Finite-time blended control for air-to-air missile with lateral thrusters and aerodynamic surfaces

Yong Guo; Jin hua Guo; Xiang Liu; Ai jun Li; Chang qing Wang

doi:10.1016/j.ast.2019.105638

Finite-time blended control for air-to-air missile with lateral thrusters and aerodynamic surfaces

Yong Guo, Jin hua Guo, Xiang Liu, Ai jun Li, Chang qing Wang

School of Automation

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

13 Scopus citations

Abstract

This paper investigates the tracking control problem for the air-to-air missile with lateral thrusters and aerodynamic surfaces. An integral sliding mode manifold which is suitable for solving the problem of the input constraint is first given based on the saturation function. By using the integral sliding mode manifold, a finite-time controller without singularity is designed to deal with the input saturation and bounded disturbances. Then, the control moment is mapped to the control commands for the aerodynamic deflector and thrust engine array respectively, by using the dynamic control allocation. Finally, theoretical analysis and numerical simulations are presented to prove that the robust controller can make the missile follow a reference signal in finite time.

Original language	English
Article number	105638
Journal	Aerospace Science and Technology
Volume	97
DOIs	https://doi.org/10.1016/j.ast.2019.105638
State	Published - Feb 2020

Keywords

Blended control missile
Dynamic control allocation
Finite-time control
Input saturation
Lateral thrust

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title = "Finite-time blended control for air-to-air missile with lateral thrusters and aerodynamic surfaces",

abstract = "This paper investigates the tracking control problem for the air-to-air missile with lateral thrusters and aerodynamic surfaces. An integral sliding mode manifold which is suitable for solving the problem of the input constraint is first given based on the saturation function. By using the integral sliding mode manifold, a finite-time controller without singularity is designed to deal with the input saturation and bounded disturbances. Then, the control moment is mapped to the control commands for the aerodynamic deflector and thrust engine array respectively, by using the dynamic control allocation. Finally, theoretical analysis and numerical simulations are presented to prove that the robust controller can make the missile follow a reference signal in finite time.",

keywords = "Blended control missile, Dynamic control allocation, Finite-time control, Input saturation, Lateral thrust",

author = "Yong Guo and Guo, {Jin hua} and Xiang Liu and Li, {Ai jun} and Wang, {Chang qing}",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier Masson SAS",

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T1 - Finite-time blended control for air-to-air missile with lateral thrusters and aerodynamic surfaces

AU - Guo, Yong

AU - Guo, Jin hua

AU - Liu, Xiang

AU - Li, Ai jun

AU - Wang, Chang qing

PY - 2020/2

Y1 - 2020/2

N2 - This paper investigates the tracking control problem for the air-to-air missile with lateral thrusters and aerodynamic surfaces. An integral sliding mode manifold which is suitable for solving the problem of the input constraint is first given based on the saturation function. By using the integral sliding mode manifold, a finite-time controller without singularity is designed to deal with the input saturation and bounded disturbances. Then, the control moment is mapped to the control commands for the aerodynamic deflector and thrust engine array respectively, by using the dynamic control allocation. Finally, theoretical analysis and numerical simulations are presented to prove that the robust controller can make the missile follow a reference signal in finite time.

AB - This paper investigates the tracking control problem for the air-to-air missile with lateral thrusters and aerodynamic surfaces. An integral sliding mode manifold which is suitable for solving the problem of the input constraint is first given based on the saturation function. By using the integral sliding mode manifold, a finite-time controller without singularity is designed to deal with the input saturation and bounded disturbances. Then, the control moment is mapped to the control commands for the aerodynamic deflector and thrust engine array respectively, by using the dynamic control allocation. Finally, theoretical analysis and numerical simulations are presented to prove that the robust controller can make the missile follow a reference signal in finite time.

KW - Blended control missile

KW - Dynamic control allocation

KW - Finite-time control

KW - Input saturation

KW - Lateral thrust

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M3 - 文章

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SN - 1270-9638

VL - 97

JO - Aerospace Science and Technology

JF - Aerospace Science and Technology

M1 - 105638

ER -

Finite-time blended control for air-to-air missile with lateral thrusters and aerodynamic surfaces

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Keywords

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