Robust missile autopilots with finite-time convergence

Shaoming He; Jiang Wang; Defu Lin

doi:10.1002/asjc.1183

Robust missile autopilots with finite-time convergence

Shaoming He, Jiang Wang^*, Defu Lin

^*Corresponding author for this work

School of Aerospace Engineering

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

9 Citations (Scopus)

Abstract

This paper presents a new longitudinal autopilot to address the finite-time tracking problem for uncertain agile missiles. The proposed autopilot is essentially a composite control scheme, which is obtained through the finite-time control methodology and the nonlinear disturbance observer (NDOB) approach. The key idea in this scheme is that the NDOB is adopted to estimate the aerodynamic uncertainties and external disturbances in an integrated manner. With the aid of the finite-time bounded function and the Lyapunov function method, the finite-time stability of the closed-loop system is established, which shows that the angle-of-attack response will converge to the external command signal in finite time. Numerical simulation results are presented to demonstrate the superiority of the proposed scheme.

Original language	English
Pages (from-to)	1010-1019
Number of pages	10
Journal	Asian Journal of Control
Volume	18
Issue number	3
DOIs	https://doi.org/10.1002/asjc.1183
Publication status	Published - 1 May 2016

Keywords

Aerodynamic uncertainty
Angle-of-attack tracking
External disturbance
Finite-time convergence
Missile autopilot
Nonlinear disturbance observer

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10.1002/asjc.1183

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title = "Robust missile autopilots with finite-time convergence",

abstract = "This paper presents a new longitudinal autopilot to address the finite-time tracking problem for uncertain agile missiles. The proposed autopilot is essentially a composite control scheme, which is obtained through the finite-time control methodology and the nonlinear disturbance observer (NDOB) approach. The key idea in this scheme is that the NDOB is adopted to estimate the aerodynamic uncertainties and external disturbances in an integrated manner. With the aid of the finite-time bounded function and the Lyapunov function method, the finite-time stability of the closed-loop system is established, which shows that the angle-of-attack response will converge to the external command signal in finite time. Numerical simulation results are presented to demonstrate the superiority of the proposed scheme.",

keywords = "Aerodynamic uncertainty, Angle-of-attack tracking, External disturbance, Finite-time convergence, Missile autopilot, Nonlinear disturbance observer",

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AU - He, Shaoming

AU - Wang, Jiang

AU - Lin, Defu

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N2 - This paper presents a new longitudinal autopilot to address the finite-time tracking problem for uncertain agile missiles. The proposed autopilot is essentially a composite control scheme, which is obtained through the finite-time control methodology and the nonlinear disturbance observer (NDOB) approach. The key idea in this scheme is that the NDOB is adopted to estimate the aerodynamic uncertainties and external disturbances in an integrated manner. With the aid of the finite-time bounded function and the Lyapunov function method, the finite-time stability of the closed-loop system is established, which shows that the angle-of-attack response will converge to the external command signal in finite time. Numerical simulation results are presented to demonstrate the superiority of the proposed scheme.

AB - This paper presents a new longitudinal autopilot to address the finite-time tracking problem for uncertain agile missiles. The proposed autopilot is essentially a composite control scheme, which is obtained through the finite-time control methodology and the nonlinear disturbance observer (NDOB) approach. The key idea in this scheme is that the NDOB is adopted to estimate the aerodynamic uncertainties and external disturbances in an integrated manner. With the aid of the finite-time bounded function and the Lyapunov function method, the finite-time stability of the closed-loop system is established, which shows that the angle-of-attack response will converge to the external command signal in finite time. Numerical simulation results are presented to demonstrate the superiority of the proposed scheme.

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KW - Angle-of-attack tracking

KW - External disturbance

KW - Finite-time convergence

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KW - Nonlinear disturbance observer

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Robust missile autopilots with finite-time convergence

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