Reinforcement learning-based optimal tracking control for uncertain multi-agent systems with uncertain topological networks.

ISA transactions Pub Date : 2025-01-01 Epub Date: 2024-11-29 DOI:10.1016/j.isatra.2024.11.043

Renyang You, Quan Liu

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Abstract

Recent decades, extensive applications exemplified in intelligent connected vehicles (ICVs) and unmanned aerial vehicles (UAVs) have emerged with the rapidly development of multi-agent systems (MASs). Inspired by these applications, the optimal tracking control problem for uncertain MASs under uncertain topological networks is addressed based on the theory of observer design and reinforcement learning (RL). Thus, an adaptive extended observer based on concurrent learning (CL) technique is designed to simultaneously estimate system states and unknown parameters, where unknown parameters estimated convergence is guaranteed in a relaxed persistence of excitation condition. Moreover, a Luenberger observer is designed to estimate the state of the leader under uncertain topological networks, which acts as the information compensation of the leader. Via the proposed observers, an optimal tracking control algorithm is devised leveraging actor-critic (AC)-neural network (NN), which does not require the state derivative information. Lastly, a numerical simulation is performed to demonstrate the validity of the scheme in question.

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不确定拓扑网络下不确定多智能体系统的强化学习最优跟踪控制。

近几十年来，随着多智能体系统（MASs）的快速发展，智能网联车辆（ICVs）和无人驾驶飞行器（uav）得到了广泛的应用。受这些应用的启发，基于观测器设计和强化学习（RL）理论，研究了不确定拓扑网络下不确定质量的最优跟踪控制问题。因此，设计了一种基于并发学习（CL）技术的自适应扩展观测器来同时估计系统状态和未知参数，其中未知参数估计在激励条件松弛持续下保证收敛性。此外，设计了Luenberger观测器来估计不确定拓扑网络下领导者的状态，作为领导者的信息补偿。通过提出的观测器，利用actor-critic (AC)-neural network （NN）设计了一种不需要状态导数信息的最优跟踪控制算法。最后，通过数值仿真验证了该方案的有效性。

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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ISA transactions

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