phd electrical engineering topics

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1. Power Systems and Renewable Energy

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.

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.

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.

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.

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.

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

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.

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.

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

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.

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.

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

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.

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.

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

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Doing a PhD in Electrical Engineering

What Does a PhD in Electrical Engineering Focus On?

A PhD in Electrical and Electronic Engineering involves conducting original research that pushes the boundaries of our understanding of electronics. Such a research project can have many applications, from developing novel techniques to transmit and process information at high speeds, to investigating the reliability of control processes in industrial operations.

A research project is ideal for graduate students who wish to become specialists in a given field, and contribute to advances in electrical and computer engineering.

An example of common PhD in Electrical Engineering topics is provided below:

Robotics systems, artificial intelligence and automation
Resilient energy and multi-energy systems
Advanced material science and technology/device development
Communication, digital signal processing and radio networks
Electronic engineering for agricultural applications
Microelectronics and Nanoscale Engineering
Sensing devices
Photonics and Optical Communications

Of course, these are just a few of the many areas that a PhD research project in Electronic and Electrical Engineering can focus on. Read on for more information on post graduate study, and how a doctoral degree could benefit you.

Entry Requirements for A PhD in Electrical Engineering

An upper second class (2:1) bachelor’s degree in a related subject area, such as Physics , Computer Science or Material Science is usually the entry requirement for an Electronics or Electrical Engineering PhD research programme in the UK. A lower second class (2:2) bachelor’s degree may be accepted if the graduate student has a master’s degree or relevant work experience. Applicants with international equivalent qualifications are also considered.

Universities will expect international students to provide English Level Qualifications as evidence of their English Language ability. This is usually in the form of a IELTS, TOEFL (iBT) or Pearson PTE score. The exact score requirement may be different across institutions.

Browse PhDs in Electrical Engineering

Decoherence due to flux noise in superconducting qubits at microkelvin temperatures, atomic layer deposition of novel nanolayer materials for solar cells, phd studentship: railway system optimisation, simulation and testing, machine learning for autonomous robot exploration, physical layer algorithm design in 6g non-terrestrial communications, how long does it take to get a phd in electrical engineering.

In the UK, a typical full-time Electrical Engineering research project has a duration of 3 to 4 years. The first 3 years are usually focused on research, with the final year spent on writing the doctoral dissertation and conducting the viva (an oral examination). A part-time Electrical Engineering programme may take students 6 to 7 years to complete. A full-time Electrical Engineering MPhil usually lasts for 1 to 2 years.

To equip you with industrial skills and help you transition into a professional career, many Electrical Engineering doctoral programmes include optional training courses which focus on key ‘transferable skills’. These courses may include academic writing, interpersonal training and management.

Costs and Funding

A UK PhD candidate can expect to pay around £5,000 – £6,000 per year in tuition fees for a 2021/22 PhD programme in Electrical Engineering. Typical tuition fees for EU and overseas students are around £25,000 – £35,000 per academic year. Part-time tuition fees are normally proportioned according to the programme length.

Some Electrical Engineering postgraduate research programmes also have additional costs (bench fees) which cover the cost of specialist equipment, computer upkeep, travel, but these are dependent on the methodology of the research project.

A university’s Electrical or Electronic Engineering faculty may offer postgraduate studentships, doctoral loan schemes, or other funding opportunities which cover the tuition fees for Electrical Engineering doctorate courses.

PhD in Electrical Engineering Salary and Career Paths

For many, the career options it unlocks is what makes a PhD project in electrical engineering worth it. Whilst some doctorates stay in academia upon the successful completion of their postgraduate research degree, others look for a career in industry. Examples of popular Electrical Engineering jobs include:

Electrical Engineer – After obtaining a post graduate degree, many opt to become professional electrical engineers. Here, they are responsible for all aspects of the design and installation of electronic equipment in industry and business. This could include such things as designing electrical systems, computer networks, and electrical equipment. As well as being able to design and install wiring, they must also have knowledge of requirements for electrical safety. Average Electrical Engineer salaries are around £50,000 at senior level. Specialist engineers can earn over £80,000 hence the PhD in electrical engineering salary is usually higher than its bachelor’s or master’s student counterpart.

