Flight control system design for hypersonic reentry vehicle based on LFT

Flight control system design for hypersonic reentry vehicle based on LFT–LPV method

Published:2013-05-02 Issue:7 Volume:228 Page:1130-1140
ISSN:0954-4100
Container-title:Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering
language:en
Short-container-title:Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering

Author:

Cai Gaohua¹,Song Jianmei¹,Chen Xianxiang²

Affiliation:

1. Key Laboratory of Dynamics and Control of Flight Vehicle, Ministry of Education, School of Aerospace Engineering, Beijing Institute of Technology, Beijing, P.R. China

2. Beijing Institute of Computer Application, Beijing, P.R. China

Abstract

An angle-of-attack tracking control system is designed for the hypersonic reentry vehicle, whose aerodynamic parameters vary dramatically during reentry phase. The linear parameter-varying (LPV) theory based on linear fractional transformation (LFT) model (named as LPV–LFT method) is applied to design the controller for hypersonic reentry vehicle. Longitudinal moment trim of the hypersonic reentry vehicle is made along the desired flight trajectory, and a damping feedback loop is firstly designed to improve the system’s damping and static stability. Then, the linear dynamics model with damping feedback loop is established in LFT structure and treated as the controlled plant, and a parameter-varying reference model is utilized to guarantee the transient performance. The effectiveness of the proposed angle-of-attack tracking control system is validated through the frequency domain analysis and step response simulations. Finally, the actual angle-of-attack command tracking simulations using the nonlinear time-varying mathematical dynamics model are carried out to verify the accuracy and robustness of the hypersonic reentry vehicle control system.

Publisher

SAGE Publications

Subject

Mechanical Engineering,Aerospace Engineering

Link

http://journals.sagepub.com/doi/pdf/10.1177/0954410013486239

Reference4 articles.

1. Analysis of gain scheduled control for nonlinear plants

2. A convex characterization of gain-scheduled H/sub ∞/ controllers

3. Gain scheduling via linear fractional transformations

4. Robust Longitudinal Flight Control Design Using Linear Parameter-Varying Feedback

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