Fault-Tolerant Attitude Control for Hypersonic Flight Vehicle Subject to Actuators Constraint: A Model Predictive Static Programming Approach

IEEE Journal on Miniaturization for Air and Space Systems Pub Date : 2023-02-01 DOI:10.1109/JMASS.2023.3241566

Ao Li;Shuaizheng Liu;Xiaoxiang Hu;Rui Guo

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引用次数: 4

Abstract

In this article, an improved model predictive static programming (MPSP)-based fault-tolerant control (FTC) scheme is proposed to solve the attitude tracking control problem of the hypersonic vehicle (HSV). In the field of HSV, the MPSP technique has been applied successfully to solve guidance problems of its high computational efficiency. While we try to address the attitude control problem directly using it. The attitude model of HSV with uncertainty and disturbance, together with the fault model of aircraft body injury, is constructed first. The actuator of HSV is suffering from input constraints. Then, a feasible attitude control trajectory is generated by the improved MPSP method. The methodological innovation in this article extends the MPSP technique to the direct control of the attitude of HSV both in the fixed and flexible final time. By utilizing the improved MPSP technique, the complexity of processing multiple constraints and the computation is reduced. The effectiveness of the designed FTC scheme is demonstrated through simulation under different cases with actuator constraints.

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基于作动器约束的高超声速飞行器容错姿态控制:一种模型预测静态规划方法

针对高超音速飞行器姿态跟踪控制问题，提出了一种改进的基于模型预测静态规划的容错控制方案。在HSV领域，MPSP技术以其较高的计算效率成功地应用于制导问题。同时，我们试图直接用它来解决姿态控制问题，首先建立了具有不确定性和扰动的HSV姿态模型，以及机体损伤的故障模型。HSV的执行器受到输入约束。然后，利用改进的MPSP方法生成了可行的姿态控制轨迹。本文的方法创新将MPSP技术扩展到在固定和灵活的最后时间直接控制HSV的姿态。通过使用改进的MPSP技术，降低了处理多个约束和计算的复杂性。通过在具有执行器约束的不同情况下的仿真，验证了所设计的FTC方案的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Journal on Miniaturization for Air and Space Systems

CiteScore

4.40

自引率

0.00%

发文量