Aerospace Engineer or Aeronautical Engineer – Some PhD holders go into aerospace or aeronautical engineering, where they are responsible for the design, testing, evaluation and improvement of commercial and military aircraft, rockets and missiles, space vehicles and orbital satellites. Electrical and Electronics doctorates in this sector are likely to use computational software, mathematical equations, physics concepts, and data analysis techniques on a daily basis. There is also scope for participation in test flights, and public engagement. Candidates with a PhD in Electrical Engineering are likely to be offered lucrative salaries as they possess expert insight which is fundamental to research centres. The nature of the field means there are employment opportunities outside the UK. Popular destinations for doctoral students include the US and India.

Nuclear Engineer – Some use their postgraduate degree to pursue a career in nuclear engineering. An electrical engineering PhD student can be involved in all stages of nuclear power – from assessing a power plants’ efficiency, to planning the decommissioning of a nuclear facility. Experienced nuclear engineers in the UK can expect a salary around £50,000.

Teaching – A doctoral student may prefer to stay in academia to continue contributing to their research interest directly. Here they can also interview a doctoral candidate, supervise a research student and propose a postgraduate research programme in their research area.

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Electrical Engineering, Ph.D.

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A century ago, the radio offered mass entertainment; 50 years later, television replaced it. Today we watch movies on handheld devices. Each evolutionary step was made possible by advances in electrical engineering. The Ph.D. in Electrical Engineering program is filled with students and faculty keenly aware of this cycle of progress. They prize the School of Engineering's emphasis on invention, innovation, and entrepreneurship — what we call i 2 e — and they maintain that emphasis through top-flight laboratories and a fierce dedication to advanced research.

Your studies with us will prepare you for a research career in electrical engineering after graduation. But you’ll also be capable of sharing these lessons with your own students, should you choose to teach at the university level.

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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.

Recent PhD in Electrical Engineering Topics

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.

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Electrical and Computer Engineering, PhD

Whiting school of engineering.

The Ph.D. in Electrical and Computer Engineering is oriented with an emphasis on scholarship and research rather than formal coursework. Our Ph.D. program is designed to be easily tailored to the needs and interests of individual students. There are no lists of required courses. The program is directed at independent, highly motivated individuals who desire to work closely with faculty members at the forefront of research in a variety of scientific areas, such as:

Computational and Biomorphic Systems
Computational Systems Biology and Bioinformatics
Computer & Neuromorphic Engineering
Control Systems
Image Processing and Analysis
Integrated Circuits and Microsystems
Language and Speech Processing
Photonics and Optoelectronics
Signal Processing & Machine Learning
Artificial Intelligence and Data Science

The Ph.D. requirements apply to all part-time and full-time students in the program. Time limits, however, are stated in the context of full-time graduate study. Time limits for part-time programs must be individually arranged with the student’s advisor and the Associate Chair of Graduate Studies. The Ph.D. degree certifies that the holder has demonstrated research capability. Accordingly, the Ph.D. requirements are used as checkpoints leading the student through this research experience. Because students tend to spend more than ample time on the path to research, several requirements prescribe time limitations. The requirements stated on the requirements tab include university-wide requirements for the Ph.D.

Financial Aid

Once accepted into our program, all Ph.D. candidates are fully funded for the duration of their program while they are in a full time, resident status, through a fellowship or research assistantship which covers full tuition, health insurance, and a stipend of approximately $37,600 annually. As part of their program, students conduct research in their research advisor's lab and sometimes serve as a course assistant for undergraduate or graduate classes.

Ph.D. Program Requirements

University requirements for the Ph.D. degree are listed under Academic Information for Graduate Students . In addition, the department requires satisfactory completion of the Ph.D. departmental qualifying examination, the university Graduate Board oral examination and submission of a research proposal, and submission of a dissertation and successful completion of a public dissertation defense.

1. Departmental Qualifying Exam

The departmental qualifying examination is offered twice yearly. The student must select and complete the examinations posed by three examiners eligible to supervise doctoral dissertations in the Department of Electrical and Computer Engineering, of which at least two must be tenure-track ECE faculty. Each faculty member prepares a set of questions, and the student must select and complete the sets. The respective examiners grade completed examinations, but it is the ECE Department faculty that makes a collective decision on whether the student has adequately fulfilled the Departmental Qualifying Examination requirement. This decision involves the student's cumulative academic performance in the graduate program, as well as performance on the examination. This examination must be passed before the beginning of the fourth semester of full-time graduate study. The departmental qualifying examination cannot be taken more than twice. Failure to pass the exam after two attempts will result in the student being dismissed from the PhD program. If the student passes the examination, the student can select one of those faculty members to oversee the student’s research. Students must select a Research Advisor immediately upon passing the Departmental Qualifying Examination requirement. This research advisor then guides the student for the remainder of the student’s program leading to the Ph.D. degree. These may include a teaching requirement, particular coursework, a reading program, or a preliminary research project.

