基于积分滑动模式的非线性二阶多代理系统的自适应有限时间共识跟踪

IF 2.5 3区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

European Journal of Control Pub Date : 2024-10-14 DOI:10.1016/j.ejcon.2024.101122

Shan Wang , Xisheng Zhan , Jie Wu , Huaicheng Yan

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引用次数: 0

摘要

本文深入研究了在有向拓扑结构下具有外部干扰的二阶非线性多代理系统（MAS）的有限时间共识。本研究考虑的 MAS 由 n 个跟随者和一个领导者组成，跟随者受到有界干扰。首先，设计了一种连续非奇异积分终端滑动模式，它能有效消除奇异性和颤振。然后，引入有限时间扰动观测器来估计和补偿扰动。随后，设计了积分滑模自适应控制器，以增强系统的鲁棒性、提高响应速度和跟踪精度。此外，我们还利用 Lyapunov 理论证明了该系统能在有向连接拓扑结构下实现有限时间共识。最后，我们应用仿真验证了所提出的共识控制协议的有效性。

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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Adaptive finite-time consensus tracking for nonlinear second-order multi-agent systems based on integral sliding mode

This paper delves into the investigation of finite-time consensus for second-order nonlinear multi-agent systems (MASs) with external disturbances under directed topology. The MASs considered in this study consist of

n

followers and a leader, and the followers are subject to bounded disturbances. First, a continuous nonsingular integral terminal sliding mode is designed, which can effectively eliminate the singularity and chattering. Then, a finite-time disturbance observer is introduced to estimate and compensate for disturbances. Subsequently, an integral sliding mode adaptive controller is designed to enhance system’s robustness, improve response speed, and increase tracking accuracy. Furthermore, Lyapunov theory is utilized to demonstrate that the system achieves finite-time consensus under a directed connected topology. Finally, we apply a simulation to verify the efficacy of the proposed consensus control protocol.

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来源期刊

European Journal of Control 工程技术-自动化与控制系统

CiteScore

5.80

自引率

5.90%

发文量

131

审稿时长

1 months

期刊介绍： The European Control Association (EUCA) has among its objectives to promote the development of the discipline. Apart from the European Control Conferences, the European Journal of Control is the Association''s main channel for the dissemination of important contributions in the field. The aim of the Journal is to publish high quality papers on the theory and practice of control and systems engineering. The scope of the Journal will be wide and cover all aspects of the discipline including methodologies, techniques and applications. Research in control and systems engineering is necessary to develop new concepts and tools which enhance our understanding and improve our ability to design and implement high performance control systems. Submitted papers should stress the practical motivations and relevance of their results. The design and implementation of a successful control system requires the use of a range of techniques: Modelling Robustness Analysis Identification Optimization Control Law Design Numerical analysis Fault Detection, and so on.