Robust Finite-Time Control for Autonomous Operation of an Inverter-Based Microgrid
Recently, more and more small-scale renewable generation sources based distributed generators are integrated to the existing power network through power electronic-based converters. Microgrid has been proposed as a solution to meet the challenges posed by highly intermittent renewable generations. T...
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Veröffentlicht in: | IEEE transactions on industrial informatics 2017-10, Vol.13 (5), p.2717-2725 |
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description | Recently, more and more small-scale renewable generation sources based distributed generators are integrated to the existing power network through power electronic-based converters. Microgrid has been proposed as a solution to meet the challenges posed by highly intermittent renewable generations. To address the fast response and complex operating conditions of various inverters in an autonomous microgrid, this paper proposes a robust finite-time control algorithm for frequency/voltage regulation and active/reactive power control. The major advantages of the proposed control algorithm include, being robust and stable against various load disturbances, unmodeled dynamics and system parameter perturbations; enabling flexible convergence time according to user preferences and different operating conditions' requirements. The finite-time convergence of the robust control algorithm is guaranteed through rigorous analysis and the balance between control accuracy and chattering suppression is investigated. Simulation results demonstrate the effectiveness of the proposed robust finite-time control algorithm. |
doi_str_mv | 10.1109/TII.2017.2693233 |
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Microgrid has been proposed as a solution to meet the challenges posed by highly intermittent renewable generations. To address the fast response and complex operating conditions of various inverters in an autonomous microgrid, this paper proposes a robust finite-time control algorithm for frequency/voltage regulation and active/reactive power control. The major advantages of the proposed control algorithm include, being robust and stable against various load disturbances, unmodeled dynamics and system parameter perturbations; enabling flexible convergence time according to user preferences and different operating conditions' requirements. The finite-time convergence of the robust control algorithm is guaranteed through rigorous analysis and the balance between control accuracy and chattering suppression is investigated. Simulation results demonstrate the effectiveness of the proposed robust finite-time control algorithm.</description><identifier>ISSN: 1551-3203</identifier><identifier>EISSN: 1941-0050</identifier><identifier>DOI: 10.1109/TII.2017.2693233</identifier><identifier>CODEN: ITIICH</identifier><language>eng</language><publisher>Piscataway: IEEE</publisher><subject>Active control ; Algorithms ; Chattering ; Computer simulation ; Control algorithms ; Control theory ; Convergence ; Converters ; Distributed generation ; Electrical loads ; finite-time convergence ; Frequency control ; Heuristic algorithms ; inverter ; microgrid ; Microgrids ; Power control ; Reactive power ; Robust control ; Robustness ; Uncertainty ; User requirements ; Voltage control</subject><ispartof>IEEE transactions on industrial informatics, 2017-10, Vol.13 (5), p.2717-2725</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Microgrid has been proposed as a solution to meet the challenges posed by highly intermittent renewable generations. To address the fast response and complex operating conditions of various inverters in an autonomous microgrid, this paper proposes a robust finite-time control algorithm for frequency/voltage regulation and active/reactive power control. The major advantages of the proposed control algorithm include, being robust and stable against various load disturbances, unmodeled dynamics and system parameter perturbations; enabling flexible convergence time according to user preferences and different operating conditions' requirements. The finite-time convergence of the robust control algorithm is guaranteed through rigorous analysis and the balance between control accuracy and chattering suppression is investigated. 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subjects | Active control Algorithms Chattering Computer simulation Control algorithms Control theory Convergence Converters Distributed generation Electrical loads finite-time convergence Frequency control Heuristic algorithms inverter microgrid Microgrids Power control Reactive power Robust control Robustness Uncertainty User requirements Voltage control |
title | Robust Finite-Time Control for Autonomous Operation of an Inverter-Based Microgrid |
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