- Interesting
- Scholarships
- UGC-CARE Journals
Top 75 Emerging Research Topics in Electrical Engineering
Discover the cutting-edge frontiers of electrical engineering with our comprehensive list of the Top 75 Emerging Research Topics
In the ever-evolving realm of Electrical Engineering, innovative research continually drives the field’s progression, shaping our future technologies and solutions. As we step into an era dominated by AI, IoT, renewable energy, and more, the scope for innovative research widens. In this article, iLovePhD listed the top 75 emerging research topics in the field of Electrical Engineering.
1. Power Systems and Renewable Energy
1.1 smart grids and micro-grids.
a. Distributed control strategies for micro-grid management.
b. Blockchain applications for secure energy transactions in smart grids.
c. Resilience and robustness enhancement in smart grid systems against cyber threats.
d. Integration of renewable energy sources in micro-grids.
e. AI-based predictive maintenance for smart grid components.
1.2 Energy Harvesting and Storage
a. Next-gen battery technologies for energy storage systems.
b. Wireless power transfer and energy harvesting for IoT devices.
c. Super-capacitors and their applications in renewable energy storage.
d. Materials research for efficient energy conversion and storage.
e. Energy-efficient architectures for IoT devices powered by energy harvesting.
1.3 Electric Vehicles and Transportation
a. Charging infrastructure optimization for electric vehicles.
b. Vehicle-to-grid (V2G) technology and bidirectional power flow.
c. Lightweight materials and design for electric vehicle batteries.
d. Autonomous electric vehicle technology and its integration into smart cities.
e. Energy-efficient route planning algorithms for electric vehicles.
2. Communications and Networking
2.1 5g and beyond.
a. AI-driven optimization for 5G network deployment.
b. mmWave communication technologies and their implications.
c. Quantum communication for secure and high-speed data transfer.
d. 6G technology and its potential applications.
e. Edge computing and its role in 5G networks.
2.2 IoT and Wireless Sensor Networks
a. Energy-efficient protocols for IoT devices.
b. AI-enabled edge computing for IoT applications.
c. Security and privacy in IoT data transmission.
d. Integration of AI with IoT for intelligent decision-making.
e. Communication challenges in massive IoT deployment.
2.3 Satellite and Space Communications
a. Low Earth Orbit (LEO) satellite constellations for global connectivity.
b. Inter-satellite communication for improved space exploration.
c. Secure communication protocols for space-based systems.
d. Quantum communication for secure space-based networks.
e. Space debris mitigation and communication systems.
3. Control Systems and Robotics
3.1 autonomous systems.
a. AI-driven control for autonomous vehicles and drones.
b. Swarm robotics and their applications in various industries.
c. Human-robot collaboration in industrial settings.
d. Autonomous navigation systems for underwater vehicles.
e. Control strategies for multi-agent systems.
3.2 Biomedical and Healthcare Robotics
a. Robotics in surgical procedures and rehabilitation.
b. Wearable robotics for physical assistance and rehabilitation.
c. Robotic prosthetics and exoskeletons for enhanced mobility.
d. Telemedicine and remote healthcare using robotic systems.
e. Ethics and regulations in medical robotics.
3.3 Machine Learning and Control
a. Reinforcement learning for control system optimization.
b. Neural network-based adaptive control systems.
c. Explainable AI in control systems for better decision-making.
d. Control strategies for complex systems using deep learning.
e. Control system resilience against adversarial attacks.
4. Electronics and Nanotechnology
4.1 nano-electronics and quantum computing.
a. Quantum-resistant cryptography for future computing systems.
b. Development of reliable qubits for quantum computers.
c. Quantum error correction and fault-tolerant quantum computing.
d. Nano-scale transistors and their applications.
e. Hybrid quantum-classical computing architectures.
4.2 Flexible and Wearable Electronics
a. Stretchable electronics for wearable applications.
b. Smart textiles and their integration with electronic components.
c. Biocompatible electronics for healthcare monitoring.
d. Energy harvesting in wearable devices.
e. Novel materials for flexible electronic devices.
4.3 Neuromorphic Engineering and Brain-Computer Interfaces
a. Neuromorphic computing for AI and cognitive systems.
b. Brain-inspired computing architectures and algorithms.
c. Non-invasive brain-computer interfaces for diverse applications.
d. Ethics and privacy in brain-computer interface technology.
e. Neuroprosthetics and their integration with neural interfaces.
5. Signal Processing and Machine Learning
5.1 sparse signal processing.
a. Compressive sensing for efficient data acquisition.
b. Sparse signal reconstruction algorithms.
c. Sparse representations in machine learning.
d. Deep learning for sparse signal recovery.
e. Applications of sparse signal processing in various domains.
5.2 Explainable AI and Interpretability
a. Interpretable machine learning models for critical applications.
b. Explainable deep learning for decision-making.
c. Model-agnostic interpretability techniques.
d. Human-centric AI and its interpretability.
e. Visual and intuitive explanations in machine learning models.
5.3 Adversarial Machine Learning and Security
a. Robust deep learning models against adversarial attacks.
b. Adversarial machine learning in cybersecurity.
c. Detecting and mitigating adversarial attacks in AI systems.
d. Secure and private machine learning protocols.
e. Ethical considerations in adversarial machine learning.
As technology continues to redefine boundaries and explore new horizons, these research topics in Electrical Engineering stand at the forefront, ready to shape the future of our world. The amalgamation of these fields showcases the diversity and depth of possibilities waiting to be unlocked by the curious minds and diligent efforts of researchers and engineers in the years to come.
- Advanced sensors
- AI Applications
- AI in robotics
- Autonomous vehicles
- Brain-machine interfaces
- Cognitive radio
- Electric vehicles
- Electrical engineering research
- Electroceuticals
- Electromagnetic compatibility
- Electronic design automation
- Electronics advancements
- Emerging research topics
- Energy efficiency
- Energy forecasting
- Energy storage
- Grid stability
- Health technology
- HVAC systems
- IoT devices
- Microgrid technology
- Molecular electronics
- Nanoelectronics
- Power systems
- quantum computing
- Quantum cryptography
- Quantum internet
- Remote Sensing
- renewable energy
- Smart buildings
- Smart grids
- Smart grids cybersecurity
- Speech and audio processing
- sustainable manufacturing
- Terahertz electronics
- VLSI design
- Wearable technology
- Wireless protocols
24 Best Online Plagiarism Checker Free – 2024
Fellowships in india 2024 -comprehensive guide, agi in research: unraveling the future of artificial intelligence, most popular, indo-sri lanka joint research programme 2024, top 488 scopus indexed journals in computer science – open access, scopus indexed journals list 2024, 480 ugc care list of journals – science – 2024, 100 cutting-edge research ideas in civil engineering, what is a phd a comprehensive guide for indian scientists and aspiring researchers, the nippon foundation fellowship programme 2025, best for you, popular posts, popular category.
- POSTDOC 317
- Interesting 257
- Journals 236
- Fellowship 134
- Research Methodology 102
- All Scopus Indexed Journals 94
Mail Subscription
iLovePhD is a research education website to know updated research-related information. It helps researchers to find top journals for publishing research articles and get an easy manual for research tools. The main aim of this website is to help Ph.D. scholars who are working in various domains to get more valuable ideas to carry out their research. Learn the current groundbreaking research activities around the world, love the process of getting a Ph.D.
Contact us: [email protected]
Google News
Copyright © 2024 iLovePhD. All rights reserved
- Artificial intelligence
- Electrical Engineering Research Topics
Among the branches of engineering, electrical engineering is one of the prevalent and noteworthy domains for managing compelling research. In the field of electrical engineering, we offer numerous Electrical Engineering Research Topics depending on the modern patterns and developments as well as for upcoming analysis; these potential topics are suitable and preferable:
- Renewable Energy Systems : To solve the disruption of sustainable sources, this study might dive intensely into the innovative energy conservation techniques. Considering the renewable energy sources like wind, solar and hydroelectric power into the grid, this research mainly concentrates on patterns, optimization and synthesization process.
- Power Electronics and Electric Vehicles (EVs) : In EVs (Electric vehicles), manage the flow of electrical energy and also enhance the energy storage findings, EV charging technologies and battery management systems by exploring the advancement of best productive power electronics.
- Smart Grids and Energy Systems : This study involves the synthesization of distributed energy resources, grid stability and energy demand management tactics. For the governance and operation of smart grids, crucially investigate the usage of modernized communication technologies.
- Machine Learning and AI Applications in Electrical Engineering : As ranging from failure prediction of electrical devices to the perspective comments and operation of electrical signals in electrical engineering, AI (Artificial Intelligence) and ML (Machine Learning) provides huge possibilities for the purpose of refining and computerizing the process.
- Nanotechnology and Nanoelectronics : By means of reorganizing the electronic devices and developing them as rapid, eco-friendly and small, evaluate the capacity of Nanotechnology. Quantum dots for displays, nanofibers for electronic textiles and advancement of nanoscale transistors are the topics involved for exploration.
- Wireless Power Transfer : For diverse applications like electric vehicles, medical implants and consumer electronics, this study highlights the advancement of best productive and wise-range power transfer systems.
- Signal Processing and Communications : Incorporating optical communication technologies, 5G and across wireless networks and secure communication protocols, this research aims for operating signals in communication systems through reviewing the modern techniques and methods.
- Biomedical Engineering and Devices : Regarding healthcare applications like diagnostic imaging systems, wearable health monitors and implanted devices and in creating novel technologies and equipment, research the integration of electrical engineering with biology and medicine.
- Cyber-Physical Systems and Security : Particularly in significant infrastructure like transportation systems, water networks and power grids, inspect the security issues of cyber-physical systems. The topic might incorporate in this like secure communication protocols, risk evaluations and intrusion detection systems.
- High-Performance Computing and Quantum Computing : Design a robust computing system which involves hardware perspectives of quantum computers and structure of energy-efficient supercomputers by analyzing the involved electrical engineering problems.
- Environmental and Sustainability Studies in Electrical Engineering : In the structure and process of electrical systems, this research topic aims in analyzing the advancement of green technologies, renewable methods and evaluation of ecological implications on electrical engineering projects.
What is the research area in power electronics?
Power electronics is the important sector of electrical engineering and it’s significantly applicable in diverse domains like electric vehicles, power systems, sustainable energy systems and furthermore. Among power electronics, we provide an outline of main research sectors:
- High-Efficiency Converters and Inverters : The productive power conversion systems are established like AC/DC, DC/AC, DC/DC, AC/AC converters which must possess advanced thermal management with great power density and minimizing the loss of energy.
- Wide Bandgap Semiconductors : In power electronic devices, conduct a study on materials usage like GaN (Gallium Nitride) and SiC (Silicon Carbide). Than conventional silicon devices, it provides advantages like smaller size, better capability and the capacity to perform at maximum temperature and voltages.
- Renewable Energy Integration : Encircling the solar panels for inverters, systems for energy storage management and converters for wind turbines, this research topic intends to attain effective synthesization of sustainable energy sources like wind, Solar PV into the grid, as it involves in developing power electronic systems.
- Electric and Hybrid Electric Vehicles (EVs/HEVs) : In HEVs (Hybrid Electric Vehicles) and EVs (Electric Vehicles) which encompasses the traction inverters, on-board chargers and DC/DC converters, regulate the flow of electrical power by designing efficient power electronics.
- Energy Storage and Management Systems : Ranging from diverse programs like energy storage to convenient electronics and examine the energy accessibility, capacity and constancy by investigating the power electronics systems for controlling energy storage findings like supercapacitors and batteries.
- Wireless Power Transfer (WPT) : This research topic highlights the scope, capability and security and it is applicable in wide areas from consumer electronics to electric vehicles, as it mainly involves in developing the domain of wireless charging and energy transmission.
- Power Electronic Packaging and Thermal Management : It is advisable to maximize the dependability, expanding the lifespan of elements and loss of heat especially for power electronic devices through establishing a modernized packaging methods and components.
- Smart Grids and Microgrids : As this research area emphasizes power electronics for the regulation and management of microgrids and smart grids ,it incorporates technologies for grid stabilization and synthesizing distributed energy sources by including converters.
- Fault Diagnosis and Reliability : In power electronic systems, predict the breakdowns earlier by reviewing the techniques and regarding power electronic elements, enhance the authenticity and strength.
- Electromagnetic Interference (EMI) and Compatibility : For verifying the consistency with other electronic devices and adhering to the regulatory principles in power electronic systems, intensely inspect the resources and mitigation tactics.
- Advanced Control Techniques for Power Electronics : As means to improve the function of power electronic systems, significantly implement the contemporary management concepts and methods that involve AI-based techniques, adaptive control and digital control.
Electrical Engineering Dissertation Writing Services
Our team of professionals specializes in providing top-notch Electrical Engineering Dissertation Writing Services. We ensure that your dissertation is crafted with utmost care, adhering to the proper style and format. Rest assured; your personal information will be handled with the utmost confidentiality. With more than 18+ years of experience in dissertation writing, our experts bring valuable insights to your work. Moreover, we meticulously follow the required citation style, adding even more value to your research. Don’t miss out on exploring the latest dissertation ideas in the field of electrical engineering department.