2. Written Research Proposal and Graduate Board Oral Examination

Prior to taking the Graduate Board Oral (GBO) examination, students should work with their research advisor and write a research proposal. The written proposal should be sent to the Graduate Board Oral committee and the ECE academic program coordinator at least two weeks prior to the scheduled exam date. While all committee members are encouraged to provide feedback, following the GBO, the proposal must be approved by only the ECE members of the exam committee.

A. Written Research Proposal

The written proposal should be no more than 6 pages with 1 inch margins and 10 point font, excluding references. The proposal should be organized into 3 sections as follows.

1. Description of the significance of the proposed work

Describe the problem that will be addressed
Summarize the current state of the art and the limitations of current approaches

2. Description of the innovation of the proposed work

Describe what is new in the proposed research and how it will address the limitations of current approaches.
Describe the anticipated impact of the proposed research in terms of what difference it will make if it is successful.
Describe any preliminary results that have already been achieved for the proposed work.

3. Description of the anticipated approach to completing the research

Organize the work into the major tasks and describe them.
Provide an anticipated timeline for the completion of the tasks.
Summarize the anticipated risks to success and provide some alternative strategies.

B. Graduate Board Oral (GBO) Examination

Students must pass the Graduate Board Oral (GBO) Examination. The exam should be scheduled prior to the start of the sixth semester although the exam can take place after this date. The purpose of the examination is to test the depth and breadth of the student's knowledge and reasoning abilities. The examination typically is based on the student's course background but may include the proposed dissertation topic. The examination is conducted by five faculty members: two ECE professors, two professors from JHU PhD granting departments outside ECE, and one additional professor that can be either from inside or outside of ECE. At least one of the outside members must be Professor or Associate Professor ranking such that they can chair the exam . Additionally, one departmental alternate and one outside alternate are also required. Note that for GBO examination committee purposes, the research advisor is counted as a member of the ECE Department regardless of affiliation.

The GBO exam is scheduled for 2 hours. Per the GBO rules, the exact format is at the discretion of the GBO chair. Generally, it will consist of a short (approximately 10 minute) presentation by the candidate on their research followed by the GBO exam. Per GBO rules this is a closed exam and the scope of the GBO questions is not limited to the candidate’s research and can cover things such as coursework, etc.

The possible outcomes of the GBO examination include: an unconditional pass, a conditional pass (with the requirements to be met written down on the report form), or failure. In the latter case, if the chair of the GBO committee recommends reexamination, they must indicate with whom and when. At least one person from the original committee must be on the next committee. The Graduate Board does not allow more than two examinations. For more information on the GBO, consult the following website:

http://homewoodgrad.jhu.edu/academics/graduate-board/graduate-board-oral-exams

3. Dissertation & Dissertation Defense

Finally, a public dissertation defense will be conducted before a panel of readers consisting of at least two Electrical and Computer Engineering faculty members. The Dissertation Committee votes on the acceptance of the dissertation. and if it is accepted, then the dissertation is submitted electronically to the library. Further details concerning Ph.D. requirements are published in the advising manual for Ph.D. students in Electrical and Computer Engineering. Further information on the dissertation defense preparation is available at http://engineering.jhu.edu/ece/dissertation-defense-preparation .

Overview of the PhD Program

For specific information on the Electrical Engineering PhD program, see the navigation links to the right.

What follows on this page is an overview of all Ph.D. programs at the School; additional information and guidance can be found on the Graduate Policies pages.

General Ph.D. Requirements

10 semester-long graduate courses, including at least 8 disciplinary. At least 5 of the 10 should be graduate-level SEAS "technical" courses (or FAS graduate-level technical courses taught by SEAS faculty), not including seminar/reading/project courses. Undergraduate-level courses cannot be used. For details on course requirements, see the school's overall PhD course requirements and the individual program pages linked therein.
Program Plan (i.e., the set of courses to be used towards the degree) approval by the Committee on Higher Degrees (CHD).
Minimum full-time academic residency of two years .
Serve as a Teaching Fellow (TF) in one semester of the second year.
Oral Qualifying Examination Preparation in the major field is evaluated in an oral examination by a qualifying committee. The examination has the dual purpose of verifying the adequacy of the student's preparation for undertaking research in a chosen field and of assessing the student's ability to synthesize knowledge already acquired. For details on arranging your Qualifying Exam, see the exam policies and the individual program pages linked therein.
Committee Meetings : PhD students' research committees meet according to the guidelines in each area's "Committee Meetings" listing. For details see the "G3+ Committee Meetings" section of the Policies of the CHD and the individual program pages linked therein.
Final Oral Examination (Defense) This public examination devoted to the field of the dissertation is conducted by the student's research committee. It includes, but is not restricted to, a defense of the dissertation itself. For details of arranging your final oral exam see the Ph.D. Timeline page.
Dissertation Upon successful completion of the qualifying examination, a committee chaired by the research supervisor is constituted to oversee the dissertation research. The dissertation must, in the judgment of the research committee, meet the standards of significant and original research.

