Event-Driven Fixed-Time Cooperative Attitude Control of High-Speed Unmanned System Considering Input Saturation and Actuator Failure

Xin Ning; Xuyang Wang; Zheng Wang; Yi Wang; Caisheng Wei

doi:10.1002/rnc.70393

Event-Driven Fixed-Time Cooperative Attitude Control of High-Speed Unmanned System Considering Input Saturation and Actuator Failure

Xin Ning
, Xuyang Wang
, Zheng Wang
, Yi Wang
, Caisheng Wei

航天学院

Northwestern Polytechnical University Xian
Northwest Institute of Mechanical and Electrical Engineering
Nanjing Research Institute of Electronics Technology
Central South University

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

The event-driven fixed-time cooperative attitude controller for high-speed unmanned system (HSUS) with input saturation and actuator failure is constructed in this article. Considering the limited system resources, the event-triggered mechanism (ETM) is employed to reduce the frequency of controller updates. To better align with the actual situation, both input saturation and actuator failure are taken into account when designing the system controller. Subsequently, the radial basis function neural networks (RBF NNs) are implemented for efficiently approximating and handling unknown nonlinear relationships within the system. Furthermore, the fixed-time convergence theorem is implemented to achieve improved transient performance. Ultimately, the effectiveness of the proposed control strategy is confirmed through a series of simulation examples.

源语言	英语
期刊	International Journal of Robust and Nonlinear Control
DOI	https://doi.org/10.1002/rnc.70393
出版状态	已接受/待刊 - 2026

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title = "Event-Driven Fixed-Time Cooperative Attitude Control of High-Speed Unmanned System Considering Input Saturation and Actuator Failure",

abstract = "The event-driven fixed-time cooperative attitude controller for high-speed unmanned system (HSUS) with input saturation and actuator failure is constructed in this article. Considering the limited system resources, the event-triggered mechanism (ETM) is employed to reduce the frequency of controller updates. To better align with the actual situation, both input saturation and actuator failure are taken into account when designing the system controller. Subsequently, the radial basis function neural networks (RBF NNs) are implemented for efficiently approximating and handling unknown nonlinear relationships within the system. Furthermore, the fixed-time convergence theorem is implemented to achieve improved transient performance. Ultimately, the effectiveness of the proposed control strategy is confirmed through a series of simulation examples.",

keywords = "actuator failure, event-triggered mechanism, fixed-time stability, high-speed unmanned system, input saturation",

author = "Xin Ning and Xuyang Wang and Zheng Wang and Yi Wang and Caisheng Wei",

note = "Publisher Copyright: {\textcopyright} 2026 John Wiley \& Sons Ltd.",

year = "2026",

doi = "10.1002/rnc.70393",

language = "英语",

journal = "International Journal of Robust and Nonlinear Control",

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T1 - Event-Driven Fixed-Time Cooperative Attitude Control of High-Speed Unmanned System Considering Input Saturation and Actuator Failure

AU - Ning, Xin

AU - Wang, Xuyang

AU - Wang, Zheng

AU - Wang, Yi

AU - Wei, Caisheng

PY - 2026

Y1 - 2026

N2 - The event-driven fixed-time cooperative attitude controller for high-speed unmanned system (HSUS) with input saturation and actuator failure is constructed in this article. Considering the limited system resources, the event-triggered mechanism (ETM) is employed to reduce the frequency of controller updates. To better align with the actual situation, both input saturation and actuator failure are taken into account when designing the system controller. Subsequently, the radial basis function neural networks (RBF NNs) are implemented for efficiently approximating and handling unknown nonlinear relationships within the system. Furthermore, the fixed-time convergence theorem is implemented to achieve improved transient performance. Ultimately, the effectiveness of the proposed control strategy is confirmed through a series of simulation examples.

AB - The event-driven fixed-time cooperative attitude controller for high-speed unmanned system (HSUS) with input saturation and actuator failure is constructed in this article. Considering the limited system resources, the event-triggered mechanism (ETM) is employed to reduce the frequency of controller updates. To better align with the actual situation, both input saturation and actuator failure are taken into account when designing the system controller. Subsequently, the radial basis function neural networks (RBF NNs) are implemented for efficiently approximating and handling unknown nonlinear relationships within the system. Furthermore, the fixed-time convergence theorem is implemented to achieve improved transient performance. Ultimately, the effectiveness of the proposed control strategy is confirmed through a series of simulation examples.

KW - actuator failure

KW - event-triggered mechanism

KW - fixed-time stability

KW - high-speed unmanned system

KW - input saturation

UR - https://www.scopus.com/pages/publications/105027854460

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DO - 10.1002/rnc.70393

M3 - 文章

AN - SCOPUS:105027854460

SN - 1049-8923

JO - International Journal of Robust and Nonlinear Control

JF - International Journal of Robust and Nonlinear Control

ER -

Event-Driven Fixed-Time Cooperative Attitude Control of High-Speed Unmanned System Considering Input Saturation and Actuator Failure

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