Rate My Professor Muslem Uddin

S. M. Muslem Uddin is an electrical engineer specializing in power systems and electronics, currently employed as a Grid Connection Engineer at AGL Energy, Australia. He obtained his B.Sc. Eng. in Electrical and Electronic Engineering from Chittagong University of Engineering and Technology (CUET), followed by an M.Eng.Sc. in Electrical Engineering from the University of Malaya. Uddin completed a Doctor of Philosophy at the University of Newcastle, Australia, as a research student in the School of Electrical Engineering and Computing within the College of Engineering, Science and Environment. During his doctoral studies, he was supervised by Professor Galina Mirzaeva and collaborated with researchers including Professor Graham Goodwin. His research focused on advanced control techniques for power converters and electrical drives, particularly model predictive control (MPC) strategies and common mode voltage (CMV) elimination to improve electrical safety and efficiency in variable speed drives and industrial applications.

Uddin's career includes significant contributions to power electronics research at the University of Newcastle, with applications in mining, renewable energy integration, and AC-DC-AC converters. He received the Research Training Program Fee Offset Scholarship in 2020 and the University of Newcastle Research Scholarship Central 50:50. Key publications encompass 'Common Mode Voltage Elimination in Variable Speed Drives for Improved Electrical Safety' (IEEE Transactions on Industry Applications, 2020), 'Robust Model Predictive Control for AFE-Inverter Drives With Common Mode Voltage Elimination' (IEEE Open Journal of Industry Applications, 2022), 'A High Performance Feedback Quantized Predictive Control of Induction Machine Drives' (2020), 'Computationally Efficient Model Predictive Control for AC-DC-AC Converter with Common Mode Voltage Elimination' (IEEE Energy Conversion Congress and Exposition, 2018), and 'Model Predictive Control of Direct Matrix Converter with Common Mode Voltage Elimination' (2019). His scholarly impact is reflected in a Google Scholar h-index of 12, with publications demonstrating advancements in predictive control for matrix converters and induction motors. Uddin continues to engage in power systems engineering, contributing to grid connection and decarbonization efforts.