Optional additions to the Ph.D. program

Harvard PhD students may choose to pursue these additional aspects:

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. For details see here .
a Teaching Certificate awarded by the Derek Bok Center for Teaching and Learning .

SEAS PhD students may apply to participate in the Health Sciences and Technology graduate program with Harvard Medical School and MIT. Please check with the HST program for details on eligibility (e.g., only students in their G1 year may apply) and the application process.

In Electrical Engineering

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PhD in Electrical Engineering

The PhD program in Electrical Engineering aims to teach students to develop efficient systems that contribute to business, safety, health, and entertainment.

Program Details
Program Details - Advanced Entry
Admissions Information
Tuition & Financial Aid

Innovative Curriculum

Northeastern’s PhD program in Electrical Engineering offers the opportunity to pursue cutting-edge research in the following areas: Signal and image processing; biomedical signal processing and brain-computer interface; pattern recognition; adaptive signal processing; wireless and underwater communications; information theory and coding; robust and distributed control; optics, photonics, acoustics, and magnetics sensors; radio frequency chip design; digital and mixed-signal integrated circuits; low-power very-large-scale integration; modeling and analysis of large scale power grids during normal operation and under faults; dc-dc converters, inverters, rectifiers, and ac-ac converters; as well as modulation techniques used in power electronics.

The PhD in Electrical Engineering is completely research-based with minimal and flexible course requirements which can be pursued as full-time or part-time. The exact nature of the program of study will vary among candidates depending on the dissertation subject area and the candidate’s preparation. The program will include one minor area of study in an area other than that in which the candidate is concentrating. The minor area may be in another discipline within electrical and computer engineering or the minor area may be in another relevant technical or scientific discipline. Applicants can enter the PhD program with either a BS or an MS degree in Electrical Engineering or a closely related field.

PhD in Electrical Engineering students also select their concentration from the following four areas.

Communications, Control, and Signal Processing
Electromagnetics, Plasma, and Optics
Microsystems, Materials, and Devices
Power Systems

The ECE department offers a variety of graduate courses giving students the flexibility in planning their course requirements according to their research requirements and personal interests. Many graduate courses are offered in two sections; in-class and streaming video. Part-time students and full-time students who have schedule conflicts can register in the streaming video sections.

Northeastern ECE is the host or major partner in nine state-of-the-art research centers
Financial support available
Internationally-recognized Internships & Co-op opportunities
Professional Development Workshop Series to complement the research and classroom experiences
Northeastern ECE is a research powerhouse in the Boston area and beyond
An ability to identify, formulate, and solve complex engineering problems.
An ability to explain and apply engineering design principles, as appropriate to the program’s educational objectives.
An ability to produce solutions that meet specified end-user needs.
An ability to apply analytical, numerical, and/or experimental methods to analyze and design complex engineering systems, and to identify, formulate, and solve new challenging electrical engineering problems.
An ability to direct independent scientific research in electrical engineering and related fields.
An ability to formulate new research plans and communicate the research outcomes (both oral and written communication of research results).
Qualifying exam: Students who already hold an MS degree and matriculate in the fall semester must take the qualifying exam in the spring semester of their first year. Students matriculating in spring semester, or students who hold a BS degree and matriculate in the fall semester , can postpone the exam to the second spring semester. Those who fail the exam the first time, have one more chance to take the exam. These students must take the exam the next spring after their first attempt.
Research Advisor: Students should have a research advisor one year after their matriculation.
Thesis Committee: The Dissertation Committee must be formed not later than six months after passing the qualifying exam.
Comprehensive exam: The deadline for comprehensive exam is two years after passing the qualifying exam.
Dissertation Defense: The dissertation defense should be scheduled at least one year after taking the comprehensive exam.

