A Decentralized Polytopic Control Design for a Nonlinear Grid-Forming Inverter Model

IF 4 3区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Control of Network Systems Pub Date : 2024-07-24 DOI:10.1109/TCNS.2024.3432814

Yemi Ojo;Khaled Laib

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引用次数: 0

Abstract

Autonomous inverter-based microgrids present new operational challenges, as the stabilizing inertia of synchronous generators is absent. The design of efficient control policies for grid-forming inverters is, however, a nontrivial problem where multiple control objectives need to be satisfied. We consider the problem of designing a controller that achieves desirable objectives. We propose in this article a decentralized polytopic control design that yields a state feedback voltage controller that stabilizes the inverters in the presence of droop-like controllers aiming to achieve power sharing. The voltage controller is synthesized via a convex optimization problem that uses a detailed nonlinear inverter model, where the nonlinearities are taken into account via a quasi-linear parameter-varying formulation. Our control design guarantees stability and plug-and-play capability via a decentralized condition with passivity properties, and appropriate performance specifications are satisfied, including voltage tracking capability, restricted control input, and robustness to state deviations. Our approach allows using a user-defined operating point, and through the polytopic control design, it allows us to take into account the bounds on the inverter state deviations. The performance of the controller is illustrated via simulations with detailed nonlinear models in a realistic setting.

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非线性成网逆变器模型的分散多点控制设计

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来源期刊

IEEE Transactions on Control of Network Systems Mathematics-Control and Optimization

CiteScore

7.80

自引率

7.10%

发文量

169

期刊介绍： The IEEE Transactions on Control of Network Systems is committed to the timely publication of high-impact papers at the intersection of control systems and network science. In particular, the journal addresses research on the analysis, design and implementation of networked control systems, as well as control over networks. Relevant work includes the full spectrum from basic research on control systems to the design of engineering solutions for automatic control of, and over, networks. The topics covered by this journal include: Coordinated control and estimation over networks, Control and computation over sensor networks, Control under communication constraints, Control and performance analysis issues that arise in the dynamics of networks used in application areas such as communications, computers, transportation, manufacturing, Web ranking and aggregation, social networks, biology, power systems, economics, Synchronization of activities across a controlled network, Stability analysis of controlled networks, Analysis of networks as hybrid dynamical systems.