Mazin Mustafa Mahdi scite author profile

This paper presented a smartness 2-D lookup table (2-DLT) control by means of adaptation gain to develop a frequency controller and facilitate the power-sharing requirements in an isolated micro-grid system. This intelligence of an expert controller adopts the scale of adaptation gain for estimating control design. Synchronous power generators are commonly used to provide power to distant and isolated regions where grid expansion is expensive due to economic and technical constraints. Load frequency control (LFC) technology challenges to guarantee the reliability and stability regarding the system. It is known that conventional control methods are unreliable due to frequency variation and sudden changes in the load or failure generation. Traditional control and criteria may not be appropriate for the new structural networks, such as micro-grid. In this work, the performance of the proposed 2-DLT controller is examined and compared to the classical proportional integral (PI) controller and artificial neural network (ANN). The simulation system is implemented and tested using MATLAB/Simulink.

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Hybrid micro-grid control and active power sharing using MIT rule based on speed droop controller

Mahdi

Ahmad

2016

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Mazin Mustafa Mahdi

Load Frequency Control for Hybrid Micro-grid Using MRAC with ANN Under-sudden Load Changes

Load frequency control in microgrid using fuzzy logic table control

Fuzzy logic controller based Shunt Active Power Filter for Current Harmonic Compensation

Simulation of adaptive gain control via 2-D lookup table for isolated hybrid micro-grid system

Hybrid micro-grid control and active power sharing using MIT rule based on speed droop controller

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