- Maximum Power Point Tracking and MPPT efficiency for wind and solar energy conversion standalone system
- Joint Resource Modeling and Assessment for Hybrid Distributed Solar and Wind Systems
- Optimization of solar-wind hybrid system for distributed generation
- A Comparative Analysis of Maximum Power Point Tracking Algorithms Applied to Hybrid Wind and Solar System
- A Stand-Alone Hybrid Generation System Combining Solar Photovoltaic and Wind Turbine with Simple Maximum Power Point Tracking Control
- The study of the energy management system based-on fuzzy control for distributed hybrid wind-solar power system
- Analytical Approach for Well-Being Assessment of Small Autonomous Power Systems With Solar and Wind Energy Sources
- Energy Production by Solar Tracking/ Anti-tracking Combined with Wind Turbine
- Research on Joint Operation of Wind and Solar Storage System Based on Genetic Algorithm
- A universal controller for grid-tied DC/AC converters for harnessing PV panel based solar energy and PMSG based wind energy
- A Survey of Deep Learning Techniques: Application in Wind and Solar Energy Resources
- Comprehensive review on solar, wind and hybrid wind-PV water pumping systems-an electrical engineering perspective
- A hybrid solar PV/wind energy system for voltage regulation in a microgrid
- Research on Capacity Configuration of Wind/Solar/Thermal Power and Energy Storage Complementary for UHVDC Transmission System
- Energy management based on multi-agent for independent DC micro-grid with wind solar power
- Real Time Emulation of Vector Control of DFIG in the Wind Solar Hybrid System
- OPF Solution Based on improved PSO algorithm considering stochastic solar and wind power
- A Study on Combined Batteries With A Solar / Wind Hybrid Renewable Energy System
- A hybrid wind-solar-storage energy generation system configuration and control
- Probabilistic Analysis Of Solar-Wind Gravity Energy Storage For Off-Grid Communities
EE PhD Model Program
Electrical Engineering is a broad field which draws from disparate areas of knowledge, and so instead of providing rigid course expectations the faculty suggest EE students and their advisors consider the following courses as part of their program, depending on which aspect of EE their research is most aligned with. Programs will also often contain courses from SEAS, statistics, mathematics, physics, computer science or chemistry. This description of the Electrical Engineering PhD course guidelines augments the school-wide PhD course requirements . Students should make themselves familiar with both.
The EE faculty strongly recommend all Ph.D. students also attend to professional skills such as writing and giving presentations. Classes include ES 297 Professional Writing for Scientists and Engineers and ES 301 SEAS Teaching Practicum. Other resources include the GSAS Center for Writing and Communicating Ideas , the Derek Bok Center for Teaching and Learning , and the SEAS Graduate Council 's Professional Development series.
The course lists below form a starting point for a discussion with the faculty about areas of interest. Students should work in close consultation with their advisors to develop an appropriate program plan that is consistent with the PhD Program's overall course requirements . Courses provide the background knowledge that is often needed to successfully complete research and allow students to learn more broadly about a field or related fields in a structured fashion.
Computer Engineering - suggested courses include
- ES 202 Estimation and Control of Dynamic Systems
- ES 250 Information Theory
- ES 255 Statistical Inference with Engineering Applications
- CS 283 Computer Vision
- CS 243 Advanced Computer Networks
- CS 244 Networks Design Projects
- CS 246 Advanced Computer Architecture
- CS 247r Advanced Topics in Computer Architecture
- CS 249r Advanced Topics in Edge Computing
- CS 252r Advanced Topics in Programming Languages
- CS 261 Research Topics in Operating Systems
- CS 262 Introduction to Distributed Computing
- CS 265 Big Data Systems
as well as other courses listed under Devices and Circuits below
Control and Robotics - suggested courses include
- ES 252r Advanced Topics in Robotics Research
- ES 259 Advanced Introduction to Robotics
- ES 201 Decision Theory
as well as other courses listed under Devices and Circuits
Devices and Circuits - suggested courses include
- CS 248 Advanced Design of VLSI Circuits and Systems
- Physics 223 Electronics for Scientists
- AP 195 Introduction to Solid State Physics
- AP 218 Electrical, Optical, and Magnetic Properties of Materials
- AP 295a Introduction to Quantum Theory of Solids
- AP 295b Quantum Theory of Solids
- MIT 6.341 Discrete-Time Signal Processing
- ES 273 Optics and Photonics
- ES 274 Quantum Devices
- AP 216 Electromagnetic Interactions with Matter
- AP 217 Applications of Modern Optics
- Physics 285a Modern Atomic and Optical Physics I
Photonics - suggested courses include
- AP195 Introduction to Solid State Physics
- Physics 143b Quantum Mechanics II
- Quantum Science and Engineering (QSE 200/ES200)
- Chemistry 242 Quantum Mechanics for Physical Chemistry
- Physics 251a Advanced Quantum Mechanics I
- Physics 232 Advanced Classical Electromagnetism
- ES 151 Applied Electromagnetism
- ES 173 Introduction to Electronic and Photonic Devices
- ES 277 Microfabrication Laboratory
- AP 218 Electrical, Optical and Magnetic Properties of Materials
- AP 225 Introduction to Soft Matter
- AP 284 Statistical Thermodynamics
- AP 291 Electron Microscopy Lab
- Physics 262 Statistical Physics
Signals and Information Processing - suggested courses include
- MIT 6.450 Principles of Digital Communications
- Statistics 210 Probability I
- Statistics 211 Statistical Inference I
- CS 223 Probabilistic Analysis and Algorithms
- Statistics 220 Bayesian Data Analysis
- MIT 6.262 Discrete Stochastic Processes
- Math 112 Introductory Real Analysis
- Math 136 Differential Geometry
- AM 201 Physical Mathematics I
- ES 220 Fluid Dynamics
- MIT 6.255J Optimization Methods
Note that, for Program Plans in Engineering Sciences, Physics 223 Electronics for Scientists is considered to be a 200-level SEAS-equivalent technical course.
In Electrical Engineering
- Undergraduate Engineering at Harvard
- Concentration Requirements
- How to Declare
- Who are my Advisors?
- Sophomore Forum
- ABET Information
- Senior Thesis
- Research for Course Credit (ES 91R)
- AB/SM Information
- Peer Concentration Advisors (PCA) Program
- Student Organizations
- How to Apply
- PhD Timeline
- PhD Model Program (Course Guidelines)
- Qualifying Exam
- Committee Meetings
- Committee on Higher Degrees
- Research Interest Comparison
- Collaborations
- Cross-Harvard Engagement
- Seminar Series
- Clubs & Organizations
- Centers & Initiatives
- Alumni Stories
- +91-9176966446
- [email protected]
Recent PhD Research Topic Ideas For Electrical Engineering 2020
- By Engineering and Technology
- Recent Trends
Sharing is caring!
Exclusive for scholars pursuing their PhD in Electrical Engineering with base papers (peer-reviewed articles)
- Improvement of power quality in the distribution line due to the distributed generation of renewable energy
- Machine learning based Energy management system for better optimisation of power in electric vehicles.
- Efficient and fast wireless power transfer between charging stations and electric vehicles for saving time.
- Effective optimisation of power supply in micro grids for reduced dependency on the connected main grid.
- Comparison of efficiency of various three phase grid connected converters under different grid faults.
- Comparison of different types of phase converters with respect to the efficiency.
- Comparison of power outputs and efficiency of three phase converters and inverters for wind turbines.
- Efficient power distribution through Ultra High Voltage DC (UHVDC) supply and its comparison to current AC power distribution standards
- Improvement in efficiency of stepping down power supply of UHVDC near the residential areas.
- A hybrid FACTS device that solves the issues in the SVC and STATCOM for efficient reactive power compensation
- Improvement of THD ratio in three phase cascaded multilevel power converters from one PV source.
- Efficient synchronization of frequency and stability of two different gird system with contrasting sources of power supply.
- Damping of oscillation in rotors of machines using VAR compensators .
- Improvement of smart grid stability at times of network attacks using Artificial Intelligence.
- Reactive power compensation during the convergence of grid system with distributed generation.
- Recent Posts
- Guidelines to Write a Research Proposal for Neurology Research Scholars - March 19, 2021
- How to Choose a PhD Dissertation Topic For Economic Research? List out the Criteria for Topic Selection - March 11, 2021
- Beginners Guide to Write a Research Proposal for a PhD in Computer Science - February 19, 2021
Leave a Reply Cancel reply
Your email address will not be published. Required fields are marked *
Related Posts
Soluble CD27 (sCD27) is associated with somatic immune reaction status. Moreover, sCD27 level is associated with the prognosis of patients with prostate cancer who receive immunotherapy. In this study, we assessed sCD27 levels in patients with advanced lung cancer and determined their correlation with survival and clinicopathologic parameters. Serum samples were collected from patients with advanced lung cancer, and sCD27 was quantified via enzyme-linked immunosorbent assay. The association between sCD27 levels and clinicopathologic status and patient survival was retrospectively analyzed. Of 96 patients analyzed, 73 had adenocarcinoma, 7 had squamous cell carcinoma, and 15 had small cell carcinoma. Median serum sCD27 level was 36.54 U/mL (range, undetectable-104.47); this is lower than that previously reported for patients with lung cancer, including those with localized stages. Patients with squamous cell carcinoma had higher sCD27 levels (p = 0.010). Age, performance status, and serum albumin levels were significantly correlated with serum sCD27 level. Patients with high serum sCD27 levels (\u226532.52 U/mL; n = 58) had poorer prognosis than those with low serum sCD27 levels (<32.52 U/mL, n = 38; median survival, 7.3 vs. 21.8 months, respectively, p< 0.0001). High sCD27 level is associated with poor prognosis and may reflect the immune-exhausted status of patients with advanced lung cancer.
- [email protected]
- +91-97 91 62 64 69
PhD in Electrical Engineering Topics
In general, electrical engineering is denoted as the engineering discipline that is concentrated on the design, application, and study of systems, devices, and equipment that are functional through electromagnetism, electronics, and electricity. In this article, we deliberate the significance of a PhD in electrical engineering topics using the experience of our research professionals. Firstly, we start with the substantial research field based on electrical engineering along with its specifications.
Research Areas in Electrical Engineering
- RFID systems
- Medical electronics
- Antennas and EM modeling
- Radar and sonar
- Uncooled and coherent wavelength division multiplex technology
- Advanced liquid crystal devices
- Photonic generation of THz signals
- Wireless over fiber devices and systems
- Ultrafast photonic devices
- Connected electronic and photonic systems
- Resistive switching
- Laser processing
- Diamond electronics
- Quantum nanoelectronics
- Optical materials and electronic devices
- Information security and retrieval
- Sensor networks
- IP networks
- Wireless communications
- Telecommunication networks and services
- High-speeded optical systems
- Optical packet networks
- Dense WDM optically routed networks
- Large-scale optical networks
- Optoelectronic devices and systems
Our research experts are skillful to provide the best research project in electrical engineering systems. Since, they are well-versed in mathematical logic, numerical analysis, time and space analysis, information about latest phd in electrical engineering topics, the tools, and the usage of algorithms and protocols. For instance, if you have selected your area as electrical engineering , at that time you can select your research topic from the following research fields in electrical engineering.
Research Fields in Electrical Engineering
- Electrical materials science
- Mechatronics
- Renewable energies
- Electrochemistry
- Nanotechnology
- Microwave engineering
- Electromagnetics and waves
- Power Electronics
- Spanning a huge number of specializations
- Hardware engineering
- Instrumentation and electronics
- Signal processing
- Radio frequency engineering
- Telecommunication engineering
- Power engineering
- Computer engineering
Above mentioned are the notable research fields in contemporary research based on electrical engineering. The research scholars should select their PhD in electrical engineering topics from the latest research fields. For more research references based on electrical engineering, the research scholars can reach us. Below, we have highlighted the algorithms that are used to implement the research project.
Algorithms in Electrical Engineering
- Bayesian learning
- Reinforcement learning
- Combining multiple learners
- Hidden Markov models
- Neural networks
- Dimensionality reduction
- Bayesian decision theory
These are the emerging subjects in electrical engineering that are gaining widespread significance in the research platform. We must aware of the current trends and developments in the research area before presenting the research phd in electrical engineering topics. There are also some expectations from reviewers that you must be sure to satisfy. We have discussed the substantial algorithms that are used in electrical engineering research projects.
