Data-Driven Distributed and Localized Model Predictive Control

IEEE open journal of control systems Pub Date : 2022-03-11 DOI:10.1109/OJCSYS.2022.3171787

Carmen Amo Alonso;Fengjun Yang;Nikolai Matni

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引用次数: 5

Abstract

Motivated by large-scale but computationally constrained settings, e.g., the Internet of Things, we present a novel data-driven distributed control algorithm that is synthesized directly from trajectory data. Our method, data-driven Distributed and Localized Model Predictive Control (D

$^{3}$

LMPC), builds upon the data-driven System Level Synthesis (SLS) framework, which allows one to parameterize closed-loop system responses directly from collected open-loop trajectories. The resulting model-predictive controller can be implemented with distributed computation and only local information sharing. By imposing locality constraints on the system response, we show that the amount of data needed for our synthesis problem is independent of the size of the global system. Moreover, we show that our algorithm enjoys theoretical guarantees for recursive feasibility and asymptotic stability. Finally, we also demonstrate the optimality and scalability of our algorithm in a simulation experiment.

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数据驱动的分布式局部模型预测控制

受大规模但计算受限的环境（例如物联网）的启发，我们提出了一种直接从轨迹数据合成的新型数据驱动分布式控制算法。我们的方法，数据驱动的分布式和局部模型预测控制（D$^{3}$LMPC），建立在数据驱动的系统级综合（SLS）框架之上，该框架允许直接从收集的开环轨迹中参数化闭环系统响应。所得到的模型预测控制器可以通过分布式计算和仅局部信息共享来实现。通过对系统响应施加局部约束，我们表明我们的综合问题所需的数据量与全局系统的大小无关。此外，我们还证明了我们的算法具有递归可行性和渐近稳定性的理论保证。最后，我们还通过仿真实验证明了算法的最优性和可扩展性。

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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IEEE open journal of control systems

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