Adaptive Dynamic Sliding Mode Control for Near Space Vehicles Under Actuator Faults

Jing Zhao; Bin Jiang; Peng Shi; Hongtao Liu

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Adaptive Dynamic Sliding Mode Control for Near Space Vehicles Under Actuator Faults

机译：执行器故障下近空间飞行器的自适应动态滑模控制

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摘要

A novel adaptive dynamic sliding mode (ADSM) fault-tolerant control (FTC) methodology is developed for near space vehicle attitude control systems with actuator faults in this paper. The proposed ADSM approach combines dynamic sliding mode with adaptive control strategies that can make the systems stable and accurately track the desired signals in the presence of external disturbances, model parameter uncertainties, and even actuator faults. Firstly, the attitude dynamic model of X-33 and its faulty model are introduced, then the ADSM control and fault-tolerant control laws are designed for outer-loop and inner-loop, respectively. Finally, in comparison with one existing approach, the simulation results are provided to show the effectiveness of the proposed FTC scheme.

机译：本文针对具有执行器故障的近空间飞行器姿态控制系统，开发了一种新颖的自适应动态滑模（ADSM）容错控制（FTC）方法。提出的ADSM方法将动态滑模与自适应控制策略相结合，可以使系统稳定并在存在外部干扰，模型参数不确定性甚至执行器故障的情况下准确跟踪所需信号。首先介绍了X-33的姿态动力学模型及其故障模型，然后分别针对外环和内环分别设计了ADSM控制和容错控制律。最后，与一种现有方法相比，仿真结果提供了所提出的FTC方案的有效性。

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来源
《Circuits, systems, and signal processing 》 |2013年第5期| 2281-2296| 共16页
作者
Jing Zhao; Bin Jiang; Peng Shi; Hongtao Liu;
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作者单位

College of Automation Engineering, Nanjing University of Aeronautics and Astronautics,Nanjing 210016, China;

College of Automation Engineering, Nanjing University of Aeronautics and Astronautics,Nanjing 210016, China;

College of Engineering and Science, Victoria University, Melbourne VIC 8001, Australia,School of Electrical and Electronic Engineering, The University of Adelaide, Adelaide SA 5005,Australia;

Institute for Aerospace Studies, University of Toronto, Toronto, Canada;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Fault tolerant control; Actuator faults; Near space vehicles; Dynamic sliding mode;

机译：容错控制;执行器故障;近太空飞行器;动态滑动模式;

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1. Fuzzy Logic System-Based Adaptive Fault-Tolerant Control for Near-Space Vehicle Attitude Dynamics With Actuator Faults [J] . Shen Q., Jiang B., Cocquempot V. Fuzzy Systems, IEEE Transactions on . 2013 ,第2期

机译：基于模糊逻辑系统的具有执行器故障的近空飞行器姿态动力学自适应容错控制
2. Adaptive PID-Sliding-Mode Fault-Tolerant Control Approach for Vehicle Suspension Systems Subject to Actuator Faults [J] . IEEE Transactions on Vehicular Technology . 2014 ,第3期

机译：带有执行器故障的车辆悬架系统的自适应PID滑模容错控制方法
3. OBSERVER-BASED ADAPTIVE SLIDING MODE FAULT-TOLERANT CONTROL FOR THE UNDERACTUATED SPACE ROBOT WITH JOINT ACTUATOR GAIN FAULTS [J] . Lei Ronghua, Chen Li Kybernetika . 2021 ,第1期

机译：基于Observer的自适应滑模容错控制欠抖动空间机器人，具有关节执行器的误差
4. Fault-tolerant control design based on adaptive dynamic sliding mode technique for near space vehicles [C] . Jing Zhao Control and Decision Conference (CCDC), 2012 24th Chinese . 2012

机译：基于自适应动态滑模技术的近空间飞行器容错控制设计
5. Dynamical Adaptive Backstepping-Sliding Mode Control of Pneumatic Actuator. [D] . He, Liang. 2010

机译：气动执行器的动态自适应Backstepping滑模控制。
6. Sliding Mode Fault Tolerant Control for Unmanned Aerial Vehicle with Sensor and Actuator Faults [O] . Juan Tan, Yonghua Fan, Pengpeng Yan, 2019

机译：具有传感器和执行器故障的无人机滑模容错控制
7. Adaptive Nonsingular Terminal Sliding Mode Control for Attitude Tracking of Spacecraft With Actuator Faults [O] . Chenghu Jing, Hongguang Xu, Xinjian Niu, 2019

机译：具有执行器故障的航天器姿态跟踪自适应非垂直端子滑动模式控制
8. Guidance and Actuation Techniques for an Adaptively Controlled Vehicle. [R] . Patterson, M. R., Reidy, J. J., Brownstein, B. J. 1983

机译：自适应控制车辆的制导和执行技术。

Adaptive Dynamic Sliding Mode Control for Near Space Vehicles Under Actuator Faults

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