Current Trends in Electrical Engineering
- Battery charging and discharging control of a hybrid energy system using a microcontroller
- TMTDYN: A Matlab package for modeling and control of hybrid rigid continuum robots based on discretized lumped system and reduced order models
- Establishment of a smart living environment control system
- Renewable energy in sustainable electricity and economic development
- Energy models for renewable energy utilization and to replace fossil fuels
- A new framework for the advancement of power management strategies in hybrid electric vehicles
- Robust power management via learning and game design
- Particle swarm optimization for microgrid power management and load scheduling
- High voltage driver with a switch capacitor cell and a current sensing resistor for implementing functions of zero voltage switching and overcurrent
- A modified Y Source DC/DC converter with high voltage gains and low switch stresses
- High voltage gain interleaved boost converter with Anfis-based Mppt controller for fuel cell-based applications
- An improved SCADA framework for integrated renewable substations-based microgrid central control systems
- Linear LAV-based state estimation integrating hybrid SCADA /PMU measurements
- Towards highly efficient state estimation with SCADA measurements in distribution systems
- Decentralized constrained optimal control of the multi-machine power system stability improvement
- The reduction and power quality improvement in grid-connected PV system
- Effect of intermittent power supply on the German power system
- Design and implementation of an automated residential water heating system using sustainable energy and PLC techniques
- Corporate eco-efficiency and financial performance: evidence from Guinness Nigeria PLC
- A novel hybrid fuzzy logic controller-based RFLC for fault limiting in transmission networks and its dynamic analysis
- Modified voltage control strategy for DC network with distributed energy storage using a fuzzy logic controller
- A solar-powered reconfigurable inverter topology for AC/DC homes with fuzzy logic controller
- Inverse kinematic analysis of 4 DOF pick and place arm robot manipulators using a fuzzy logic controller
- In DFIG-based WECS connected to the grid using UPQC controlled by fractional order PID and Anfis controllers
- Design of optimal PID controller for LFC and AVR in power system using PSO
- Simulation 3 DOF RRR robotic manipulator under PID controller
- Voltage controller of DC-DC buck-boost converter with proposed PID controller
- Design, analysis, and application of a new disturbance rejection PID for uncertain systems
- Forecasting methodologies of solar resources and PV power for smart grid energy management
- The cooperative internet of things enabled smart grid
- Optimal and autonomous incentive-based energy consumption scheduling algorithm for smart grid
- Can active learning benefit the smart grid a perspective on overcoming the data scarcity
- Smart grid in the context of industry 4.0 an overview of communications technologies and challenges
- A survey on smart grid technologies and applications
- Control and analysis of microgrid frequency droop with fuzzy-based WECS with EV
- Formal requirements for microgrid using Kaos and reference architecture
- Implementation of efficient energy generation of microgrid from solar power plant
We have added the above-mentioned as research trends to show and uplift your research skill level. To tell the truth, PhD in electrical engineering topics are an innovative trend set in recent days. There are lots of research topics that are coming up from the recently used applications and research techniques in the electrical engineering field . So, contact us for your requirements in research development. For your reference, our research experts have listed down the pioneering research topics in electrical engineering.
Research PhD in Electrical Engineering Topics
- Photonics and optical communications
- Sensing devices
- Microelectronics and nanoscale engineering
- Electronic engineering for agricultural applications
- Communication, digital signal processing, and radio networks
- Advanced material science and technology development
- Resilient energy and multi-energy systems
- Robotics systems, artificial intelligence, and automation
- Low-costts virtual systems and effective trains
- Top speed motors and their topologies
- High power virtual systems (HPVPS)
- Diagnosing green growth in India
- Motor design for aerospace fault tolerant
- Designing compressor motors and advanced propulsion science
- Renewable energy and hybrid electric aerospace
- Drives and controls
- DFIG Machines: improving energy efficiencies
- Wind turbine generators: 3D temperature mapping
- Cost functions for efficient electric vehicle drive systems
- Electric vehicles and health monitoring of power semiconductor modules
- Switched reluctance motors
- Extra functionality devices: advanced technology modeling
- Challenges of autonomous power systems
- Distributed generation systems: loss detection of grid events via pattern identification
- Electric vehicle motors and gearbox
- Soft magnetic composites
- Smart grid monitoring
- Computer-aided design for electrical engineering
- Energy networks and their mathematical foundations
- Electrical motors and their redesigning
- Power electronics tools and equipment
- Computation research in new technologies and materials
- Studying behavior thru computational modeling
- Piezoelectric and ferroelectrics
- Using photovoltaic, graphene, and silicon carbide
- Atomic layer interface engineering
- Design choice in the direct drive of wheel motors
- Series connected supercapacitor and li-ion capacitor cells for the active voltage equalization
- PM machines with high power and speed
Along with that, our research professionals have enlisted the notable research phd in electrical engineering topics its implementation process in the following.
Project Topics in Electrical Engineering
- Solar panel is deployed to charge the battery and the operational amplifiers are utilized to monitor the voltage along with the LED to monitor the condition of the battery
- It is the integrated control of lighting appliances and heating, ventilation, and air conditioning (HVAC). In addition, Arduino is deployed to regulate home appliances through remote
- It is used to implement the circuits with the mechanical loads in the average speed
- It is deployed to enhance the power factor through the set of capacitors that are connected parallel to switch the capacitors and that is functional as per the value of power factor
- It is used to switch the room light when a person gets in and switch it off when he leaves the room. Consequently, it displays on the LCD about the person’s entry
The research scholars will be overwhelmed to know that still there are lots and many more phd in electrical engineering topics being developed now and then depending on the real-time requirements. In addition, we have enlisted the list of simulation tools used in the research implementation.
Simulation Tools in Electrical Engineering
- The laboratory virtual instrument engineering workbench is abbreviated as LabVIEW and it is the engineering software system. It is deployed to access the data insights and hardware
- Personal simulation program with integrated circuit emphasis is abbreviated as PSPICE. It is used for the simulation and authentication process of the mixed signal and analog circuits
- It is deployed to implement the graphical simulation along with the specific toolboxes for the electric transients, transmission line, and switches for power supply, simulating and analyzing the renewable energy sources
- Solar advisor model in Simulink
- Wind turbine model in Simulink
- Its toolboxes offer various functions such as curve fitting, system identification, control system design, linear algebra, linear system implementation, optimization, etc.
The following is about the questions along with their appropriate answers and these are the questions that are frequently asked by research scholars to develop their research skills in electrical engineering. In addition, our research experts have answered these questions through their years of experience in this field.
Questions based on Electrical Engineering Research
What are the different types of power electronics.
- AC to AC converters
- DC to AC converters
- DC to DC converters
- AC to DC converters
Which project is best for electrical engineering?
- PLC and SCADA-based traffic control system
- Photovoltaic solar power generation with maximum power point tracking
- Zigbee based solar powered forest fire detection and control system
- GSM-based substation monitoring and control system
- Android-based electrical appliance control
What are the current research topics in renewable energy?
- Think tank platform for the renewable energy industry
- Membrane-enhanced reforming technology
- Bio-oil production from biomass pyrolysis technology
- Lignocellulose hydrolysis technology
- Design and construction of biodiesel production plant
Our research professionals are providing the finest research assistance for research students based on electrical and electronics engineering and electrical and communication engineering. While guiding the PhD scholars, we used to follow and provide the following processes.
- Preparation of research topic and proposal
- Paper preparation and publication support
- Annexure II
- Demonstration for the proposed research
- Provision of synopsis
- Thesis will be written along with the support of research scholars
The research projects based on electrical engineering are rendering online guidance to make research projects , pile up the assignments, implementation process, homework help, paper publication, thesis writing, phd in electrical engineering topics and much more. We have well-experienced subject-specific experts, developers, and so on who are contented to help the research scholars at all times. You can connect with us to aid more and our 24/7 customer care support is ready to offer assistance always. So, ping us to acquire the finest knowledge.
Opening Hours
- Mon-Sat 09.00 am – 6.30 pm
- Lunch Time 12.30 pm – 01.30 pm
- Break Time 04.00 pm – 04.30 pm
- 18 years service excellence
- 40+ country reach
- 36+ university mou
- 194+ college mou
- 6000+ happy customers
- 100+ employees
- 240+ writers
- 60+ developers
- 45+ researchers
- 540+ Journal tieup
Payment Options
Our Clients
Social Links
- Terms of Use
Opening Time
Closing Time
- We follow Indian time zone
Electrical Engineering, PhD
- Program description
- At a glance
- Degree requirements
- Admission requirements
- Tuition information
- Career opportunities
- Contact information
EE, approved for STEM-OPT extension, circuits, engineeringgrad, wireless
The PhD in electrical engineering is awarded upon evidence of excellence in research leading to a scholarly dissertation that is a contribution to knowledge.
Graduate courses and programs are offered in the following six areas of specialization:
- control systems
- electric power and energy systems
- electromagnetics, antennas and microwave circuits
- electronic and mixed-signal circuit design
- physical electronics and photonics
- signal processing and communications
This program may be eligible for an Optional Practical Training extension for up to 24 months. This OPT work authorization period may help international students gain skills and experience in the U.S. Those interested in an OPT extension should review ASU degrees that qualify for the STEM-OPT extension at ASU's International Students and Scholars Center website.
The OPT extension only applies to students on an F-1 visa and does not apply to students completing a degree through ASU Online.
- College/school: Ira A. Fulton Schools of Engineering
- Location: Tempe
- STEM-OPT extension eligible: Yes
84 credit hours, a written comprehensive exam, an oral comprehensive exam, a prospectus and a dissertation
Doctoral students are required to complete 84 credit hours of academic credit beyond the bachelor's degree. The following summarizes the degree course requirements:
Master's degree (30 credit hours) from any accredited institution
Electives 500 level or above (18 credit hours) at least nine credit hours of EEE courses
Research Class or Omnibus Courses (12 credit hours) can be 400-level and above or EEE 792 Research (12)
Dissertation (12 credit hours) EEE 799 Dissertation (12)
Additional Curriculum Information The 84 credit hours include 30 credit hours from the master's degree, a required 18 credit hours of doctoral coursework, 12 credit hours of research (EEE 792), and 12 credit hours (and only 12 credit hours) of dissertation (EEE 799).
The additional 12 credit hours can be more hours of research (EEE 792) or can be coursework as determined by the supervisory committee. At least nine credit hours of the minimum requirement of 18 credit hours of doctoral coursework must be in electrical engineering. EEE 790 Reading and Conference can be used for no more than three credit hours toward the required 18 but does not count toward the nine hours of 500-level EEE classes required.
All courses counting toward the required 18 credit hour minimum must be at the 500 level or higher. (Note: All courses with the prefix EEE 591 count as 400-level courses.) No more than one three-hour reading and conference course (EEE 790) may be taken as part of the 18 credit hour requirement. The content of any proposed reading and conference course must be reviewed and approved by the electrical engineering graduate program chair before a student registers for the course.
A qualifying examination, a comprehensive exam and the dissertation defense are required. Additional information on the program can be found in the Blue Student Guide published and available on the program's website.
Applicants must fulfill the requirements of both the Graduate College and the Ira A. Fulton Schools of Engineering.
Applicants are eligible to apply to the program if they have earned a bachelor's or master's degree in any field from a regionally accredited institution.
In general, a student must have a minimum GPA of 3.00 (scale is 4.00 = "A") in all undergraduate coursework and a minimum GPA of 3.50 (scale is 4.00 = "A") in all graduate coursework for admission to the doctoral program. A student usually must hold a master's degree before being admitted to the doctoral program. Direct doctoral admission is available for students graduating from an ABET-accredited electrical engineering program with a GPA of 3.60 (scale is 4.00 = "A") or higher.
All applicants must submit:
- graduate admission application and application fee
- official transcripts
- proof of English proficiency
Additional Application Information An applicant whose native language is not English must provide proof of English proficiency regardless of their current residency.
International students seeking teaching assistantships must demonstrate proficiency in spoken English by scoring at least 26 on the speaking portion of the internet-based TOEFL or 50 on the ASU-administered Speaking Proficiency English Assessment Kit.
A student whose master's degree is not from a U.S. ABET-accredited institution must score 156 or higher on the quantitative section of the GRE General Test. A good score on the writing portion is considered desirable.
ASU does not accept the GRE® General Test at home edition.
A student whose undergraduate degree is not in electrical engineering may need to take appropriate undergraduate courses to establish a baseline of knowledge in the discipline.
Applicants should see the program website for application deadlines.
The graduate with a PhD in electrical engineering has an advanced understanding of electrical engineering concepts and theories and the ability to develop and contribute to their specialization through the application of these concepts and theories.
Career examples include:
- computer hardware engineer
- computer and information research scientist
- computer network architect
- director of engineering
- electrical engineer
- electrical engineering researcher
- energy engineer
Electrical Engineering Program | GWC 209 [email protected] 480-965-3424
The Ultimate Guide to Achieving a PhD in Electrical Engineering
The pursuit of a PhD in Electrical Engineering represents the pinnacle of academic achievement in the field, signifying a commitment to advancing the frontiers of technology. In an era where technological innovation is accelerating, the role of in-depth research and specialized expertise has never been more critical. This article delves into the nuances of a PhD program in Electrical Engineering, offering insights that are valuable even to those well-versed in the subject.
Get information on Electrician programs by entering your zip code and request enrollment information.
Understanding the PhD Program
Overview of the program.
A PhD in Electrical Engineering is a rigorous research-focused degree that typically spans 4-6 years. Unlike a Master’s degree, which is often more coursework-oriented, a PhD is centered around original research, culminating in a dissertation.
Admission Requirements
- Admission to a PhD program is highly competitive, with top programs accepting only 10-15% of applicants.
- Candidates are expected to have a strong academic background, usually with a Master’s degree in Electrical Engineering or a related field.
- Research experience, evidenced by publications in peer-reviewed journals, significantly bolsters an application.
- Additionally, compelling letters of recommendation and a persuasive statement of purpose outlining research interests are crucial.
Program Structure
The first year usually involves advanced coursework to build a foundation in specialized areas. From the second year onwards, students engage in research, often while fulfilling teaching assistant responsibilities. The final year is predominantly dedicated to writing and defending the dissertation.
Specializations within Electrical Engineering PhD
Emerging fields.
- Nanotechnology : Focuses on engineering at a molecular scale, with applications in computing, healthcare, and materials science.
- Quantum computing : Involves developing computers based on quantum-mechanical phenomena, promising exponential increases in processing power.
