A type-3 fuzzy control for current sharing and voltage balancing in microgrids

This paper studies the current sharing and voltage balancing problems of direct current microgrids (DC-MGs) consisting of distributed generation units (DGUs) connected by a communication network. The main challenge is that the DC-MG model is prone to unknown dynamic models and external disturbances....

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Published inApplied soft computing Vol. 129; p. 109636
Main Authors Taghieh, Amin, Mohammadzadeh, Ardashir, Zhang, Chunwei, Kausar, Nasreen, Castillo, Oscar
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2022
Subjects
Current sharing
Kalman filter
Learning algorithm
Microgrid
Type-3 fuzzy logic
Voltage balancing
Voltage balancing
Microgrid
Type-3 fuzzy logic
Current sharing
Learning algorithm
Kalman filter
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Abstract This paper studies the current sharing and voltage balancing problems of direct current microgrids (DC-MGs) consisting of distributed generation units (DGUs) connected by a communication network. The main challenge is that the DC-MG model is prone to unknown dynamic models and external disturbances. Moreover, the voltage at each DGU’s point of coupling (PC) has to converge to its desired value while the information of the DGU filter current is exchanged with the nearest neighbors. To this end, the suggested distributed control algorithm benefits from an interval type-3 fuzzy logic system (IT3FLS). To enhance the accuracy of the approximation, a learning strategy is designed based on a correntropy unscented Kalman filter (CUKF) with a fuzzy kernel size. Utilizing the approximation technique and merging the consensus-based secondary control policy with the proposed type-3 fuzzy (T3F) controller result in the balanced voltages of the closed-loop DC-MG. The convergence of the trajectories of the DC-MG is ensured and the effects of approximation error signals are investigated via the proposed method. Furthermore, the robustness of the voltages and currents against unknown uncertainties admits the efficiency of the suggested learning-based control policy. The simulation results also confirm the appropriate transient response and the robustness of trajectories, thus the suggested controller can be implemented for practical cases. •A novel type-3 fuzzy-based control policy is designed for DC microgrids.•A simple learning approach is proposed for the online optimization of the fuzzy controller.•The suggested fuzzy-based compensator preserves the robust current sharing and voltage balancing.•The limitations and constraints imposed on the operation of the distributed controllers are studied.•The effects of unknown uncertainties incorporating complex high-order nonlinearities and also error signals are investigated.
AbstractList This paper studies the current sharing and voltage balancing problems of direct current microgrids (DC-MGs) consisting of distributed generation units (DGUs) connected by a communication network. The main challenge is that the DC-MG model is prone to unknown dynamic models and external disturbances. Moreover, the voltage at each DGU’s point of coupling (PC) has to converge to its desired value while the information of the DGU filter current is exchanged with the nearest neighbors. To this end, the suggested distributed control algorithm benefits from an interval type-3 fuzzy logic system (IT3FLS). To enhance the accuracy of the approximation, a learning strategy is designed based on a correntropy unscented Kalman filter (CUKF) with a fuzzy kernel size. Utilizing the approximation technique and merging the consensus-based secondary control policy with the proposed type-3 fuzzy (T3F) controller result in the balanced voltages of the closed-loop DC-MG. The convergence of the trajectories of the DC-MG is ensured and the effects of approximation error signals are investigated via the proposed method. Furthermore, the robustness of the voltages and currents against unknown uncertainties admits the efficiency of the suggested learning-based control policy. The simulation results also confirm the appropriate transient response and the robustness of trajectories, thus the suggested controller can be implemented for practical cases. •A novel type-3 fuzzy-based control policy is designed for DC microgrids.•A simple learning approach is proposed for the online optimization of the fuzzy controller.•The suggested fuzzy-based compensator preserves the robust current sharing and voltage balancing.•The limitations and constraints imposed on the operation of the distributed controllers are studied.•The effects of unknown uncertainties incorporating complex high-order nonlinearities and also error signals are investigated.
ArticleNumber 109636
Author Castillo, Oscar
Kausar, Nasreen
Mohammadzadeh, Ardashir
Taghieh, Amin
Zhang, Chunwei
Author_xml – sequence: 1
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  surname: Taghieh
  fullname: Taghieh, Amin
  email: amin.taghiyeh@yahoo.com
  organization: Multidisciplinary Center for Infrastructure Engineering, Shenyang University of Technology, Shenyang 110870, China
– sequence: 2
  givenname: Ardashir
  orcidid: 0000-0001-5173-4563
  surname: Mohammadzadeh
  fullname: Mohammadzadeh, Ardashir
  email: a.mzadeh@sut.edu.cn
  organization: Multidisciplinary Center for Infrastructure Engineering, Shenyang University of Technology, Shenyang 110870, China
– sequence: 3
  givenname: Chunwei
  surname: Zhang
  fullname: Zhang, Chunwei
  email: zhangchunwei@sut.edu.cn
  organization: Multidisciplinary Center for Infrastructure Engineering, Shenyang University of Technology, Shenyang 110870, China
– sequence: 4
  givenname: Nasreen
  surname: Kausar
  fullname: Kausar, Nasreen
  email: nkausar@yildiz.edu.tr
  organization: Department of Mathematics, Faculty of Arts and Sciences, Yildiz Technical University, Esenler, 34210, Istanbul, Turkey
– sequence: 5
  givenname: Oscar
  surname: Castillo
  fullname: Castillo, Oscar
  email: ocastillo@tectijuana.mx
  organization: Division of Graduate Studies and Research, Tijuana Institute of Technology, Tijuana, Mexico
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Keywords Voltage balancing
Microgrid
Type-3 fuzzy logic
Current sharing
Learning algorithm
Kalman filter
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Snippet This paper studies the current sharing and voltage balancing problems of direct current microgrids (DC-MGs) consisting of distributed generation units (DGUs)...
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SourceType Enrichment Source
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Publisher
StartPage 109636
SubjectTerms Current sharing
Kalman filter
Learning algorithm
Microgrid
Type-3 fuzzy logic
Voltage balancing
Title A type-3 fuzzy control for current sharing and voltage balancing in microgrids
URI https://dx.doi.org/10.1016/j.asoc.2022.109636
Volume 129
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