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Distributed LQR-based Suboptimal Control for Coupled Linear Systems

机译：基于LQR的耦合线性系统的SubOlostimal控制

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摘要

A well-established distributed LQR method for decoupled systems is extended to the dynamically coupled case where the open-loop systems are dynamically dependent. First, a fully centralized controller is designed which is subsequently substituted by a distributed state-feedback gain with sparse structure. The control scheme is obtained by optimizing an LQR performance index with a tuning parameter utilized to emphasize/de-emphasize relative state difference between interconnected systems. Overall stability is guaranteed via a simple test applied to a convex combination of Hurwitz matrices, the validity of which leads to stable global operation for a class of interconnection schemes. It is also shown that the suboptimality of the method can be assessed by measuring a certain distance between two positive definite matrices which can be obtained by solving two Lyapunov equations.

机译：用于解耦系统的良好的分布式LQR方法被扩展到开环系统动态地依赖的动态耦合的情况。首先，设计完全集中的控制器，随后被具有稀疏结构的分布式状态反馈增益代替。通过利用用于强调/去强调互联系统之间的相对状态差异的调谐参数优化LQR性能索引来获得控制方案。通过应用于Hurwitz矩阵的凸组合的简单测试保证整体稳定性，其有效性导致一类互连方案的全球运行稳定。还可以示出通过测量通过求解两个Lyapunov方程可以获得的两个正定矩阵之间的一定距离来评估该方法的子优相。

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来源
《IFAC Workshop on Distributed Estimation and Control in Networked Systems 》|2020年|390p|共6页
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作者
Eleftherios E. Vlahakis; Leonidas D. Dritsas; George D. Halikias;
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原文格式 PDF
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中图分类 TP273-53;
关键词
Distributed LQR; Coupled linear systems; Multi-agent control; Networked control;

机译：分布式LQR;耦合线性系统;多种子体控制;网络控制;

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专利

1. Distributed LQR-based Suboptimal Control for Coupled Linear Systems ? [J] . Eleftherios E. Vlahakis, Leonidas D. Dritsas, George D. Halikias IFAC PapersOnLine . 2019 ,第20期

机译：基于LQR的耦合线性系统的次优控制？
2. LQR-Based Optimal Distributed Cooperative Design for Linear Discrete-Time Multiagent Systems [J] . Huaguang Zhang, Tao Feng, Hongjing Liang, Neural Networks and Learning Systems, IEEE Transactions on . 2017 ,第3期

机译：基于LQR的线性离散多主体系统最优分布式协同设计
3. Distributed Linear Quadratic Tracking Control for Leader-Follower Multi-Agent Systems: A Suboptimality Approach ? [J] . Junjie Jiao, Harry L. Trentelman, M. Kanat Camlibel IFAC PapersOnLine . 2020 ,第2期

机译：用于领导者跟随器多智能体系的分布式线性二次跟踪控制：aupoptimality方法？
4. Distributed LQR-based Suboptimal Control for Coupled Linear Systems [C] . Eleftherios E. Vlahakis, Leonidas D. Dritsas, George D. Halikias IFAC Workshop on Distributed Estimation and Control in Networked Systems . 2020

机译：基于LQR的耦合线性系统的SubOlostimal控制
5. Optimal and H(infinity) suboptimal feedback control of dynamical nonlinear systems for control of wing rock motion. [D] . Shue, Shyh-Pyng. 1997

机译：动态非线性系统的最优和H（无穷）次最优反馈控制，用于控制机翼岩石运动。
6. Distributed Leader-Following Finite-Time Consensus Control for Linear Multiagent Systems under Switching Topology [O] . Xiaole Xu, Shengyong Chen, Lixin Gao -1

机译：切换拓扑下线性多主体系统的分布式领导者跟随有限时间共识控制
7. Distributed Linear Quadratic Tracking Control for Leader-Follower Multi-Agent Systems: A Suboptimality Approach [O] . Junjie Jiao, Harry L. Trentelman, M. Kanat Camlibel 2020

机译：用于领导者追随者多助理系统的分布式线性二次跟踪控制：次优化方法
8. A Systematic Nonlinear State Feedback Suboptimal Control Design for a Class of Nonlinear Systems. [R] . yong,angelo augusto 1975

机译：一类非线性系统的系统非线性状态反馈次优控制设计。

Distributed LQR-based Suboptimal Control for Coupled Linear Systems

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