Nabil Mohammed
Lecturer, Electrical Engineering
Nabil Mohammed (Senior Member, IEEE) received the bachelor’s degree (Hons.) in electrical power engineering from Tishreen University, Syria, in 2013, the M.Eng. (Mechatronics and Automatic Control) degree from Universiti Teknologi Malaysia, Malaysia, in 2017, and the Ph.D. degree in power electronics from Macquarie University, Australia, in 2022.
He is currently a Lecturer in Electrical Engineering at the Institute of Innovation, Science and Sustainability, Federation University Australia. Between 2024 and 2025, he served as a Consultant and Research Scientist at the Computer, Electrical and Mathematical Sciences & Engineering (CEMSE) division at King Abdullah University of Science and Technology (KAUST), Saudi Arabia. Prior to that, he held a Research Fellow position at Monash University, Australia, from 2021 until 2024. During the summer of 2019, he was a Visiting Researcher with the Department of Energy Technology, Aalborg University, Denmark.
His research interests include power electronic converters, renewable energy generation and integration in power systems, microgrids, energy storage and management systems, and modeling and control of electric systems.
Further information can be found at the following links:
A Stability Margin Indicator for Transient Stability of Inverter-Dominated Mesh Power Networks
Data-driven estimation of impedance of inverter-based resources for efficient stability evaluation
Effects of Control Loop Interactions on Maximum Power Transfer Capability of Weak-Grid-Tied Grid-Following Inverters
Operational Performance Assessment of PV-Powered Street Lighting: A Comparative Study of Different Machine Learning Prediction Models
Optimal sizing and performance assessment of stand-alone PV systems using optimum hybrid sizing strategy
Topology design of variable speed drive systems for enhancing power quality in industrial grids
Wideband Binary Identification of Grid Impedance Using Different Models
Advanced Resilience Planning for Distribution Systems
Analytical Methods for Determination of Stable Operation of IBRs in Future Power System
An Efficient Method to Estimate Admittance of Black-boxed Inverter-based Resources for Varying Operating Points
Comparative Analysis of Grid-Forming Inverters: Influence of Control Parameters and Grid Conditions on Transient Stability
Comparative Analysis of the Power Output Capabilities of Grid-Following and Grid-Forming Inverters Considering Static, Dynamic, and Thermal Limitations
Decentralized Bus Voltage Restoration for DC Microgrids
Enhancing Loadability of Transmission Lines Using Static Synchronous Series Compensator Devices: A Case Study of the Syrian Network
Grid-Forming Inverters: A Comparative Study of Different Control Strategies in Frequency and Time Domains
Operating-Point-Parameterized State-Space Models of Black-Boxed Grid-Following Inverters for Maximum Transferable Active Power Prediction
PRBS-Based Impedance Measurement Tool for Stability Analysis of Black-Box EMT Models in PSCAD
Python-Based Cross-Platform Impedance Benchmarking Tool (CroZBenMa) for IBR's EMT Models in Matlab/Simulink and PSCAD/EMTDC
Quantifying Stability in Inverter-Based Weak Grids in the Presence of Synchronous Condensers
Rapid Admittance Measurement of Power Converters Using Double-PLL Grid-Following Inverters
Support Vector Machines for Predicting the Impedance Model of Inverter-Based Resources
Techno-Economical Evaluation of Photovoltaic-Powered Street Lighting Systems
Transient Stability Analysis of Power-Synchronized PLL-Less Grid-Following Inverters
Voltage and Current Dynamics Cancellation of Weak-Grid-Tied Grid-Following Inverters for Maximum Transferable Power Improvement
Accurate control of virtual oscillator-controlled islanded AC microgrids
Accurate power sharing for islanded DC microgrids considering mismatched feeder resistances
Accurate Reactive Power Sharing Strategy for Droop-Based Islanded AC Microgrids
A Three-Phase Hybrid Multilevel Inverter for Medium Voltage Applications
Communication-Free Equivalent Grid Impedance Estimation Technique for Multi-Inverter Systems
Double-Synchronous-Reference-Frame-Based Power-Synchronized PLL-Less Grid-Following Inverters for Unbalanced Grid Faults
Grid-Forming Power Inverters: Control and Applications
Identification of Voltage and Current Dynamic-Induced Impedance Contributions for Insights into VSG Low-Frequency Instability
Introduction - Grid-Forming Power Inverters: Control and Applications
Online Grid Impedance Estimation-Based Adaptive Control of Virtual Synchronous Generators Considering Strong and Weak Grid Conditions
Self-sufficient solar power and electric vehicle penetration: A case study of New York State
Virtual oscillator-controlled grid-forming inverters incorporating online parametric grid impedance identification
Voltage and Current Dynamics-Canceled Virtual Synchronous Generators for Stability Guarantee