DISSERTATIONS

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[24] S. M. Rahman, doctoral candidate (2025). TBD.

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[23] Grace Muriithi, doctoral candidate (2025). TBD.

 

[22] Ali Arsalan, doctoral student (2025). TBD.

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[21] Elutunji Buriamoh, graduate (2025).Adaptive Delay Compensation Frameworks for Distributed Real-Time Co-Simulation in Power Systems.

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​[20] Ali Moghassemi, graduate (2025). Real-Time Active Thermal Management and Degradation Forecasting of Power Electronics Building Blocks In All-Electric Ships.

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[19] Laxman Timilsina, graduate (2024). Real-Time Degradation Abatement Framework for Energy Storage System in Automotive Application using Data-Driven Approaches.

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[18] Bill Ramezani, graduate (2022). Multi-criteria Performance Evaluation and Control in Power and Energy Systems.

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[17] Phuong Huu Hoang, graduate (2021). Integrating Degradation Forecasting and Abatement Framework into Advanced Distribution Management Systems.

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[16] Gokhan Ozkan, graduate (2019). An FCS-MPC Approach to Converter Control for Electrothermal Management.

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[15] James Stright, graduate (2019). A Steady-state Stability Analysis of Uniform Synchronous Power Grid Topologies.

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[14] Dallas Perkins, graduate (2018). Distributed Adaptive Droop Control for Power Management in DC Distribution Systems.

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[13] David Gonsoulin, graduate (2018). Distributed Energy Management Utilizing Model Predictive Control for Naval Ship Applications.

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[12] Huawei Yang, graduate (2018). Sensor Fault Detection and Isolation in Power Systems.

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[11] Behnaz Papari, graduate (2018). Intelligent Energy and Operation Management of AC, DC and Hybrid Microgrids Based on Evolutionary Techniques. 

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[10] James Langston, graduate, (2018). Application and Analysis of the Extended LawrenceTeleoperation Architecture to Power Hardware-in-the-Loop Simulation.

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[9] Fernand Diaz Franco, graduate. (2017). FSC-MPC for LVRT .

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[8] Farzad Ferdowsi, graduate (2016). Improvement in Distributed Control Strategies by Real-time Stability Assessment.

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[7] Tuyen Vu, graduate, (2016). Application of Stochastic-based Model Predictive Control to MVDC Shipboard Power Systems.

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[6] Sanaz Paran, graduate. (2016). Development of Advanced Algorithms for Model Predictive Control with Application to Integrated Ship Power Systems. 

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[5] Amin Salmani, graduate, (2014). Real-time Impedance-based Stability Assessment of the Power Electronic-based Components in Contemporary Distribution Systems.

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[4] Jesse Leonard, graduate, (2014). Nonlinear Modeling of DC Constant Power Loads with Frequency Domain Volterra Kernels. 

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[3] Fletcher Fleming, graduate, (2014). Realtime Switched Reluctance Machine Emulation via Magnetic Equivalent Circuits.

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[2] Yaw Nyanteh**, graduate. (2013). Application of Artificial Intelligence to Rotating Machine Condition Monitoring. 

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[1] Siyu Leng**, graduate. (2012). Coordination of Multiple Active Front-End Converters for Power Quality Improvement. 

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THESES

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[24] Justin Dobey, graduate (2023). FSC-MPC for Electro-thermal Management in Multi-level Multi-converter Environments.

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[23] Ke Sun**, graduate (2016). 

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[22] Sindhuja Sundararajan, graduate (2016). Performance Analysis of Distributed Control Algorithms using HIL Test Bed.

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[21] Beshad Mohebali, graduate (2015). Validation of a Scattering Parameter Based Model of a Power Cable for Shipboard Grounding Studies.

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[20] Patrick Breslend, graduate (2015). High Frequency Simulation Models of Rotating Machines in Ungrounded Shipboard Power Systems based on Inverse Scattering Theory.

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[19] Venkata Pothavajhala, graduate, (2014). Modeling and Analysis of Superconducting Cables.

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[18] Lee Griffin, graduate, (2014). Application of Advanced Optimization and Control for Enhanced Operation of Switched Reluctance Machines. 

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[17] Chris Widener, graduate, (2014). Solid State Fault Isolation Device Integration with Power Electronic Based Distribution Systems. 

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[16] Sanaz Paran, graduate. (2013). Utilization of Impedance Matching to Improve Damping Impedance Method-Based PHIL Interface. 

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[15] Dionne Soto, graduate. (2013). Gas Turbine-Generator System Duality Study for Real-Time PHIL Emulation Using Power Electronics Converters. 

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[14] Furkan Akar, graduate. (2012). Computationally Intelligent Algorithms in Maximum Torque per Ampere Strategies in Switched Reluctance Machines at Low Speeds.

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[13] Troy Bevis, graduate. (2012). Information-Theoretic Characterization of Dynamic Energy Systems. 

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[12] Nicholas Stroupe, graduate. (2012). Real-Time High Speed Generator System Emulation with Hardware-in-the-Loop Application. 

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[11] Yusi Liu, graduate. (2011). Application of Intelligent Tuning Algorithms for Three-Level NPC Rectifier for Shipboard Power Distribution. 

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[10] Parikshit Patil, graduate. (2011). Magnetization AC Losses in Second Generation High Temperature Superconductors. 

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[9] Michael Sattler, graduate. (2011). Utilization of Nonlinear Dynamics in the Converter Design Process.

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[8] Jainwu Cao, graduate. (2011). Analysis and Implementation of Grid-connected Solar PV with Harmonic Compensation. 

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[7] Brian A. Hacker, graduate. (2010). Development of a Virtual Grid Interface for PHEV Integration Analysis. 

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[6] Fletcher E. Fleming, graduate. (2010). Development and Implementation of a 25 kVA Phasor Based Virtual Machine. 

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[5] Kavya Rentachinthala**, graduate. (2012). Multi-rate Co-simulation Interfaces between RTDS and the OPAL-RT. 

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[4] Tabu Thevarajan**, graduate. (2011). Decentralized Multiobjective Optimization for a Heterogeneous System. 

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[3] Diomar Infante, graduate. (2011). Guiding the Selection of Physical Experiments for the Validation of a Model Designed to Study Grounding in DC Distribution Systems. 

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[2] Dorca Lee**, graduate. (2010). Response Surface Methodology for the Analysis of Grounding in a Medium Voltage DC Shipboard Power System.

 

[1] Jabid Quiroga**, graduate. (2008). Stator Winding Fault Detection for a PMSM Using Fuzzy Logic Classifier and Neural Network Model Identification. 

 

*Students funded from another principle investigator.

**Student was co-advised.

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