Improved nonlinear design method for terrain-following flight control systems

Weiguo Zhang; Xun Sun; Jingping Shi; Huakun Chen

Improved nonlinear design method for terrain-following flight control systems

Weiguo Zhang, Xun Sun, Jingping Shi, Huakun Chen

School of Automation

Northwestern Polytechnical University Xian

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

Abstract

An improved nonlinear control method is presented. This method adjusts the weights according to the magnitudes of the error and error rate. This method employs a correcting function α, which can be expressed as α=α₀ + K_α|E|/|E|_max; the symbols α, α₀, K_α, E, |E|_max have standard meanings, so they are not defined. As α is expressed in analytic form, it is easy to adjust the parameters of the controller according to the ITAE (integrated time absolute error) performance index and to optimize the design of the control system with high precision. This method is used to design a terrain following flight control system for a certain type of fighter and is compared with the traditional method. Simulation results show that: (1) the maximum terrain-following height error after 20 s is still about 20 m for the traditional method; (2) the maximum terrain-following height error after 5 s is only 0.4 m for our improved method.

Original language	English
Pages (from-to)	253-255
Number of pages	3
Journal	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
Volume	23
Issue number	2
State	Published - Apr 2005

Keywords

Correcting function
Nonlinear control
Terrain-following flight control

Cite this

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title = "Improved nonlinear design method for terrain-following flight control systems",

abstract = "An improved nonlinear control method is presented. This method adjusts the weights according to the magnitudes of the error and error rate. This method employs a correcting function α, which can be expressed as α=α0 + Kα|E|/|E|max; the symbols α, α0, Kα, E, |E|max have standard meanings, so they are not defined. As α is expressed in analytic form, it is easy to adjust the parameters of the controller according to the ITAE (integrated time absolute error) performance index and to optimize the design of the control system with high precision. This method is used to design a terrain following flight control system for a certain type of fighter and is compared with the traditional method. Simulation results show that: (1) the maximum terrain-following height error after 20 s is still about 20 m for the traditional method; (2) the maximum terrain-following height error after 5 s is only 0.4 m for our improved method.",

keywords = "Correcting function, Nonlinear control, Terrain-following flight control",

author = "Weiguo Zhang and Xun Sun and Jingping Shi and Huakun Chen",

year = "2005",

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language = "英语",

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T1 - Improved nonlinear design method for terrain-following flight control systems

AU - Zhang, Weiguo

AU - Sun, Xun

AU - Shi, Jingping

AU - Chen, Huakun

PY - 2005/4

Y1 - 2005/4

N2 - An improved nonlinear control method is presented. This method adjusts the weights according to the magnitudes of the error and error rate. This method employs a correcting function α, which can be expressed as α=α0 + Kα|E|/|E|max; the symbols α, α0, Kα, E, |E|max have standard meanings, so they are not defined. As α is expressed in analytic form, it is easy to adjust the parameters of the controller according to the ITAE (integrated time absolute error) performance index and to optimize the design of the control system with high precision. This method is used to design a terrain following flight control system for a certain type of fighter and is compared with the traditional method. Simulation results show that: (1) the maximum terrain-following height error after 20 s is still about 20 m for the traditional method; (2) the maximum terrain-following height error after 5 s is only 0.4 m for our improved method.

AB - An improved nonlinear control method is presented. This method adjusts the weights according to the magnitudes of the error and error rate. This method employs a correcting function α, which can be expressed as α=α0 + Kα|E|/|E|max; the symbols α, α0, Kα, E, |E|max have standard meanings, so they are not defined. As α is expressed in analytic form, it is easy to adjust the parameters of the controller according to the ITAE (integrated time absolute error) performance index and to optimize the design of the control system with high precision. This method is used to design a terrain following flight control system for a certain type of fighter and is compared with the traditional method. Simulation results show that: (1) the maximum terrain-following height error after 20 s is still about 20 m for the traditional method; (2) the maximum terrain-following height error after 5 s is only 0.4 m for our improved method.

KW - Correcting function

KW - Nonlinear control

KW - Terrain-following flight control

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Improved nonlinear design method for terrain-following flight control systems

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