- Renewable energy systems : Addresses the design and optimization of sustainable energy sources like solar and wind power.
Traditional Fields
- Power systems : Involves the generation, transmission, and distribution of electricity, a field that is evolving with the integration of renewable energy sources.
- Signal processing : The analysis, modification, and synthesis of signals like sound, images, and scientific measurements.
- Communications and networking : Encompasses wireless, optical, and wired communication systems and protocols.
The PhD Journey
Year-by-year breakdown.
- First Year : Focus on coursework and identifying a research area.
- Middle Years : Deep dive into research, aiming for publications in journals with impact factors ranging from 3 to 5.
- Final Year : Dissertation writing and defense, often involving external examiners from prestigious institutions.
Challenges and Rewards
PhD students often face the challenge of balancing intensive research with personal life. However, the rewards are substantial, including the development of deep expertise and the opportunity to contribute novel insights to the field.
Recommended PhD Programs in Electrical Engineering
Identifying the right PhD program is a critical decision for aspiring electrical engineers. This section highlights some of the top recommended programs, known for their cutting-edge research, distinguished faculty, and excellent career prospects.
United States
- Notable Features : Renowned for its research output and innovation.
- Average Time to Degree : 5-6 years.
- Key Research Areas : Nanoelectronics, quantum computing, and renewable energy systems.
- Notable Features : Strong industry connections, particularly in Silicon Valley.
- Key Research Areas : Autonomous systems, machine learning in electrical engineering , and advanced communications systems.
- Notable Features : Pioneering research in emerging technologies.
- Key Research Areas : Robotics, neural networks, and energy-efficient systems.
Career Opportunities Post-PhD
- University Professor : Median salary ranges from $85,000 to $150,000, depending on tenure and institution.
- Research Positions : In academic settings, these roles focus on continuing research and securing funding.
- R&D Roles : In companies like Intel, Google, and IBM , PhD graduates lead cutting-edge projects, with salaries often exceeding $130,000.
- Consulting : Expert consultants in engineering firms offer specialized knowledge, commanding high consulting fees.
Government and Nonprofit Sector
- Policy Advising : Influencing technology and energy policies, with roles often found in agencies like the Department of Energy.
- National Laboratories : Engaging in research with national and international implications.
Financial Aspects of Pursuing a PhD
Funding sources.
Most PhD students in the U.S. receive funding through fellowships, assistantships, or grants, covering tuition and providing a stipend ranging from $20,000 to $35,000 annually.
Cost-Benefit Analysis
While a PhD involves a significant time investment, the long-term financial and career benefits can be substantial, especially in research-intensive roles.
The Impact of a PhD in Electrical Engineering
- On Personal Growth. PhD graduates develop unparalleled problem-solving skills, critical thinking, and expertise in managing complex projects.
- On the Field of Electrical Engineering. PhD holders drive innovation, contributing to technological breakthroughs and influencing future trends in the field.
Navigating the Academic World
Building relationships with advisors and peers.
Choosing the right advisor, one whose research interests align with the student’s, is pivotal. Collaboration with peers enhances the research experience and builds a professional network.
Publishing and Presenting Research
Successful publishing in high-impact journals is a key component of a PhD student’s profile. Presenting at international conferences like IEEE’s conferences enhances visibility in the academic community.
Preparing for the Future
- Staying Updated with Industry Trends. Continuous learning through online courses, workshops, and professional memberships in organizations like IEEE is essential.
- Transitioning from PhD to Career. Effective career planning, leveraging university career services, and networking are crucial for a smooth transition to post-PhD roles.
Ethical Considerations in Research
PhD students must adhere to stringent ethical standards, ensuring the integrity of their research and navigating intellectual property complexities, especially in collaborative and industry-funded projects.
Electrical Engineering
Share this page.
Electrical engineering is a field within the Engineering Sciences area of study at the Harvard John A. Paulson School of Engineering and Applied Sciences. Prospective students apply through the Harvard Kenneth C. Griffin Graduate School of Arts and Sciences (Harvard Griffin GSAS). In the online application, select “Engineering and Applied Sciences” as your program choice and select "PhD Engineering Sciences: Electrical Engineering" in the area of study menu.
The electrical engineering program studies systems that sense, analyze, and interact with the world. You will learn how this practice is based on fundamental science and mathematics, creating opportunities for both theoretical and experimental research. Electrical engineers invent devices for sensing and actuation, designing physical substrates for computation, creating algorithms for analysis and control, and expanding the theory of information processing. You will get to choose from a wide range of research areas such as circuits and VLSI, computer engineering and architecture, robotics and control, and signal processing.
Electrical engineers at Harvard are pursuing work on integrated circuits for cellular biotechnology, millimeter-scale robots, and the optimization of smart power groups. Examples of projects current and past students have worked on include developing methods to trace methane emissions and improving models for hurricane predictions.
Graduates of the program have gone on to a range of careers in industry in companies such as Tesla, Microsoft HoloLens, and IBM. Others have positions in academia at the University of Maryland, University of Michigan, and University of Colorado.
Standardized Tests
GRE General: Not Accepted
APPLICATION DEADLINE
Questions about the program.
- USF Research
- USF Libraries
Digital Commons @ USF > College of Engineering > Electrical Engineering > Theses and Dissertations
Electrical Engineering Theses and Dissertations
Theses/dissertations from 2024 2024.
Effects of Unobservable Bus States on Detection and Localization of False Data Injection Attacks in Smart Grids , Moheb Abdelmalak
Modeling the Human Learning Process Using an Industrial Steam Boiler Analogy to Design a Psychophysiological-Based Hypermedia Adaptive Automation System , Liliana María Villavicencio López
Theses/Dissertations from 2023 2023
On the Performance Enhancement of Beamspace MIMO and Non-orthogonal Multiple Access for Future Cellular Networks , Sinasi Cetinkaya
Enhancing Smart Grid Security and Reliability through Graph Signal Processing and Energy Data Analytics , Md Abul Hasnat
Fabric-Based Organic Electrochemical Transistor Towards Wearable pH Sensing Electronics , Nestor Osvaldo Marquez Rios
Novel Systems Engineering Framework Analysis of Photovoltaic Models and Equations , Peter R. Michael
Deep Learning Enhancement and Privacy-Preserving Deep Learning: A Data-Centric Approach , Hung S. Nguyen
Cyber-Physical Multi-Robot Systems in a Smart Factory: A Networked AI Agents Approach , Zixiang Nie
Multiple Access Techniques Enabling Diverse Wireless Services , Mehmet Mert Şahin
Remote Medical Diagnosis via Infrared Thermography and Augmented Reality , Frederick M. Selkey
Deep Reinforcement Learning Based Optimization Techniques for Energy and Socioeconomic Systems , Salman Sadiq Shuvo
Process Automation and Robotics Engineering for Industrial Processing Systems , Drake Stimpson
Analysis and Model of Sensor-less Modified Direct Torque Control Surface Permanent Magnet Synchronous Machine for Electrical Submersible Pumping Applications , Mulu Woldeyohannes
Theses/Dissertations from 2022 2022
Modeling, Control, and Operation of a Grid-Tied Solar Photovoltaic Inverter in Unbalanced Conditions , Abdulhakim Alsaif
Stability and Interaction Analysis of Inverter-Based Resources in Power Grids , Li Bao
Reducing Instrumentation Barriers of Diffuse Correlation Spectroscopy for Low-Cost Deep Tissue Blood Flow Monitoring , Arindam Biswas
Healthcare IoT System and Network Design , Halil Ibrahim Deniz
Video Anomaly Detection: Practical Challenges for Learning Algorithms , Keval Doshi
Data-Driven State Estimation for Improved Wide Area Situational Awareness in Smart Grids , Md Jakir Hossain
Explainable and Cooperative Autonomy Across Networks of Distributed Systems , Peter Joseph Jorgensen
Deep Learning and Feature Engineering for Human Activity Recognition: Exploiting Novel Rich Learning Representations and Sub-transfer Learning to Boost Practical Performance , Ria Kanjilal
Assistive Technologies for Independent Navigation for People with Blindness , Howard Kaplan
Fiber-based Electrical Energy Storage and Harvesting Devices for Wearable Electronics , Tareq Kareri
Diagnosis of Neurodegenerative Diseases Using Higher Order Statistical Analysis of Electroencephalography Signals , Seyed Alireza Khoshnevis
Data-driven Design and Analysis of Next Generation Mobile Networks for Anomaly Detection and Signal Classification with Fast, Robust and Light Machine Learning , Muhammed Furkan Küçük
Soft Magnetic Composite Substrates for RF/Microwave Applications , Poonam Lathiya
Mm-Wave Reconfigurable Antenna Arrays, Phase Shifters and Beamforming Networks With Reduced Hardware Complexity Using Integrated Microfluidic Actuation , Jonas J. Mendoza Sandoval
Frequency Domain Diffuse Optics Spectroscopies for Quantitative Measurement of Tissue Optical Properties , Sadhu Moka
Accelerating Multiparametric MRI for Adaptive Radiotherapy , Shraddha Pandey
A Model-Based Fault Diagnosis in Dynamic Systems via Asynchronous Motors System Identification or Testing, and Control Engineering Observers , Kenelt Pierre
Improving Wireless Networking from the Learning and Security Perspectives , Zhe Qu
Finding Signal in the Noise: High-Fidelity, Quantitative, Optical Blood Perfusion Imaging with Interference , Abdul Mohaimen Safi
Security and Privacy Enhancing Technologies in the Deep Learning Era , Gamage Dumindu Samaraweera
Recognition of Modern Modulated Waveforms with Applications to ABMS and VDATS Test Program Set Development , Sylwester Sobolewski
Information Dissemination and Perpetual Network , Harshit Srivastava
Dynamic Study of Inverter-based Resources in Weak Grids , Zhengyu Wang
Improving Robustness of Deep Learning Models and Privacy-Preserving Image Denoising , Hadi Zanddizari
Theses/Dissertations from 2021 2021
A Method for Compact Representation of Heterogenous and Multivariate Time Series for Robust Classification and Visualization , Alla Abdella
Dynamical System and Parameter Identification for Power Systems , Abdullah Abdulrahman Alassaf
Phasor Domain Modeling of Type-III Wind Turbines , Mohammed Alqahtani
An Automated Framework for Connected Speech Evaluation of Neurodegenerative Disease: A Case Study in Parkinson's Disease , Sai Bharadwaj Appakaya
Investigation of CoO ATO for Solar Cells and Infrared Sheaths , Manopriya Devisetty Subramanyam
Thermal Management of Lithium-ion Batteries Using Supercapacitors , Sanskruta Dhotre
Effect of Se Composition in CdSe 1-X T eX /CdTe Solar Cells , Sheikh Tawsif Elahi
Microencapsulation of Thermochromic Materials for Thermal Storage and Energy Efficiency of Buildings , Abdullatif Hakami
Piezoelectrically-Transduced ZnO-on-Diamond Resonators with Enhanced Signal-to-Noise Ratio and Power-handling Capability for Sensing and Wireless Communication Applications , Xu Han
Preparation and Characterization of Single Layer Conducting Polymer Electrochromic and Touchchromic Devices , Sharan Kumar Indrakar
Security Attacks and Defenses in Cyber Systems: From an AI Perspective , Zhengping Luo
Power System Optimization Methods: Convex Relaxation and Benders Decomposition , Minyue Ma
Metal Oxide Sensor Array Test Bed Prototype for Diagnostic Breath Analysis , Tiffany C. Miller
Packaging of Active RF Beamforming IC Utilizing Additive Manufacturing , Ryan Murphy
Adaptive Network Slicing in Fog RAN for IoT with Heterogeneous Latency and Computing Requirements: A Deep Reinforcement Learning Approach , Almuthanna Nassar
Development of a Bipolar Radiofrequency Ablation Device for Renal Denervation , Noel Perez
Copper Electrodeposition Assisted by Hydrogen Evolution for Wearable Electronics: Interconnections and Fiber Metallization , Sabrina M. Rosa Ortiz
Theory and Application of Dielectric Rod Antennas and Arrays , Gabriel Saffold
Advanced Organic Polymers for the Nanoscale Fabrication of Fiber-based Electronics Using the Electrospinning Technique , William Serrano Garcia
Transparent Planar Micro-Electrode Array for In-Vitro Electric Field Mediated Gene Delivery , Raj Himatlal Shah
High Speed Switching for Plasma Based Electroporation , Shivangi Sharma
Development of Small-Scale Power Supplies for Wearable Medical Diagnostic Devices , Donny Stiner
Novel Approach to Integrate CAN Based Vehicle Sensors with GPS Using Adaptive Filters to Improve Localization Precision in Connected Vehicles from a Systems Engineering Perspective , Abhijit Vasili
Modeling, Control and Analysis of Inverter-Based Generators in the Power Grids , Yangkun Xu
Fiber-Based Supercapacitor for Wearable Electronics , Rohit Lallansingh Yadav
Modeling, Identification, and Stability Analysis of Inverter-Based Resources Integrated Systems , Miao Zhang
Data-Oriented Approaches towards Mobile, Network and Secure Systems , Shangqing Zhao