Dissertation/Thesis Instructions

Our graduates pursue careers within academia and beyond.

Middle East Technical University
University of Vermont
Nexant Corporation
Harvard Medical School – Spaulding Rehabilitation Hospital
Qatar University
Universidad Tecnologica de Bolivar
Oak Ridge National Laboratory
Metamagnetics Incorporated
LoopPay Incorporated
Merson Shanghai Co. Ltd.
Qualcomm Technologies Incorporated
Geophysical Survey Systems Incorporated
Baylor College of Medicine
Setem Technologies, LLC
MIT Lincoln Laboratory
University of California, Los Angeles
Argonne National Laboratory
University of California, Berkeley
Boston Children’s Hosptial
Japanese Ministry of Defense, Tokyo
Siemens Healthineers
Learn more.
Scholarship Report
Related Research Centers and Institutes

Experiential Learning

With a large number of high-tech firms in and around Boston, both start-ups and large multinational corporations, many PhD students do an internship during their program while remaining right here in Boston. Often their advisor is instrumental in identifying the internship position, with a funding sponsor or research collaborator, be they in Boston or elsewhere in the United States. Internships can be informally arranged for several months at any time during the calendar year.

PhD students can also take advantage of the more formally arranged co-op program which entails up to 8 months of work experience preceded by several professional development courses to prepare students. The Cooperative Education Program , also known as a “co-op,” is one of the largest and most innovative in the world, and Northeastern is one of only a few that offers a co-op program for graduate students. Through this program students gain professional experience, employed in their field of interest as part of the academic curriculum. Northeastern has over 3,000 co-op employer partners. Additionally, students can participate in the university’s Experiential PhD program.

Academic Advising

The Academic Advisors in the Graduate Student Services office can help answer many of your questions and assist with various concerns regarding your program and student record. Use the link below to also determine which questions can be answered by your Faculty Program Advisors and OGS Advisors.

Graduate Student Services

Admissions & Aid

Ready to take the next step? Review degree requirements to see courses needed to complete this degree. Then, explore ways to fund your education. Finally, review admissions information to see our deadlines and gather the materials you need to Apply.

Degree Requirements
Degree Requirements - Advanced Entry

Student News

2024 Lux. Veritas. Virtus. Inductees

Twenty-three engineering graduate students were inducted into the Lux. Veritas. Virtus. society, which recognizes exceptional graduate students in their final year of study.

Bodet Receives 2024 Outstanding PhD Student Award in Research

Duschia Bodet, E’21, MS’21, PhD’25, electrical engineering, is the recipient of the 2024 Outstanding PhD Student Award in Research, which recognizes PhD students who have shown an impressive ability to conduct high-level research and make contributions to the scholarly literature in their field.

2024 U.S. National Defense Science and Engineering Graduate Research Fellowship

Andrew Ashdown, PhD’27, electrical engineering, was selected as one of the recipients of the U.S. Department of Defense National Defense Science and Engineering Graduate Research Fellowship. A highly competitive fellowship, it is awarded to promising U.S. scientists and engineers to encourage them to pursue doctoral degrees in designated research disciplines of military importance.

COE Research Expo Displays Promising Work of PhD Students

The College of Engineering held a research expo to highlight the work of PhD students. Participants presented their research to a panel of judges and gained critical presentation and communication skills. They also displayed their research during the poster showcase and students were recognized with awards.

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."

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.

PhD (Doctoral) Admissions Overview

Our research-intensive program cultivates the next generation of leaders in academia and industry. Electrical Engineering doctoral students work alongside faculty, fellow students, and researchers who are leaders in their disciplines.

Application Timeline & Deadlines

Click on the links below to read about each step of the application process:

Did You Know?

• A master's degree is not required prior to applying to the PhD program in Electrical Engineering. • Applications are reviewed on an annual basis for autumn quarter start only. • December 7, 2023 is the application deadline for Autumn 2024-2025. • Typical completion time for the PhD degree is 5-7 years. • All PhD students who maintain satisfactory academic progress receive full financial support for the duration of the doctoral program.

Knight-Hennessy Scholars

The Knight-Hennessy Scholars program is designed to build an interdisciplinary community of Stanford graduate students dedicated to finding creative solutions to the world's greatest challenges. The program awards up to 100 high-achieving students every year with full funding to pursue a graduate education at Stanford, including the M.S. and Ph.D. in Electrical Engineering. To be considered, you must apply to Knight-Hennessy Scholars and separately apply to the Electrical Engineering department.

