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分布式迭代学习控制的直接设计与分析

Direct Design and Analysis of Distributed Iterative Learning Control

IEEE Transactions on Cybernetics · 2025
被引 0
ABS 3

中文导读

提出了一种无需模型的多智能体系统一致性控制方法,通过构建迭代线性数据模型直接设计学习控制协议,并证明了收敛性,简化了分析过程。

Abstract

This work aims at developing a novel direct design and analysis method of learning control protocol toward consensus performance of multiagent systems (MASs) without using any model. A nonlinear autoregressive moving average (NARMA) function is designed at first to formulate the inherent consensus dynamics with respect to the consensus error and the control protocols. Then, a consensus performance-related iterative linear data model (CPiLDM) is constructed for equivalently reformulating the NARMA consensus system's iterative dynamics in a data-driven framework. The CPiLDM does not rely on a model no matter through first-principle modeling or system identification methods. Next, a direct distributed iterative learning control (DirDILC) method is developed through an optimization technique subject to the CPiLDM. The convergence is proved directly for the virtual NARMA consensus system, without relying on the dynamics of the agent itself, and thus simplifies the analysis consequently. Since the presented DirDILC is purely data-driven without relying on an explicit model, it constitutes a significant step forward from the existing consensus control theory.

多智能体系统迭代学习控制数据驱动控制一致性控制