Model Predictive Control Framework Design for Frequency Regulation of PREYs Participating in Interconnected Smart Grid

Abstract

This paper presents the design of discrete time model predictive controller (MPC) for frequency regulation of multi-area interconnected smart grid. The design of the controller is done for multi area tie-in smart grid populated with PHEVs. The controller is designed based on discrete values function which can ensure high performance of frequency regulation of smart grid. The aim of designing the controller is to stabilize frequency fluctuation in a nominal range. The robustness is tested by considering different load and uncertainties. The performance is evaluated by using Matlab Simulink. The simulation results show that the proposed controller ensures high tracking performance for frequency stabilization of smart grid.