Dynamic Tube Control for DC Microgrids

IF 2.4 Q2 AUTOMATION & CONTROL SYSTEMS IEEE Control Systems Letters Pub Date : 2024-09-19 DOI:10.1109/LCSYS.2024.3464329
Grigoris Michos;George C. Konstantopoulos;Paul A. Trodden
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Abstract

This letter proposes a dynamic tube control approach for DC Microgrids (MGs) connected to constant power loads (CPL) that guarantees boundedness of the system dynamics, satisfaction of the desired operational constraints and closed-loop stability. Contrary to many approaches in the literature, we consider an explicit model of the dynamics to investigate the geometric effect of the load demand perturbations on the behaviour of the closed loop system. Combined with the use of nominal dynamics, i.e., dynamics parametrized by a constant load demand, this allows us to formulate, for the first time, necessary conditions for the existence of a tube around a nominal solution that bounds all possible uncertain trajectories stemming from perturbations of the load demand. Furthermore, we show that the computation of the tube follows a fully decentralized approach and its size is dependent on the nominal dynamics, which we use in the regulation of the nominal solution to reduce the conservativeness of the controller. The effectiveness of the proposed control architecture is illustrated in a simulated scenario.
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直流微电网的动态磁管控制
本文提出了一种用于连接恒定功率负载(CPL)的直流微电网(MG)的动态管控方法,它能保证系统动态的有界性、满足所需的运行约束和闭环稳定性。与文献中的许多方法不同,我们考虑了明确的动态模型,以研究负载需求扰动对闭环系统行为的几何影响。结合使用标称动力学(即以恒定负载需求为参数的动力学),我们首次提出了标称解周围管道存在的必要条件,该管道限制了负载需求扰动引起的所有可能的不确定轨迹。此外,我们还表明,管道的计算遵循完全分散的方法,其大小取决于标称动态,我们在标称解的调节中使用该动态来降低控制器的保守性。我们在模拟场景中说明了拟议控制架构的有效性。
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来源期刊
IEEE Control Systems Letters
IEEE Control Systems Letters Mathematics-Control and Optimization
CiteScore
4.40
自引率
13.30%
发文量
471
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