A Cooperative MHE-Based Distributed Model Predictive Control for Voltage Regulation of Low-Voltage Distribution Networks DOI Open Access
Yongqing Lv, Xiaobo Dou, Kexin Zhang

et al.

Symmetry, Journal Year: 2025, Volume and Issue: 17(4), P. 513 - 513

Published: March 28, 2025

This paper presents a moving horizon estimator-based cooperative model predictive control strategy for low-voltage distribution area equipped with symmetric distributed generators (DGs). First, DGs have their symmetries in the structures that can be utilized design. Then, simplified using feedback linearization theory hierarchical reduces high-order detailed models to low-order ones. To supplement loss of accuracy and reliability proposed model, controller introduces estimator observe unmeasured state variables under poor communication condition network. Compared conventional method, has advantages handling uncertain disturbances, delays, constraints, etc. Furthermore, all measured observed information, executed, stability feasibility are given. Finally, effectiveness technique is verified through simulation based on Matlab/Simulink.

Language: Английский

A Cooperative MHE-Based Distributed Model Predictive Control for Voltage Regulation of Low-Voltage Distribution Networks DOI Open Access
Yongqing Lv, Xiaobo Dou, Kexin Zhang

et al.

Symmetry, Journal Year: 2025, Volume and Issue: 17(4), P. 513 - 513

Published: March 28, 2025

This paper presents a moving horizon estimator-based cooperative model predictive control strategy for low-voltage distribution area equipped with symmetric distributed generators (DGs). First, DGs have their symmetries in the structures that can be utilized design. Then, simplified using feedback linearization theory hierarchical reduces high-order detailed models to low-order ones. To supplement loss of accuracy and reliability proposed model, controller introduces estimator observe unmeasured state variables under poor communication condition network. Compared conventional method, has advantages handling uncertain disturbances, delays, constraints, etc. Furthermore, all measured observed information, executed, stability feasibility are given. Finally, effectiveness technique is verified through simulation based on Matlab/Simulink.

Language: Английский

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