Distributed adaptive event-triggered finite-time fault-tolerant containment control for multi-UAVs with input constraints and actuator failures

IF 3.7 3区 计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS Journal of The Franklin Institute-engineering and Applied Mathematics Pub Date : 2024-09-29 DOI:10.1016/j.jfranklin.2024.107308
Lihao Wang , Aijun Li , Hongshi Lu , Changqing Wang , Yuriy Zabolotnov
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Abstract

This article investigates the distributed adaptive finite-time containment control problem for multi-UAVs with input constraints, actuator failures, communication limitations, and external disturbances. First, a new smoothing function is used to smooth the asymmetric input constraint signals so that the input constraint and actuator fault control problem can be transformed into a variable gain control problem. Subsequently, a new Nussbaum function is proposed to solve the variable gain control problem. A new adaptive event-triggered strategy is designed to solve the communication limitation problem, and the trigger threshold has the characteristic of adaptive adjustment that can be dynamically decreased. In response to external disturbances, an adaptive law is designed to estimate and compensate for the boundaries of disturbances. It follows from the analysis based on Lyapunov theory that under the proposed controller, the followers will converge to the convex envelope formed by the leaders in a finite time, and Zeno-free is achieved. Simulation results are provided to verify the effectiveness of the developed adaptive event-triggered finite-time fault-tolerant containment control laws.
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针对具有输入约束和执行器故障的多无人飞行器的分布式自适应事件触发有限时间容错遏制控制
本文研究了具有输入约束、致动器故障、通信限制和外部干扰的多无人机分布式自适应有限时间遏制控制问题。首先,使用一种新的平滑函数来平滑非对称输入约束信号,从而将输入约束和致动器故障控制问题转化为可变增益控制问题。随后,提出了一种新的 Nussbaum 函数来解决可变增益控制问题。设计了一种新的自适应事件触发策略来解决通信限制问题,触发阈值具有可动态降低的自适应调整特性。针对外部干扰,设计了自适应法则来估计和补偿干扰的边界。通过基于 Lyapunov 理论的分析可知,在所提出的控制器下,跟随者将在有限的时间内收敛到领导者所形成的凸包络中,实现了无 Zeno。仿真结果验证了所开发的自适应事件触发有限时间容错遏制控制法的有效性。
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来源期刊
CiteScore
7.30
自引率
14.60%
发文量
586
审稿时长
6.9 months
期刊介绍: The Journal of The Franklin Institute has an established reputation for publishing high-quality papers in the field of engineering and applied mathematics. Its current focus is on control systems, complex networks and dynamic systems, signal processing and communications and their applications. All submitted papers are peer-reviewed. The Journal will publish original research papers and research review papers of substance. Papers and special focus issues are judged upon possible lasting value, which has been and continues to be the strength of the Journal of The Franklin Institute.
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