Strategies in Botnet Detection and Privacy Preserving Machine Learning , Di Zhuang
Theses/Dissertations from 2020 2020
Architecture design and optimization of Edge-enabled Smart Grids , Adetola B. Adeniran
Multimodal Data Fusion and Attack Detection in Recommender Systems , Mehmet Aktukmak
Artificial Intelligence Towards the Wireless Channel Modeling Communications in 5G , Saud Mobark Aldossari
Enhancement of 5G Network Performance Using Non-Orthogonal Multiple Access (NOMA) , Faeik Tayseer Al Rabee
Investigation of Machine Learning Algorithms for Intrusion Detection System in Cybersecurity , Mohmmed Alrowaily
Comprehensive Optimization Models for Voltage Regulation in PV-rich Multi-phase Distribution Systems , Ibrahim Alsaleh
Design and Implementation of Solid/Solid Phononic Crystal Structures in Lateral Extensional Thin-film Piezoelectric on Silicon Micromechanical Resonators , Abdulrahman Alsolami
Analysis of Computational Modeling Methods as Applied to Single-Crystal Organohalide Perovskites , Jon M. Bebeau
Development of a Monolithic Implantable Neural Interface from Cubic Silicon Carbide and Evaluation of Its MRI Compatibility , Mohammad Beygi
Performance Enhancement Techniques for Next-Generation Multi-Service Communication and Medical Cyber-Physical Systems , Ali Fatih Demir
Microfluidically Reconfigurable Millimeter-Wave Switches, Antenna Arrays and Filters with Fast-Actuation Using Movable Metallized Plates and Integrated Actuation , Enrique J. Gonzalez Carvajal
Multilayered Transmission Lines, Antennas and Phased Arrays with Structurally Integrated Control Electronics Using Additive Manufacturing , Merve Kacar
Cost Efficient Algorithms and Methods for Spectral Efficiency in Future Radio Access , Murat Karabacak
Design of DeLRo Autonomous Delivery Robot and AI Based Localization , Tolga Karakurt
Theory, Fabrication, and Characterization of Perovskite Phototransistor , Fatemeh Khorramshahi
Modeling and Control of Renewable Energy in Grids and Microgrids , Yin Li
Next-Generation Self-Organizing Communications Networks: Synergistic Application of Machine Learning and User-Centric Technologies , Chetana V. Murudkar
Reliability Analysis of Power Grids and its Interdependent Infrastructures: An Interaction Graph-based Approach , Upama Nakarmi
Algorithms Enabling Communications in the Presence of Adjacent Channel Interference , Berker Peköz
Electrospun Nanofibrous Membrane Based Glucose Sensor with Integration of Potentiostat Circuit , Kavyashree Puttananjegowda
Service Provisioning and Security Design in Software Defined Networks , Mohamed Rahouti
Reading and Programming Spintronic Devices for Biomimetic Applications and Fault-tolerant Memory Design , Kawsher Ahmed Roxy
Implementation of SR Flip-Flop Based PUF on FPGA for Hardware Security , Sai Praneeth Sagi
Trauma Detection Personal Locator Beacon System , Sakshi Sharma
Network Function Virtualization In Fog Networks , Nazli Siasi
Socially Aware Network User Mobility Analysis and Novel Approaches on Aerial Mobile Wireless Network Deployment , Ismail Uluturk
Spatial Stereo Sound Source Localization Optimization and CNN Based Source Feature Recognition , Cong Xu
Hybrid RF Acoustic Resonators and Arrays with Integrated Capacitive and Piezoelectric Transducers , Adnan Zaman
Theses/Dissertations from 2019 2019
Fabrication and Characterization of Electrical Energy Storage and Harvesting Energy Devices Using Gel Electrolytes , Belqasem Aljafari
Phasor Measurement Unit Data-Based Steady State and Dynamic Model Estimation , Anas Almunif
Cross Layer-based Intrusion Detection System Using Machine Learning for MANETs , Amar Amouri
Power Conditioning System on a Micro-Grid System , Tamoghna Banerjee
Thermal Response in a Field Oriented Controlled Three-phase Induction Motor , Niyem Mawenbe Bawana
Design and Development of a Wireless EEG System Integrated into a Football Helmet , Akshay V. Dunakhe
Machine Learning, Game Theory Algorithms, and Medium Access Protocols for 5G and Internet-of-Thing (IoT) Networks , Mohamed Elkourdi
Advanced Search
- Email Notifications and RSS
- All Collections
- USF Faculty Publications
- Open Access Journals
- Conferences and Events
- Theses and Dissertations
- Textbooks Collection
Useful Links
- Rights Information
- SelectedWorks
- Submit Research
Home | About | Help | My Account | Accessibility Statement | Language and Diversity Statements
Privacy Copyright
Power Systems Research Topics Ideas for MS/PhD
List of power systems research topics ideas for ms/phd thesis.
1. Introduction and literature review of power system challenges and issues 2. Power system inertia estimation: Review of methods and the impacts of converter-interfaced generations 3. Artificial intelligence models in power system analysis 4. Power system protection 5. Technical barriers for harnessing the green hydrogen: A power system perspective 6. Evolutionary game analysis on behavior strategies of multiple stakeholders in maritime shore power system 7. Optimal analysis of a hybrid renewable power system for a remote island 8. Evaluation and optimization of off-grid and on-grid photovoltaic power system for typical household electrification 9. Comprehensive performance evaluation and demands’ sensitivity analysis of different optimum sizing strategies for a combined cooling, heating, and power system 10. Comprehensive weight method based on game theory for identify critical transmission lines in power system
11. Integrated standalone hybrid solar PV, fuel cell and diesel generator power system for battery or super capacitor storage systems in Khor fakkan, United Arab Emirates 12. Power system stability in the transition to a low carbon grid: A techno-economic perspective on challenges and opportunities 13. Multi-objective jellyfish search optimizer for efficient power system operation based on multi-dimensional OPF framework 14. Power system hybrid dynamic economic emission dispatch with wind energy based on improved sailfish algorithm 15. Voltage stability analysis of power system 16. Coordinated automatic generation control of interconnected power system with imitation guided exploration multi-agent deep reinforcement learning 17. Load frequency control based on the bees algorithm for the great britain power system 18. Multi-level interactive unit commitment of regional power system 19. Maiden application of fuzzy-2DOFTID controller in unified voltage-frequency control of power system 20. Network‐constrained rail transportation and power system scheduling with mobile battery energy storage under a multi‐objective two‐stage stochastic programming
21. Fuel-cell sharing for a distributed hybrid power system 22. A sustainable energy distribution configuration for microgrids integrated to the national grid using back-to-back converters in a renewable power system 23. An optimization-based strategy for solving optimal power flow problems in a power system integrated with stochastic solar and wind power energy 24. Impact of fossil-free decentralized heating on northern European renewable energy deployment and the power system 25. Investigation and damping of electromechanical oscillations for grid integrated micro grid by a novel coordinated governor-fractional power system stabilizer 26. Improving the Accuracy of the State Estimation Algorithm in the Power System Based on the Location of PMUs and Voltage Angle Relationships 27. The near-optimal feasible space of a renewable power system model 28. Multi-objective optimization of a combined cooling, heating, and power system with subcooled compressed air energy storage considering off-design characteristics 29. Near-Optimal PI Controllers of STATCOM for Efficient Hybrid Renewable Power System 30. ‘Cooperative game’inspired approach for multi-area power system security management taking advantage of grid flexibilities
31. Exergo-economic assessment and sensitivity analysis of a solar-driven combined cooling, heating and power system with organic Rankine cycle and absorption heat … 32. Equilibrium optimizer‐tuned cascade fractional‐order 3DOF‐PID controller in load frequency control of power system having renewable energy resource integrated 33. Analytical model of power system hardening planning for long-term risk reduction 34. An Optimal Control of Integrated Hybrid Power System with FACTS Devices Using Student Psychology‐Based Optimization Algorithm 35. Robust delay-dependent load frequency control of wind power system based on a novel reconstructed model 36. Power system harmonics 37. Increasing Turkey’s power system flexibility for grid integration of 50% renewable energy share 38. Preliminary propulsion and power system design of a tandem-wing long-range eVTOL aircraft 39. Efficient creation of datasets for data-driven power system applications 40. MVO algorithm based LFC design of a six-area hybrid diverse power system integrating IPFC and RFB
41. Optimal performance of a combined heat-power system with a proton exchange membrane fuel cell using a developed marine predators algorithm 42. A modified moth flame optimisation technique tuned adaptive fuzzy logic PID controller for frequency regulation of an autonomous power system 43. A techno-economic viability analysis of the two-axis tracking grid-connected photovoltaic power system for 25 selected coastal mediterranean cities 44. Decentralized data-enabled predictive control for power system oscillation damping 45. Optimal Design of Biomass Combined Heat and Power System Using Fuzzy Multi-Objective Optimisation: Considering System Flexibility, Reliability, and Cost 46. Design Methodology and Parametric Design Study of the On-Board Electrical Power System for Hybrid Electric Aircraft Propulsion 47. A novel sine augmented scaled sine cosine algorithm for frequency control issues of a hybrid distributed two-area power system 48. Sunflower optimization based fractional order fuzzy PID controller for frequency regulation of solar-wind integrated power system with hydrogen aqua equalizer-fuel … 49. Optimal scheduling for power system peak load regulation considering short-time startup and shutdown operations of thermal power unit 50. Voltage and frequency control of wind–diesel power system through adaptive sliding mode control of superconducting magnetic energy storage
51. Impedance-Based Stability Analysis Methods for DC Distribution Power System With Multivoltage Levels 52. Uncertainty Evaluation Algorithm in Power System Dynamic Analysis with Correlated Renewable Energy Sources 53. Which ship-integrated power system enterprises are more competitive from the perspective of patent? 54. Deep Feedback Learning Based Predictive Control for Power System Undervoltage Load Shedding 55. Conventional and advanced exergy analyses of a vehicular proton exchange membrane fuel cell power system 56. Advanced teaching method for learning power system operation based on load flow simulations 57. A novel application of ALO-based fractional order fuzzy PID controller for AGC of power system with diverse sources of generation 58. A review of the smart grid concept for electrical power system 59. Dynamic power–frequency control in a hybrid wind-PV plant interlinked with AC power system 60. Application of SVC and STATCOM for wind integrated power system
61. Mass optimization of the radiation shadow shield for space nuclear power system 62. Power system operation with power electronic inverter–dominated microgrids 63. Comparative study of four MPPT for a wind power system 64. An empirical approach to frequency droop characterization from utility‐scale photovoltaic plants operation in a power system 65. Bio‐inspired hybrid BFOA‐PSO algorithm‐based reactive power controller in a standalone wind‐diesel power system 66. A Small Hybrid Power System of Photovoltaic Cell and Sodium Borohydride Hydrolysis-Based Fuel Cell 67. A hybrid MFO‐GHNN tuned self‐adaptive FOPID controller for ALFC of renewable energy integrated hybrid power system 68. Nonlinear Model Predictive Control of an Autonomous Power System Based on Hydrocarbon Reforming and High Temperature Fuel Cell 69. A new congestion cost allocation method in a deregulated power system using weighting of contractual preferences and geographical location of users 70. Optimized Power System Voltage Measurements Considering Power System Harmonic Effects
71. Power System Characteristics 72. Fault Tolerant Control Method of Power System of Tram Based on PLC. 73. Priority Lists for Power System Investments: Locating Phasor Measurement Units 74. The concept of vulnerability and resilience in electric power systems 75. A review of different optimisation techniques for solving single and multi-objective optimisation problem in power system and mostly unit commitment problem 76. Modeling Inverters with Grid Support Functions for Power System Dynamics Studies 77. Performance of wide-area power system stabilizers during major system upsets: investigation and proposal of solutions 78. Review of Proactive Operational Measures for the Distribution Power System Resilience Enhancement Against Hurricane Events. 79. Chaos Elimination in Power System Using Synergetic Control Theory 80. Role of Hydrogen in a Low-Carbon Electric Power System: A Case Study
a. Study of Assessing the Stability of Rwanda’s Power System from Big Data Based on Power Generation 81. A simplified virtual power system lab for distance learning and ABET accredited education systems 82. Review of risk analysis methods for failure scenario in power system under typhoon disasters 83. Preliminary Study on Forced Oscillation of Power System with Quadratic Nonlinearity 84. A novel power system operation simulation method considering multi-state models of coal-fired power unit: a case study of coal-fired power transformation in a certain … 85. Comprehensive Analysis and Visualization Method of Online and Offline Operation Modes of Power System 86. Impact of the Power System Stabilizer on Transient Stability of the Power System 87. Research on Data Intelligent Retrieval Method Oriented to Unified Business Center of Power System 88. Technologies and economics of electric energy storages in power systems: Review and perspective 89. How to Use LDA Model to Analyze Patent Information? Taking Ships Integrated Power System as an Example
