that a little input effort can achieve a better robust performance by adopting the sliding mode controller than the PID controller.

Original language	English
Pages (from-to)	101-106
Number of pages	6
Journal	Dianji yu Kongzhi Xuebao/Electric Machines and Control
Volume	19
Issue number	8
DOIs	https://doi.org/10.15938/j.emc.2015.08.015
Publication status	Published - 1 Aug 2015
MoE publication type	A1 Journal article-refereed

Keywords

Attitude disturbance
Fuel sloshing
Nonlinear system
Rotor aircraft
Sliding mode control

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10.15938/j.emc.2015.08.015

Cite this

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title = "On design of attitude controller for rotor aircraft with fuel sloshing disturbance",

abstract = "Fuel sloshing is the unwanted attitude disturbance of rotor aircraft which represents the force of the fuel impact the tank wall. The fuel sloshing model used for rotor aircraft represents each sloshing mode as a mass-spring-damper system. Then a nonlinear dynamic model was achieved by theoretical and empirical method to determine the relationship among the voltage, the speed of the propeller and the lift force. A sliding mode controller was developed and compared with a optimized PID controller in terms of fuel sloshing disturbance. Furthermore, the hardware in the loop simulation system with two degree of freedom was given to demonstrate the validity of the algorithms. The result shows that a little input effort can achieve a better robust performance by adopting the sliding mode controller than the PID controller.",

keywords = "Attitude disturbance, Fuel sloshing, Nonlinear system, Rotor aircraft, Sliding mode control",

author = "Liu, {Jia Qi} and Yue Liang and Hang Yin and Gao, {Xiao Zhi} and Li, {Xue Ling}",

year = "2015",

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doi = "10.15938/j.emc.2015.08.015",

language = "English",

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journal = "Dianji yu Kongzhi Xuebao/Electric Machines and Control",

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publisher = "Harbin University of Science and Technology",

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TY - JOUR

T1 - On design of attitude controller for rotor aircraft with fuel sloshing disturbance

AU - Liu, Jia Qi

AU - Liang, Yue

AU - Yin, Hang

AU - Gao, Xiao Zhi

AU - Li, Xue Ling

PY - 2015/8/1

Y1 - 2015/8/1

N2 - Fuel sloshing is the unwanted attitude disturbance of rotor aircraft which represents the force of the fuel impact the tank wall. The fuel sloshing model used for rotor aircraft represents each sloshing mode as a mass-spring-damper system. Then a nonlinear dynamic model was achieved by theoretical and empirical method to determine the relationship among the voltage, the speed of the propeller and the lift force. A sliding mode controller was developed and compared with a optimized PID controller in terms of fuel sloshing disturbance. Furthermore, the hardware in the loop simulation system with two degree of freedom was given to demonstrate the validity of the algorithms. The result shows that a little input effort can achieve a better robust performance by adopting the sliding mode controller than the PID controller.

AB - Fuel sloshing is the unwanted attitude disturbance of rotor aircraft which represents the force of the fuel impact the tank wall. The fuel sloshing model used for rotor aircraft represents each sloshing mode as a mass-spring-damper system. Then a nonlinear dynamic model was achieved by theoretical and empirical method to determine the relationship among the voltage, the speed of the propeller and the lift force. A sliding mode controller was developed and compared with a optimized PID controller in terms of fuel sloshing disturbance. Furthermore, the hardware in the loop simulation system with two degree of freedom was given to demonstrate the validity of the algorithms. The result shows that a little input effort can achieve a better robust performance by adopting the sliding mode controller than the PID controller.

KW - Attitude disturbance

KW - Fuel sloshing

KW - Nonlinear system

KW - Rotor aircraft

KW - Sliding mode control

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On design of attitude controller for rotor aircraft with fuel sloshing disturbance

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