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Robust adaptive H-infinity based controller for islanded microgrid supplying non-linear and unbalanced loads
by
Hatata, Ahmed Y.
, El-Saadawi, Magdi M.
, Abd-Raboh, El-Hosaini E.
, Sedhom, Bishoy E.
in
Adaptive control
/ Adaptive systems
/ B8110C Power system control
/ B8120K Distributed power generation
/ C1310 Control system analysis and synthesis methods
/ C1320 Stability in control theory
/ C1330 Optimal control
/ C1340E Self‐adjusting control systems
/ C3110B Voltage control
/ C3110D Current control
/ C3110G Frequency control
/ C3340H Control of electric power systems
/ C7410B Power engineering computing
/ C7420 Control engineering computing
/ Communication
/ control engineering computing
/ Control methods
/ control system synthesis
/ Controllers
/ current error tracking
/ Distributed generation
/ distributed power generation
/ droop control loop
/ droop control method
/ Effectiveness
/ electric current control
/ Electric potential
/ fault clearance
/ frequency control
/ frequency regulation
/ Frequency variation
/ H-infinity controller
/ Infinity
/ Internal model principle
/ islanded microgrid
/ Load fluctuation
/ Matlab
/ nonlinear loads
/ off-grid mode
/ power distribution control
/ power engineering computing
/ power grids
/ power system stability
/ Repetitive control
/ repetitive control method
/ Research Article
/ robust adaptive H-infinity based controller
/ Robust control
/ Root locus
/ Simulink
/ Stability analysis
/ Step response
/ system load variation
/ system stability analysis
/ system step response
/ system voltage
/ Systems stability
/ Tracking control
/ unbalanced loads
/ Voltage
/ voltage control
/ voltage tracking
2019
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Robust adaptive H-infinity based controller for islanded microgrid supplying non-linear and unbalanced loads
by
Hatata, Ahmed Y.
, El-Saadawi, Magdi M.
, Abd-Raboh, El-Hosaini E.
, Sedhom, Bishoy E.
in
Adaptive control
/ Adaptive systems
/ B8110C Power system control
/ B8120K Distributed power generation
/ C1310 Control system analysis and synthesis methods
/ C1320 Stability in control theory
/ C1330 Optimal control
/ C1340E Self‐adjusting control systems
/ C3110B Voltage control
/ C3110D Current control
/ C3110G Frequency control
/ C3340H Control of electric power systems
/ C7410B Power engineering computing
/ C7420 Control engineering computing
/ Communication
/ control engineering computing
/ Control methods
/ control system synthesis
/ Controllers
/ current error tracking
/ Distributed generation
/ distributed power generation
/ droop control loop
/ droop control method
/ Effectiveness
/ electric current control
/ Electric potential
/ fault clearance
/ frequency control
/ frequency regulation
/ Frequency variation
/ H-infinity controller
/ Infinity
/ Internal model principle
/ islanded microgrid
/ Load fluctuation
/ Matlab
/ nonlinear loads
/ off-grid mode
/ power distribution control
/ power engineering computing
/ power grids
/ power system stability
/ Repetitive control
/ repetitive control method
/ Research Article
/ robust adaptive H-infinity based controller
/ Robust control
/ Root locus
/ Simulink
/ Stability analysis
/ Step response
/ system load variation
/ system stability analysis
/ system step response
/ system voltage
/ Systems stability
/ Tracking control
/ unbalanced loads
/ Voltage
/ voltage control
/ voltage tracking
2019
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Robust adaptive H-infinity based controller for islanded microgrid supplying non-linear and unbalanced loads
by
Hatata, Ahmed Y.
, El-Saadawi, Magdi M.
, Abd-Raboh, El-Hosaini E.
, Sedhom, Bishoy E.
in
Adaptive control
/ Adaptive systems
/ B8110C Power system control
/ B8120K Distributed power generation
/ C1310 Control system analysis and synthesis methods
/ C1320 Stability in control theory
/ C1330 Optimal control
/ C1340E Self‐adjusting control systems
/ C3110B Voltage control
/ C3110D Current control
/ C3110G Frequency control
/ C3340H Control of electric power systems
/ C7410B Power engineering computing
/ C7420 Control engineering computing
/ Communication
/ control engineering computing
/ Control methods
/ control system synthesis
/ Controllers
/ current error tracking
/ Distributed generation
/ distributed power generation
/ droop control loop
/ droop control method
/ Effectiveness
/ electric current control
/ Electric potential
/ fault clearance
/ frequency control
/ frequency regulation
/ Frequency variation
/ H-infinity controller
/ Infinity
/ Internal model principle
/ islanded microgrid
/ Load fluctuation
/ Matlab
/ nonlinear loads
/ off-grid mode
/ power distribution control
/ power engineering computing
/ power grids
/ power system stability
/ Repetitive control
/ repetitive control method
/ Research Article
/ robust adaptive H-infinity based controller
/ Robust control
/ Root locus
/ Simulink
/ Stability analysis
/ Step response
/ system load variation
/ system stability analysis
/ system step response
/ system voltage
/ Systems stability
/ Tracking control
/ unbalanced loads
/ Voltage
/ voltage control
/ voltage tracking
2019
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Robust adaptive H-infinity based controller for islanded microgrid supplying non-linear and unbalanced loads
Journal Article
Robust adaptive H-infinity based controller for islanded microgrid supplying non-linear and unbalanced loads
2019
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Overview
This study introduces a proposed control method for microgrids (MGs) in islanded (off-grid) mode. The proposed control method is developed by modifying the droop control method using H-infinity controller. In this control method, the droop control loop, current and voltage control loops are adjusted to respond to system load variation. The proposed method is an adaptive control one as it regulates the system voltage and frequency to their nominal values after system load variations. Also, it is a repetitive control method as it depends on the internal model principle that provides good performance for voltage and current error tracking. To prove the applicability and effectiveness of the proposed method, it is applied to a test system using MATLAB/Simulink under three different loading conditions. The results are compared with those of droop control and they prove the effectiveness of the proposed method in adjusting MGs under the off-grid mode of operation. Also, a system stability analysis is performed based on root locus and system step response. Robustness analysis is performed to prove the ability of the proposed controller to restore the system performance after the fault clearance.
Publisher
The Institution of Engineering and Technology,John Wiley & Sons, Inc,Wiley
Subject
/ B8120K Distributed power generation
/ C1310 Control system analysis and synthesis methods
/ C1320 Stability in control theory
/ C1340E Self‐adjusting control systems
/ C3340H Control of electric power systems
/ C7410B Power engineering computing
/ C7420 Control engineering computing
/ control engineering computing
/ distributed power generation
/ Infinity
/ Matlab
/ robust adaptive H-infinity based controller
/ Simulink
/ Voltage
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