90. Satin Bowerbird optimization algorithm for the Application of Optimal power flow of power system with FACTS devices 91. Applications of Big Data and Internet of Things in Power System 92. Power system planning methods and experiences in the energy transition framework 93. Study of Interconnections in Vietnam Power System with Asynchronous Back to Back HVDC Links 94. A Convolution Neural Network Method for Power System Oscillation Type Identification 95. DE-Assisted LFC of Three-Area Six-Source Interconnected Power System with Wind Model and Fuel Cell Under Restructured Environment 96. Optimization for Short-Term Operation of Hybrid Hydro-PV Power System Based on NSGA-II 97. Deep learning for short-term voltage stability assessment of power systems 98. Transient Stability-Based Security State Classification of Power System Networks Using Kohonen’s Neural Network 99. Renewable Energy-Based Load Frequency Stabilization of Interconnected Power Systems Using Quasi-Oppositional Dragonfly Algorithm
100. Nonlinear Model Predictive Control of an Autonomous Power System Based on Hydrocarbon Reforming and High Temperature Fuel Cell. Energies 2021, 14, 1371 101. Primary frequency control techniques for large-scale PV-integrated power systems: A review 102. Optimal Operation of a Power System with Cross-border Electricity Trading Considering Demand Response Program: A Case Study of Afghanistan 103. Combined solar power and storage as cost-competitive and grid-compatible supply for China’s future carbon-neutral electricity system 104. Design Optimization Analysis Based On Demand Side Management of a Stand-alone Hybrid Power System Using Genetic Algorithm for Remote Rural Electrification 105. Enhance Power Quality of Grid Connected Wind and Solar Power System with ANFIS Control Scheme 106. Observer-based event triggering H∞ LFC for multi-area power systems under DoS attacks 107. Diagnosis performance assessment of the secondary protection for a 68‐bus power system 108. Results of a 200 hours lifetime test of a 7 kW Hybrid–Power fuel cell system on electric forklifts 109. Optimization of power-to-heat flexibility for residential buildings in response to day-ahead electricity price
110. Impact of renewable generation on probabilistic dynamic security assessment of a power transmission system 111. Prospects of power generation from the deep fractured geothermal reservoir using a novel vertical well system in the Yangbajing geothermal field, China 112. A residential community-level virtual power plant to balance variable renewable power generation in Sweden 113. Evaluation of hierarchical controls to manage power, energy and daily operation of remote off-grid power systems 114. … Multivalent Diagnoses Developed by a Diagnostic Program with an Artificial Neural Network for Devices in the Electric Hybrid Power Supply System “House on Water” 115. Technical features of the computing and geo-information system for research of prospective interstate power grid expansion 116. Two stage unit commitment considering multiple correlations of wind power forecast errors 117. Blockchain-based securing of data exchange in a power transmission system considering congestion management and social welfare 118. An Optimization Technique for Voltage Regulation in Electrical Power Systems 119. Availability importance measures of components in smart electric power grid systems
120. Electromagnetic Transients on Power Plant Connection Caused by Lightning Event 121. … incorporating battery energy storage system, minimum variable contribution of demand response, and variable load damping coefficient in isolated power … 122. Comparatives Studies in Molten Salt Reactor FUJI-U3 with Various Power 123. Future of electrical aircraft energy power systems: An architecture review 124. Fluid power troubleshooting 125. Cascading Failures Assessment in Renewable Integrated Power Grids Under Multiple Faults Contingencies 126. COVID-19-induced low power demand and market forces starkly reduce CO 2 emissions 127. Technology revolution in the inspection of power transmission lines-A literature review 128. Reactive power control of photovoltaic power generation systems by a wide‐area control system for improving transient stability in power systems 129. Techno-economic and environmental assessment of the coordinated operation of regional grid-connected energy hubs considering high penetration of wind power 130. A hybrid grey wolf optimisation and pattern search algorithm for automatic generation control of multi-area interconnected power systems 131. ICA based Multi Converter Strategy for Improving Power Quality in Multi-Feeder System with Renewable Source Integration 132. A Self Monitoring and Analyzing System for Solar Power Station using IoT and Data Mining Algorithms 133. Analysis of Emergency Operation Modes of Micro Power Systems with Small Hydroelectric Power Plants 134. Improving the voltage quality and power transfer capability of transmission system using facts controller 135. Particle swarm optimization in image processing of power flow learning distribution 136. A Modified Teaching—Learning-Based Optimization for Dynamic Economic Load Dispatch Considering Both Wind Power and Load Demand Uncertainties With … 137. An ensemble model for wide-area measurement-based transient stability assessment in power systems 138. An adaptative control strategy for interfacing converter of hybrid microgrid based on improved virtual synchronous generator 139. Quantum computing based hybrid deep learning for fault diagnosis in electrical power systems
140. Performance enhancement and multi-objective optimization of a double-flash binary geothermal power plant 141. Optimal reactive power dispatch using an improved slime mould algorithm 142. Applications of Metaheuristics in Power Electronics 143. A Dynamic State Estimator Based Tolerance Control Method Against Cyberattack and Erroneous Measured Data for Power Systems 144. Establishment of Low Voltage Ride-Through Curves and Stability Analysis with High Photovoltaic Penetration in Power Systems 145. A systematic review of the costs and impacts of integrating variable renewables into power grids 146. A wind power accommodation capability assessment method for multi-energy microgrids 147. Analyzing the effects of economic development on the transition to cleaner production of China’s energy system under uncertainty 148. Enhancing fault detection function in wind farm‐integrated power network using Teaching Learning‐Based Optimization technique 149. Economic analysis and optimization of a renewable energy based power supply system with different energy storages for a remote island
150. A hybrid SATS algorithm-based optimal power flow for security enhancement using SSSC 151. Prediction-based analysis on power consumption gap under long-term emergency: A case in China under COVID-19 152. Dynamic virtual power plant: A new concept for grid integration of renewable energy sources 153. Energy Storage Investment and Operation in Efficient Electric Power Systems 154. Comprehensive Design of DC Shipboard Power Systems for Pure Electric Propulsion Ship Based on Battery Energy Storage System 155. Physics-informed neural networks for minimising worst-case violations in dc optimal power flow 156. A review on fractional order (FO) controllers’ optimization for load frequency stabilization in power networks 157. Resilience analysis and cascading failure modeling of power systems under extreme temperatures 158. Cascade‐IλDμN controller design for AGC of thermal and hydro‐thermal power systems integrated with renewable energy sources 159. Hospital-oriented quad-generation (HOQG)—A combined cooling, heating, power and gas (CCHPG) system
160. Energy, exergy, economy and environmental (4E) analysis and optimization of single, dual and triple configurations of the power systems: Rankine Cycle/Kalina Cycle … 161. Deriving pack rules for hydro–photovoltaic hybrid power systems considering diminishing marginal benefit of energy 162. Safe Reinforcement Learning for Emergency Load Shedding of Power Systems 163. Electric power systems 164. Solving optimal power flow problem with stochastic wind–solar–small hydro power using barnacles mating optimizer 165. An efficient control strategy of shunt active power filter for asymmetrical load condition using time domain approach 166. Analysis of various options for balancing power systems’ peak load 167. An open-source extendable model and corrective measure assessment of the 2021 texas power outage 168. Optimal supply chains and power sector benefits of green hydrogen 169. Improving the Efficacy of the Nigerian Electric Power Transmission Network Using Static Synchronous Compensator (STACOM)
170. Optimal Placement of PMUs for Kerala and Tamil Nadu State Level Regional Indian Power Grid 171. Sharing hydropower flexibility in interconnected power systems: A case study for the China Southern power grid 172. Full energy sector transition towards 100% renewable energy supply: Integrating power, heat, transport and industry sectors including desalination 173. Multi-objective optimal power flow problems based on slime mould algorithm 174. System simulation and exergetic analysis of solid oxide fuel cell power generation system with cascade configuration 175. The importance of temporal resolution in modeling deep decarbonization of the electric power sector 176. MULTI-OBJECTIVE OPTIMAL REACTIVE POWER DISPATCH CONSIDERING THE INTEGRATION OF PROBABILISTIC WIND AND SOLAR POWER 177. Knowledge implementation and transfer with an adaptive learning network for real-time power management of the plug-in hybrid vehicle 178. Solar power satellites research in China 179. Frequency stabilization of solar thermal-photovoltaic hybrid renewable power generation using energy storage devices
i. Design and Comparison of Auxiliary Resonance controllers for Mitigating Modal Resonance of Power Systems Integrated with Wind Generation ii. A Computational Intelligence Approach for Power Quality Monitoring iii. Cascading Failure A nalysis of Cyber Physical Power Systems Considering Routing Strategy iv. Demand Side Management by PV Integration to Micro-grid Power Distribution System: A Review and Case Study Analysis v. Use of a hybrid wind—solar—diesel—battery energy system to power buildings in remote areas: a case study vi. Challenges and opportunities of inertia estimation and forecasting in low-inertia power systems vii. Generation Scheduling of Hydro-dominated Provincial Power Grid: Problems and Solutions viii. A review of machine learning applications in IoT-integrated modern power systems ix. Use of hydrogen as a seasonal energy storage system to manage renewable power deployment in Spain by 2030 x. Assessment of utilization of combined heat and power systems to provide grid flexibility alongside variable renewable energy systems
180. The role of the power sector in net-zero energy systems 181. A new approach to determine maintenance periods of the most critical hydroelectric power plant equipment 182. Application of High‐Performance Computing in Synchrophasor Data Management and Analysis for Power Grids 183. Wide-area monitoring and anomaly analysis based on synchrophasor measurement 184. Marine predators algorithm for load frequency control of modern interconnected power systems including renewable energy sources and energy storage units 185. Comparative study on the thermodynamic and economic performance of novel absorption power cycles driven by the waste heat from a supercritical CO2 cycle 186. Adaptive constraint differential evolution for optimal power flow 187. Optimization of location and size of distributed generations for maximizing their capacity and minimizing power loss of distribution system based on cuckoo search … 188. Solar power-to-gas application to an island energy system 189. Fault Detection in Power Transmission System Using Reverse Biorthogonal Wavelet
190. Line failure localization of power networks part i: Non-cut outages 191. Sunsetting coal power in China 192. Decentralised stochastic disturbance observer-based optimal frequency control method for interconnected power systems with high renewable shares 193. Hydrogen-based systems for integration of renewable energy in power systems: Achievements and perspectives 194. Research on frequency modulation control of photovoltaic power generation system based on VSG 195. Research on Grid Expansion Planning and Reliability Balance under the Fusion of Energy Storage and Wind Power 196. Asynchronous Control for Discrete-Time Hidden Markov Jump Power Systems 197. Nonlinear disturbance observer based adaptive super twisting sliding mode load frequency control for nonlinear interconnected power network 198. A Review of Lithium-Ion Battery Models in Techno-economic Analyses of Power Systems 199. Probabilistic estimation model of power curve to enhance power output forecasting of wind generating resources
Power Systems Topics of presentation
More Research Topics on Electrical Engineering
Related Posts:
- Wireless Systems Research Topics ideas for MS PhD
- information visualization Research Topics Ideas [MS PhD]
- Molecular Computing Research Topics Ideas [MS PhD]
- Software Security Research Topics Ideas [MS PhD]
- Stochastic Networks Research Topics Ideas [MS PhD]
- VLSI Research Topics Ideas [MS PhD]
You must be logged in to post a comment.
Admission Open – batch#11
Home > USC Columbia > Engineering and Computing, College of > Electrical Engineering > Electrical Engineering Theses and Dissertations
Electrical Engineering Theses and Dissertations
Theses/dissertations from 2023 2023.
