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Majid Mehrasa
Also published under:M. Mehrasa
Affiliation
San Diego State University, San Diego, USA
Topic
Electric Vehicles,Control Strategy,Power Grid,PI Controller,State Of Charge,Departure Time,Objective Function,Asymptotically Stable,Control Coefficients,Dc-link Voltage,Microgrid,Model Predictive Control,Power System,Renewable Energy Sources,Simulation Results,Electric Vehicles Charging,Grid Voltage,Lyapunov Function,Modular Multilevel Converter,Multilevel Converter,Photovoltaic System,Power Quality,Smart Charging,Transfer Function,Voltage Balancing,Arrival Time,Control Input,Control Techniques,Converter Operation,Cost Function,Current Reference,DC Link,Energy Management,Frequency Control,Frequency Of Errors,Frequency Response,Grid Current,Linear Programming,Load Power,Multilevel Inverters,Operating Conditions,Output Power,Point Of Common Coupling,Power-sharing,Reference Frame,Renewable Energy,Renewable Sources,State Variables,Steady State,Transient Response,
Biography
Majid Mehrasa (Student Member, IEEE) received the B.Sc. and M.Sc. degrees in electrical engineering from the University of Mazandaran, Babol, Iran, in 2006 and 2009, respectively.
He is currently a Researcher with the University of Trieste, Trieste, Italy. He had high contributions in many research projects such as active power filter, HVdc, microgrids, and distributed generation unit integration into power grid. His current research interests include application of nonlinear control theories into multilevel converters, virtual synchronous generators-based control strategies, and also control and power management of various kinds of microgrids.
He is currently a Researcher with the University of Trieste, Trieste, Italy. He had high contributions in many research projects such as active power filter, HVdc, microgrids, and distributed generation unit integration into power grid. His current research interests include application of nonlinear control theories into multilevel converters, virtual synchronous generators-based control strategies, and also control and power management of various kinds of microgrids.