Her scientific interests lie mostly in Electronic engineering, Modular design, Voltage, Capacitor and Control theory. Her Electronic engineering research includes themes of Buck converter, Electronic circuit and Boost converter. Her work carried out in the field of Voltage brings together such families of science as Support vector machine and Modulation.
Her research integrates issues of Pulse-width modulation and HVDC converter in her study of Capacitor. Maryam Saeedifard focuses mostly in the field of Control theory, narrowing it down to topics relating to Space vector modulation and, in certain cases, Power factor, Modulation index and Forward converter. In her research, Voltage droop, Host and Smart grid is intimately related to Model predictive control, which falls under the overarching field of Control engineering.
Electronic engineering, Control theory, Voltage, Modular design and Converters are her primary areas of study. Her Electronic engineering research incorporates elements of HVDC converter, Pulse-width modulation, Space vector modulation, AC power and Boost converter. She has included themes like Control engineering, Model predictive control and Modulation in her Control theory study.
The concepts of her Voltage study are interwoven with issues in Electronic circuit, Minification, Support vector machine, Fault and Algorithm. Her work in Converters covers topics such as Transformer which are related to areas like EMI. Her studies deal with areas such as Ripple, Power electronics, Voltage regulation and Reliability as well as Capacitor.
Maryam Saeedifard mostly deals with Converters, Voltage, Modular design, Control theory and Electrical engineering. The various areas that Maryam Saeedifard examines in her Converters study include Redundancy, MATLAB, Transformer and Electric power system. Her Electric power system research integrates issues from Control engineering and Admittance.
Her biological study spans a wide range of topics, including Topology, Support vector machine, Fault tolerance, Fault and Topology. Her Modular design study spans across into areas like Electronic engineering, AC power, System level, Reliability engineering and Capacitor. Her Control theory research is multidisciplinary, incorporating perspectives in Electrical impedance, Wind power and Current limiting reactor.
Maryam Saeedifard mainly focuses on Electrical engineering, Converters, Voltage, Photovoltaic system and Energy storage. Her Converters research incorporates themes from Redundancy, Reliability engineering and Capacitor. Maryam Saeedifard combines subjects such as Fault, Circuit breaker, Control theory and Lightning arrester with her study of Voltage.
Her study in Control theory is interdisciplinary in nature, drawing from both Electric power transmission, Model predictive control and Automatic Generation Control. Her work deals with themes such as Electricity generation, System model, AC power and Frequency response, which intersect with Photovoltaic system. Her work on Energy storage sizing as part of general Energy storage research is often related to Production, thus linking different fields of science.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Trends in Microgrid Control
Daniel E. Olivares;Ali Mehrizi-Sani;Amir H. Etemadi;Claudio A. Canizares.
IEEE Transactions on Smart Grid (2014)
Operation, Control, and Applications of the Modular Multilevel Converter: A Review
Suman Debnath;Jiangchao Qin;Behrooz Bahrani;Maryam Saeedifard.
IEEE Transactions on Power Electronics (2015)
Dynamic Performance of a Modular Multilevel Back-to-Back HVDC System
Maryam Saeedifard;Reza Iravani.
IEEE Transactions on Power Delivery (2010)
Predictive Control of a Modular Multilevel Converter for a Back-to-Back HVDC System
Jiangchao Qin;M. Saeedifard.
IEEE Transactions on Power Delivery (2012)
A Carrier-Based PWM Strategy With Zero-Sequence Voltage Injection for a Three-Level Neutral-Point-Clamped Converter
J. Pou;J. Zaragoza;S. Ceballos;M. Saeedifard.
IEEE Transactions on Power Electronics (2012)
Dynamic Averaged and Simplified Models for MMC-Based HVDC Transmission Systems
H. Saad;J. Peralta;S. Dennetiere;J. Mahseredjian.
IEEE Transactions on Power Delivery (2013)
Real-Time Simulation Technologies for Power Systems Design, Testing, and Analysis
M. D. Omar Faruque;Thomas Strasser;Georg Lauss;Vahid Jalili-Marandi.
IEEE Power and Energy Technology Systems Journal (2015)
Hybrid Design of Modular Multilevel Converters for HVDC Systems Based on Various Submodule Circuits
Jiangchao Qin;Maryam Saeedifard;Andrew Rockhill;Rui Zhou.
IEEE Transactions on Power Delivery (2015)
Analysis and Control of DC-Capacitor-Voltage-Drift Phenomenon of a Passive Front-End Five-Level Converter
M. Saeedifard;R. Iravani;J. Pou.
IEEE Transactions on Industrial Electronics (2007)
A Space Vector Modulation Strategy for a Back-to-Back Five-Level HVDC Converter System
M. Saeedifard;R. Iravani;Josep Pou.
IEEE Transactions on Industrial Electronics (2009)
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