Robust Deep Learning Models For Multi-label Image Classification In Limited And Free Annotation Scenarios , Rabab Ezzeldin Rabie Abdelfattah
Analysis, Measurement, and Modeling of Millimeter Wave Channels for Aviation Applications , Zeenat Afroze
Physics-Based and Behavioral Models for Fuel Cells , Charles Chima Anyim
Simulation-based Optimization Of A Dc Microgrid: With Machine-learning-based Models And Hybrid Meta-heuristic Algorithms , Tyler Van Deese
Novel Structures and Thin Film Techniques for Reconfigurable RF Technologies With Improved Signal Integrity , Jinqun Ge
Suitability of Quantized DEVS-LIM Methods for Simulation of Power Systems , Navid Gholizadeh
Novel Approach To In-situ Mocvd Oxide/dielectric Deposition For Iii-nitride-based Heterojunction Field Effect Transistors , Samiul Hasan
Quantized State Simulation of Electrical Power Systems , Joseph Micah Hood
Circularly-shifted Chirps For Triple Functionality: Communications, Radar, And Computation , Safi Shams Muhtasimul Hoque
Optimization of Ultrawide Bandgap Semiconductor Materials for Heterostructure Field Effect Transistors (HFETs) , Mohi Uddin Jewel
Design And Fabrication Of High-resolution Epitaxial 4h-sic Metal Insulator Semiconductor Detectors , Omerfaruk Karadavut
Deep Learning Based Fault Diagnosis and Prognosis for Bearing , Guangxing Niu
High-Performance Wide Bandgap Semiconductor Power Modules Enabled by Advanced Two-Phase Mini-Channel Cooling , Bo Tian
Magnetic Softness Tuned Superparamagnetic Nanoparticles for Highly Efficient Cancer Theranostics , Jie Wang
Probabilistic Cable Aging Diagnosis And Prognosis With Reflectometry And Capacitance Methods , Xuan Wang
Robustness Of Convolutional Neural Networks: Analysis And Applications , Xin Zhang
Theses/Dissertations from 2022 2022
MIMO Antenna Systems for Wireless Handheld Devices , Ahmed H. Abdelgawwad
Applications of Laser Liftoff Technique for Wide Bandgap Power and Flexible Electronics , Md Didarul Alam
Non-intrusive Microwave Surface Wave Technique For Cable Damage and Aging Detection , Ahmed Shah Arman
Pulse Width Modulation-Based Voltage Balancing and Circulating Current Control for Modular Multilevel Converters , Md Multan Biswas
Networked Digital Predictive Control for Modular DC-DC Converters , Castulo Aaron De la O Pérez
Development of Micro-Sized Algan Deep Ultraviolet Light Emitting Diodes and Monolithic Photonic Integrated Circuits , Richard Speight Floyd III
Distributed Interdigital Capacitor (IDC) Sensing for Cable Insulation Aging and Degradation Detection , Md Nazmul Al Imran
Epitaxial 4H-SiC Radiation Detectors for Harsh Environment Applications , Joshua W. Kleppinger
Growth, Characterization and Evaluation of CdZnTeSe Single Crystals for Room Temperature Radiation Detectors , Ritwik Nag
Automated Contingency Management for Water Recycling System , Shijie Tang
Closed Form Implicitly Integrated Models for Computationally Efficient Simulation of Power Electronics , Andrew Wunderlich
Theses/Dissertations from 2021 2021
Real Time Simulation and Hardware in the Loop Methods for Power Electronics Power Distribution Systems , Michele Difronzo
Time-Domain Measurement of Magnetization Dynamics in Ferrofluids , Brian Egenriether
Increased Detectivity and Low Temperature Performance Analysis of Sub-20μm Micropixel Array A1GaN UV Photodiodes , Samia Islam
Operating Strategies and Disturbance Characterization for DC Microgrids , Miles Leonard-Albert
Real-Time Probabilistic Solvers for Digital Twins of Power Electronic Systems , Matthew Aaron Milton
Ultrawide Bandgap Algan-Channel Metal Oxide Semiconductor Heterostructure Field Effect Transistors With High- K Gate Dielectrics , Md Abu Shahab Mollah
Temperature Dependence of Electroluminescence and Current-Voltage Characteristics of Arrays of Deep Ultraviolet Algan Micropixel Led , Dhruvinkumar Prakashchandra Patel
Robust Adaptive Model Predictive Control of Nonlinear Sample-Data Systems , Lixing Yang
Theses/Dissertations from 2020 2020
Methods for Dynamic Stabilization, Performance Improvement, and Load Power Sharing In DC Power Distribution Systems , Hessamaldin Abdollahi
Data-Driven Modeling Through Power Hardware in the Loop Experiments: A PV Micro-Inverter Example , Hayder Dawood Abbood Almukhtar
Novel Multi-User Chirp Signaling Schemes for Future Aviation Communication Applications , Nozhan Hosseini
The Hybridization of a Graphene and Silicon Carbide Schottky Optoelectronic Device by the Incorporation of a Lead Sulfide Quantum Dot Film , Joshua Letton
Channel Modeling and Tropospheric Effects on Millimeter Wave Communications for Aviation Applications , Jinwen Liu
30 GHz Path Loss Modeling and Performance Evaluation for Noncoherent M-ary Frequency Shift Keying in the 30 GHz Band , Mohanad Razak Mohsen
Room Temperature Semiconductor Radiation Detectors Based on CdZnTe and CdZnTeSe , Mohsin Sajjad
Optimization of Vehicle to Grid System in a Power System With Unit Commitment , Charles Uko
Design of High Efficiency Wireless Power Thansfer System With Nonlinear Resonator , Yibing Zhang
Theses/Dissertations from 2019 2019
DC Bus Stabilization and Dynamic Performance Improvement of a Multi-Converter System , Silvia Arrua
Fabrication and Characterization of Thin Films for Heterojunction Solar Cells and Radiation Detectors , Towhid A. Chowdhury
Low Frequency Injection as a Method of Low-Level DC Microgrid Communication , Matthew Davidson
Modeling and Loss Analysis of SiC Power Semiconductor Devices for Switching Converter Applications , Soheila Eskandari
Path Loss Models for Two Small Airport Indoor Environments at 31 GHz , Alexander L. Grant
Wireless RF Induced Energy Absorption and Heating of Lanthanum-Nickel Alloy in the Near-Field , Michael Dillon Lindsay
Fractional Order and Virtual Variable Sampling Design of Repetitive Control for Power Converters , Zhichao Liu
Curbside Antenna to Vehicle Path Loss Measurements and Modeling in Three Frequency Bands , Patrick Murphy
Finite Element Electromagnetic (EM) Analyses of Induction Heating of Thermoplastic Composites , Ankit Patel
Constrained Consensus in Continuous-Time Multi-Agent Systems , Zheqing Zhou
Theses/Dissertations from 2018 2018
Study Of 4H-SiC And ALxGA1-xN Based Heterojunction Devices For Ultraviolet Detection Applications , Venkata Surya Naga Raju Chava
Photovoltaic Inverter Control to Sustain High Quality of Service , Yan Chen
Novel Wideband EBG Structures For Isolation Improvement Between Cosite Antennas , Paul John Czeresko III
High Resolution Radiation Detectors Based On 4H-SiC N-Type Epitaxial Layers And Pixilated CdZnTe Single Crystal Devices , Cihan Oner
Ku-Band AG Channel Modeling , Albert Smith
Quantifying Time Retarded Electromagnetic Fields and Their Applications in Transmission Lines , Brandon Thomas Gore
Structurally Integrated Reconfigurable Wideband Array For Conformal Applications , Michael Damon Wright
Multifunction Radio Frequency Composite Structures , David L. Zeppettella
Theses/Dissertations from 2017 2017
Dynamic Model and Control of Quadrotor in the Presence of Uncertainties , Courage Agho
Ultra High-Speed Signaling and Return on Technology Investment (ROTI) for the Electrical Interconnects Sector , Azniza Abd Aziz
High Quality Low Offcut 4h-Sic Epitaxy and Integrated Growth of Epitaxial Graphene for Hybrid Graphene/Sic Devices , Anusha Balachandran
Cable Health Monitoring System Built Into Power Converter Using Time Domain Reflectometry , Hossein Baninajar
Low Bandwidth Communication for Networked Power Hardware-In-The-Loop Simulation , Sean Borgsteede
Fault Protection In DC Microgrids Based On Autonomous Operation Of All Components , Qiu Deng
Distributed Optimization Method for Intelligent Control of DC Microgrids , Yuanyuan Fan
Three Segment Adaptive Power Electronic Compensator for Non-periodic Currents , Amin Ghaderi
Study of Mos2 and Graphene-Based Heterojunctions for Electronic and Sensing Applications , Ifat Jahangir
Evaluation Of Multicarrier Air Interfaces In The Presence Of Interference For L-Band And C-Band Air-Ground Communications , Hosseinali Jamal
Analysis and Design of a Highly Compact Ellipse-Shaped Ultra-Wideband Bandpass Filter (Uwb-Bpf) with a Notched Band , Xuetan Liu
Study of Ultra Wide Band Gap AlxGa1-xN Field Effect Transistors For Power Electronic Applications , Sakib Mohammed Muhtadi
Growth and Characterization of Anisotropic GaSe Semiconductor for Radiation Detection and THz Applications , Haseeb Nazir
Physical Characterization of Electrodeposited PCB Copper Foil Surfaces , Blessing Kolawole Ojo
Wideband Low Side Lobe Aperture Coupled Patch Phased Array Antennas , Dhruva Poduval
Software Modelling For Real World Faults On AC Transmission Protective Systems Analysis And Effects , Iandale Tualla
Improved N-Type 4h-Sic Epitaxial Layer Radiation Detectors and Noise Analysis of Front-End Readout Electronics , Khai V. Nguyen
Integrating Nano-Patterned Ferromagnetic and Ferroelectric Materials For Smart Tunable Microwave Applications , Tengxing Wang
An Application of Dempster-Shafer Fusion Theory to Lithium-ion Battery Prognostics and Health Management , John Weddington
A Lebesgue Sampling based Diagnosis and Prognosis Methodology with Application to Lithium-ion Batteries , Wuzhao Yan
Theses/Dissertations from 2016 2016
Positive Feedforward Control Design For Stabilization Of A Single-Bus DC Power Distribution System Using An Improved Impedance Identification Technique , Silvia Arrúa
Simulation Of GaN Based MIS Varactor , Bojidha Babu
High Gain Pattern Reconfigurable Antenna Arrays for Portable and Body-Centric Wireless Applications , Nowrin Hasan Chamok
An Improved Ship Design Tool for Comparing Performance of Multiple Ship Designs across User-Defined Missions , Helder Jose de Almeida Pais
Estimating Local Average Power In A Line-Of-Sight Indoor Channel: Spatial Sampling And Processing , Israt Jahan Disha
Time-Domain Measurement Of Ultrafast Magnetization Dynamics In Magnetic Nanoparticles , Brian Egenriether
Finite Control Set Model Predictive Control Of Direct Matrix Converter And Dual-Output Power Converters , Ozan Gulbudak
Distributed Optimization And Control Of Islanded Microgrids , Md Rishad Hossain
Engineering Model Of III-Nitride Power Heterostructure Field Effect Transistor On Silicon Substrate , Mohammad Mirwazul Islam
A Comparison Of FPGA Implementation Of Latency-Based Solvers For Power Electronic System Real-Time Simulation , Matthew Aaron Milton
Investigation Of Wide Bandgap Semiconductor Devices For Radiation Detection Applications , Rahmi Orhon Pak
Modeling and Loss Analysis of Wide Bandgap Power Semiconductor Devices , Kang Peng
Miniaturized RF Components With A Novel Tunable Engineered Substrate For Wireless Communication Systems , Yujia Peng
Wireless Channel Modeling For Networks On Chips , William Rayess
Comparative Analysis Of Current Control Methods For Modular Multilevel Converters , Jordan D. Rogers
Applications Of Impedance Identification To Electric Ship System Control And Power Hardware-In-The-Loop Simulation , Jonathan Siegers
System Level Analysis And Design For Wireless Inter-Chip Interconnection Communication Systems By Applying Advanced Wireless Communication Technologies , Xin Zheng
Theses/Dissertations from 2015 2015
Design, Fabrication, and Characterization of Pseudomorphic and Quasi-Pseudomorphic AlGaN Based Deep Ultraviolet Light Emitting Diodes Over Sapphire , Fatima Asif
Advanced Search
- Notify me via email or RSS
- Collections
- Disciplines
Submissions
- Give us Feedback
- University Libraries
Home | About | FAQ | My Account | Accessibility Statement
Privacy Copyright
Department of electric energy
- Master's programmes in English
- For exchange students
- PhD opportunities
- All programmes of study
- Language requirements
- Application process
- Academic calendar
- NTNU research
- Research excellence
- Strategic research areas
- Innovation resources
- Student in Trondheim
- Student in Gjøvik
- Student in Ålesund
- For researchers
- Life and housing
- Faculties and departments
- International researcher support
Språkvelger
Research - department of electric power engineering.
At the Department of Electric Energy (IEL), the mission is to contribute to the fundamental and applied knowledge of electric power engineering, and to develop technology and systems for the planning, operation and maintenance of efficient, sustainable energy systems. Both research and research-based education at the Department of Electric Energy cover the broad interdisciplinary aspects of power engineering: generation, transmission, conversion and the use of electric energy, including the accompanying techno-economic aspects.
The Department works in close collaboration with industry partners to develop technology for the production of electric energy from renewable energy sources, and contribute to research that leads to solutions for the future power grid, with high relevance for the society, addressing industrial needs and global challenges.
We have five research groups that are responsible for research and education within their areas; the groups also collaborate among each other in research projects.
Research Groups
Electrical machines and electromagnetics (eme).
The main research areas of the group are related to the development, design, optimisation and testing of electric machinery, especially permanent magnet machines and hydropower generators. In addition, research is also focused on advanced electromagnetic modelling and analyses of different power apparatus and installations.
Electricity Markets and Energy System Planning (EMESP)
The main research areas of the group are related to the integration of renewable energy sources, energy storage and consumption in the electricity market, and how to optimize the integration of the power system with other parts of the energy system, e.g. heating and transport.
High Voltage Technology (HVT)
The main research activities of the group are related to the design, modeling and operation of electric power components. Research into better insulation materials, both for ac and dc, is being conducted.
Power Electronic Systems and Components (PESC)
The research activities of the group are related to the development, design, optimization and control of power electronic converters and systems. Application areas include onshore and offshore power systems, marine, oil & gas as well as transportation sectors.
Power System Operation and Analysis (PSOA)
The main research areas of the group are related to the planning, operation, control and analysis of power systems, with applications in smart grids, transmission and distribution grids, microgrids and HVDC systems.
PhD studies
Phd studies.
The PhD programme in Electric Power Engineering is standardised to 180 credits (3 years). The final plan for the PhD programme is designed in consultation with the candidate, the supervisor and the Department depending on the subject area of the thesis and the candidate's needs and preferences.
- PhD programme in Electric Power Engineering
- Info on PhD studies at NTNU
Vacant positions at the Department
person-portlet
Anngjerd pleym head of department, frank mauseth, kjetil obstfelder uhlen, publications.
Cristin (Current Research Information system) is a nationwide database system for research results and documentation.
- All Publications by the Department of Electric E nergy
- All PhD theses from the Department of Electric E nergy
- All Masters theses from the Department of Electric Energy
Summary of PhD projects
Summary of master projects
Physical Laboratories
The Department has access to a broad spectrum of advanced laboratories and scientific equipment.
