WITHDRAWN: Stabilized micro grid using enhanced ANFIS-PID with SVPWM controller through HAPSO optimized selective harmonic elimination

Abstract

Abstract The Microgrid (MG) paradigm is developing as a striking solution for the designs of future grids. In islanded micro grid, the variances in the system cause MG flimsiness. A portion of the controllers used to handle such issue are powerless against stack aggravation and results in an impressive voltage vacillation, or frequency variety, of the micro grid. Subsequently in this examination work we propose a novel fell controller system with the incorporation of EANFIS-PID controller and SVPWM controller. The EANFIS-PID controller is responsible for the erratic irregularities of voltage and frequency though the SVPWM controller is in charge of current vacillations that are the higher request harmonics. The proposed fell controller in this manner produces a balanced out micro grid with higher system effectiveness. Likewise a novel Hybrid Artificial Bee Colony-Particle Swarm Optimization (HAPSO) based Selective Harmonic Elimination (SHE) conspire is utilized in SVPWM controller for wiping out the harmonics produced by the VSC inverter. The proposed system is confirmed through MATLAB/SIMULINK stage and from the reproduction comes about it has been demonstrated that this outcomes in a more responsive control activity contrasted with the conventional controllers.