- Electrical Machines | Pål Keim Olsen
- Electric Circuits
- High Voltage | Frank Mauseth
- High Current | Kaveh Niayesh
- Light and Lighting | Eilif Hugo Hansen
- Power Electronics | Dimosthenis Peftitsis , Anyuan Chen
- Renewable Energy
- Relay Protection Laboratory | Hans Kr. Høidalen
- Service Laboratory | Bård Almås
- Smartgrid | Basanta Raj Pokhrel
- Smarthus | Eilif Hugo Hansen
- Workshop | Morten Flå
Digital Laboratories
The Department has many digital resources
- Digital Lab
- Computing Resources available at IEL
- Scientific Software
Strategic Research Areas
- IE Faculty Strategic Research Area: SMARTGRIDS
- NTNU Strategic Research Area: ENERGY
Gemini Centre
About Gemini Centres
- Gemini Centre for Electrical Energy and Energy Systems
Boston University Academics
Boston University
- Campus Life
- Schools & Colleges
- Degree Programs
- Search Academics
- PhD in Electrical Engineering
The PhD in Electrical Engineering program provides both post-bachelor’s and post-master’s applicants the opportunity for study in a broad range of areas, many of which overlap with other disciplines within the College of Engineering and the University. As an Electrical Engineering PhD student, you will pursue theoretical and empirical studies in a topic area determined by your interests and those of your faculty research advisor. External collaborations with industry and government laboratories are encouraged. As a student in Boston, you will be in the midst of a vibrant high-tech research community where external collaborations with industry, government, and other universities are common. Your experience will likely not be limited to Boston; PhD students are supported by the department to present their work at many key conferences around the world. Our graduates go on to conduct independent basic or applied research, with careers in academia, industry, and government.
Contact ECE faculty members directly to find out about ongoing work and discuss your research interests (for contact information, visit the Electrical & Computer Engineering website ).
Learning Outcomes
- Demonstration of a strong foundation in electrical engineering as measured by the successful completion of coursework and the qualifying examination.
- Making an original and substantial contribution to the discipline of electrical engineering as measured by conference presentations, conference publications, or peer-reviewed journal articles, and the completion of a successful PhD thesis.
- Demonstrating the ability to effectively communicate original scientific research in electrical engineering as measured by the successful oral defense of a prospectus, PhD thesis, conference presentations, conference publications, or peer-reviewed journal articles.
PhD Program Requirements and Milestones
Course Requirements: In structured courses, only grades of B– or higher are accepted for fulfilling PhD unit requirements. In non-structured (P/F) courses, the P grade is acceptable for fulfilling PhD requirements. PhD students who receive grades of C+ or lower in 3 courses will be withdrawn from the program.
- Post-BS PhD students (64 units): Minimum eight courses, of which four need to be ENG EC 500- and 700-level courses.
- Post-MS PhD students (32 units): Minimum two ENG EC 500- and 700-level courses.
- ENG EC 801 Teaching Practicum and EC 802 Teaching Practicum
- Responsible Conduct of Research
PhD Candidacy: PhD students will have to show technical (TPC) and research (RPC) preparation in order to achieve PhD candidacy.
- Post-BS PhD students: GPA = 3.7 in four ECE courses within the first three academic terms.
- Post-MS PhD students: GPA = 3.7 in two ECE courses within the first two academic terms.
- Research Preparation Criterion (RPC): The research preparation requires a student to pass an oral examination related to a research article (chosen by the student and approved by the ECE Graduate Committee) and its background material. If a student fails the oral examination on the first attempt, they are given a makeup oral examination. All PhD students are required to satisfy the RPC by the end of the first year in the PhD program. Unless a student passes the oral examination on either the first or the second attempt, the student will not be allowed to stay in the PhD program.
Prospectus Defense: Students propose their dissertation research to a faculty committee within two years of achieving candidacy.
Dissertation Defense: The student defends their dissertation, which has to consist of novel work in the area of electrical engineering. The dissertation should be defended within five years of candidacy.
Related Bulletin Pages
- College of Engineering Departments
- College of Engineering Courses
- Abbreviations and Symbols
Beyond the Bulletin
- ENG Graduate Admissions
- Graduate Financial Aid
- Electrical & Computer Engineering
- Master’s Programs Overview
- Doctoral Programs Overview
- Undergraduate Curricula
- Double Majors
- Concentrations
- Biomedical Engineering
- Computer Engineering
- Minor in Electrical Engineering
- BS in Electrical Engineering
- MS in Electrical Engineering
- MS in Electrical & Computer Engineering
- Manufacturing Engineering
- Mechanical Engineering
- Product Design & Manufacture
- Materials Science & Engineering
- Systems Engineering
- Pre-Medical Engineering
- Boston University Dual Degree Program
- Experiential Education
- Degree Option—With Engineering Practice
- Late Entry Accelerated Program (LEAP)
- Study Abroad for Engineering Students
- Departments
- Academic and Student Resources
Terms of Use
Note that this information may change at any time. Read the full terms of use .
related websites
- College of Engineering
Accreditation
Boston University is accredited by the New England Commission of Higher Education (NECHE).
- © Copyright
- Mobile Version
phd research topics in electrical power engineering
Recent PhD Research Topic Ideas for Electrical Engineering 2020
- Campus Maps
- Campus Tours
- People Directory
- New Students
- Current Students
- Faculty and Staff
- Brightspace
- Get help with your login
- Faculty & Staff
Electrical Engineering (PhD)
Focus on cutting-edge research and technology transfer.
Why choose this program?
This PhD program in Electrical Engineering offers access to state-of-the-art labs, collaboration with top faculty and industry leaders, and opportunities in diverse fields like communications, photonics, and robotics, preparing you for an impactful career in major industrial companies and SMEs.
This PhD program prepares you for a successful career in communications, micro/nanoelectronics, photonic and optics, power systems and energy, RF/microwave wireless, or robotics. These fields span high-tech industries, research and development, academia, and energy sectors.
Possible careers include:
Network systems professor
Semiconductor device engineer
Research scientist in communications, power systems, academic, industrial or government settings
Technical director
Admission requirements
You'll need to meet the Faculty of Graduate Studies minimum requirements as well as any program-specific admissions requirements before you can apply.
Financial information
At Dalhousie, we want our students to focus on their studies, rather than worry about their personal finances. We offer competitive tuition rates and funding programs to support graduate students in almost all of our degree programs.
Program options
Thesis : Pursue independent and original research guided by a supervisor to develop and defend your thesis.
Standard program duration:
5 years or longer
Enrolment options:
Delivery format:.
All graduate programs at Dalhousie are collaboratively delivered by a home Faculty and the Faculty of Graduate Studies .
Contact an admissions advisor
GRADUATE COORDINATOR
Vincent Sieben
Email: [email protected]
Phone: 902-494-1288
I'm ready to apply!
While every effort is made to ensure accuracy on this page, in the event of a discrepancy, Dalhousie's Academic Calendars are the official reference.
IMAGES
VIDEO
COMMENTS
1.1 Smart Grids and Micro-grids. a. Distributed control strategies for micro-grid management. b. Blockchain applications for secure energy transactions in smart grids. c. Resilience and robustness enhancement in smart grid systems against cyber threats. d. Integration of renewable energy sources in micro-grids. e.
Don't miss out on exploring the latest dissertation ideas in the field of electrical engineering department. Maximum Power Point Tracking and MPPT efficiency for wind and solar energy conversion standalone system. Joint Resource Modeling and Assessment for Hybrid Distributed Solar and Wind Systems. Optimization of solar-wind hybrid system for ...
Exclusive for scholars pursuing their PhD in Electrical Engineering with base papers (peer-reviewed articles) Improvement of power quality in the distribution line due to the distributed generation of renewable energy; Machine learning based Energy management system for better optimisation of power in electric vehicles.; Efficient and fast wireless power transfer between charging stations and ...
The Electrical Engineering PhD program studies systems that sense, analyze, and interact with the world. You will learn how this practice is based on fundamental science and mathematics, creating opportunities for both theoretical and experimental research. Electrical engineers invent devices for sensing and actuation, designing physical ...
2015. Michael R. Kleinberg, " Online optimization of capacitor switching in electric power distribution systems," Ph.D. Thesis, June 2015. Christian Schegan, " Non-destructive, Remote Testing of Physically Distributed Power Systems: Modeling, Analysis, and Experimental Prototyping," Ph.D. Thesis, June 2015. Nicole Segal, " Realizable ...
a Secondary Field (which is similar to a "minor" subject area). SEAS offers PhD Secondary Field programs in Data Science and in Computational Science and Engineering. GSAS lists secondary fields offered by other programs. a Master of Science (S.M.) degree conferred en route to the Ph.D in one of several of SEAS's subject areas.
EE PhD Model Program. Electrical Engineering is a broad field which draws from disparate areas of knowledge, and so instead of providing rigid course expectations the faculty suggest EE students and their advisors consider the following courses as part of their program, depending on which aspect of EE their research is most aligned with.
Electronic and Electrical Engineering: Fully Funded EPSRC and Swansea University PhD Scholarship: Wireless power transfer system for medical implant devices. Funding providers: EPSRC and Swansea University's Faculty of Science and Engineering. Subject areas: Electronic and electrical engineering, physics and biomedical engineering.
Recent PhD Research Topic Ideas For Electrical Engineering 2020. Exclusive for scholars pursuing their PhD in Electrical Engineering with base papers (peer-reviewed articles) Improvement of power quality in the distribution line due to the distributed generation of renewable energy. Machine learning based Energy management system for better ...
A PhD in Electrical Engineering allows you to not only develop your own knowledge of Electrical Engineering, but also to make a unique, original contribution to the subject as a whole. By doing so, you will hone a variety of transferable skills, such as: Research and Analytical Skills: Ability to design, conduct, and analyse complex research ...
Telecommunication engineering. Power engineering. Computer engineering. Above mentioned are the notable research fields in contemporary research based on electrical engineering. The research scholars should select their PhD in electrical engineering topics from the latest research fields. For more research references based on electrical ...
The PhD in electrical engineering is awarded upon evidence of excellence in research leading to a scholarly dissertation that is a contribution to knowledge. Graduate courses and programs are offered in the following six areas of specialization: control systems; electric power and energy systems; electromagnetics, antennas and microwave circuits
PhD in Energy Systems. University of Birmingham Department of Electronic, Electrical and Systems Engineering. This post invites applications for a self-funded PhD position aimed at advancing the science and technology of power systems. This research endeavour is nestled in the multifaceted domain of power system analysis, planning, and ...
The Ultimate Guide to Achieving a PhD in Electrical Engineering. The pursuit of a PhD in Electrical Engineering represents the pinnacle of academic achievement in the field, signifying a commitment to advancing the frontiers of technology. In an era where technological innovation is accelerating, the role of in-depth research and specialized ...
The electrical engineering program studies systems that sense, analyze, and interact with the world. You will learn how this practice is based on fundamental science and mathematics, creating opportunities for both theoretical and experimental research. Electrical engineers invent devices for sensing and actuation, designing physical substrates ...
Process Automation and Robotics Engineering for Industrial Processing Systems, Drake Stimpson. PDF. Analysis and Model of Sensor-less Modified Direct Torque Control Surface Permanent Magnet Synchronous Machine for Electrical Submersible Pumping Applications, Mulu Woldeyohannes
List of Power Systems Research Topics Ideas for MS/PhD Thesis. 1. Introduction and literature review of power system challenges and issues. 2. Power system inertia estimation: Review of methods and the impacts of converter-interfaced generations. 3.
Suitability of Quantized DEVS-LIM Methods for Simulation of Power Systems, Navid Gholizadeh. PDF. Novel Approach To In-situ Mocvd Oxide/dielectric Deposition For Iii-nitride-based Heterojunction Field Effect Transistors, Samiul Hasan. PDF. Quantized State Simulation of Electrical Power Systems, Joseph Micah Hood. PDF
Both research and research-based education at the Department of Electric Energy cover the broad interdisciplinary aspects of power engineering: generation, transmission, conversion and the use of electric energy, including the accompanying techno-economic aspects. The Department works in close collaboration with industry partners to develop ...
Post-BS PhD students (64 units): Minimum eight courses, of which four need to be ENG EC 500- and 700-level courses. Post-MS PhD students (32 units): Minimum two ENG EC 500- and 700-level courses. ENG EC 801 Teaching Practicum and EC 802 Teaching Practicum. Responsible Conduct of Research. PhD Candidacy: PhD students will have to show technical ...
PH.D RESEARCH PROPOSAL TITLE ELECTRICAL POWER SYSTEMS: ANALYSIS, DESIGN AND CONTROL WITH EMPHASIS ON LOAD FLOW STABILITY, FAULT- LEVEL AND RELIABILITY STUDIES. JULY, 2018. ABSTRACT
Recent PhD Research Topic Ideas for Electrical Engineering 2020
PhD in Energy Systems. This post invites applications for a self-funded PhD position aimed at advancing the science and technology of power systems. This research endeavour is nestled in the multifaceted domain of power system analysis, planning, and optimisation, with a sharp focus on the following research themes.
This PhD program in Electrical Engineering offers access to state-of-the-art labs, collaboration with top faculty and industry leaders, and opportunities in diverse fields like communications, photonics, and robotics, preparing you for an impactful career in major industrial companies and SMEs. ... Research scientist in communications, power ...