Additional Resources

Electronic and Electrical Engineering MPhil/PhD

London, Bloomsbury

We have a large and vibrant community of doctoral students researching a broad range of topics in electronic and electrical engineering. Our graduates are in high demand, going on to careers in industry, academic research, and permanent academic positions at top institutions. Many of our graduates now hold senior positions in the industry.

UK tuition fees (2024/25)

Overseas tuition fees (2024/25), programme starts, applications accepted.

Entry requirements

A UK Master’s degree, or a minimum of an upper second-class UK Bachelor’s degree, or an overseas qualification of an equivalent standard. The qualification may be in any relevant subject, e.g. electronic engineering, communication engineering, computer science, chemistry, materials science (the latter two for electronic materials research).

The English language level for this programme is: Level 1

UCL Pre-Master's and Pre-sessional English courses are for international students who are aiming to study for a postgraduate degree at UCL. The courses will develop your academic English and academic skills required to succeed at postgraduate level.

Further information can be found on our English language requirements page.

If you are intending to apply for a time-limited visa to complete your UCL studies (e.g., Student visa, Skilled worker visa, PBS dependant visa etc.) you may be required to obtain ATAS clearance . This will be confirmed to you if you obtain an offer of a place. Please note that ATAS processing times can take up to six months, so we recommend you consider these timelines when submitting your application to UCL.

Equivalent qualifications

Country-specific information, including details of when UCL representatives are visiting your part of the world, can be obtained from the International Students website .

International applicants can find out the equivalent qualification for their country by selecting from the list below. Please note that the equivalency will correspond to the broad UK degree classification stated on this page (e.g. upper second-class). Where a specific overall percentage is required in the UK qualification, the international equivalency will be higher than that stated below. Please contact Graduate Admissions should you require further advice.

About this degree

Thanks to the breadth of research we carry out in the department, we offer doctorates across a wide range of topics in electronic and electrical engineering from nanotechnology and novel materials, to circuits and systems, radar, communications, photonics, optical networks and large-scale networks.

Who this course is for

Applicants should have a strong academic record in a relevant discipline, previous research experience, and be highly motivated and interested in continuing their research in the field of electronic and electrical engineering. If you are interested in joining us as a research student, we strongly encourage you to look at the EEE research pages to identify areas of interest to you. Selecting the correct research project or area of research interest is a hugely important first step, so we recommend that you contact potential supervisors directly to discuss possibilities before you apply.

What this course will give you

Our department is the oldest electronic engineering department in England and one of the most highly regarded and research active. Our research is at the cutting edge of the discipline and we have an enviable track record of exploiting our research in new technologies.

Our facilities are world-class with access to the state-of-the-art London Centre for Nanotechnology (LCN) and excellent in-house design and test facilities for radio frequency, radar, communications, optical networks, materials and photonics. On top of this, we also offer comprehensive training packages, dedicated staff, world-renowned academics, and support from UCL's graduate school.

The foundation of your career

Our graduates are in high demand, going on to careers in industry, as postdoctoral researchers and, in many cases, continuing to permanent academic positions at leading educational institutions.

Graduates from this programme have taken up positions at companies such as Cisco Meraki, Alcatel-Lucent, Nokia-Siemens, Barclays, Toshiba, Microsoft, European Space Agency and Deutsche Telekom, with some progressing to Directorships. A significant number use the PhD as a stepping stone to careers in other sectors, including management consultancy and finance. Several have started up their own businesses and become successful entrepreneurs.

Our graduates have also become successful academics and researchers at institutions including the University of Liverpool, Queen Mary, University of London, University of British Columbia, National University of Singapore, Aston University, City University, University of Hokkaido and at UCL.

Several have been awarded prestigious fellowships, including Royal Academy of Engineering and Royal Society University Fellowships, Leverhulme Trust Early Career Awards and EPSRC Fellowships.

Employability

Graduates from this programme are highly employable. They are well-prepared for a career in industry or to conduct powerful, influential research in this multi-disciplinary field. Many have gone on to successful careers in large organisations, top academic institutions and founded their own start-up companies.

The EEE department is located in the heart of London and has deep industry connections. This provides unique and invaluable opportunities to students such as industry-supervised research projects, sponsored studentships, site visits, placements and invited talks from experts connected to the university. Events like our Festival of Research celebrate our industry collaborations, highlight our impacts and enable networking across students, researchers and industry.

We collaborate with institutions, organisations and academics world-wide across most of our postdoctoral provision, and our renowned academic team bring their own experience and expertise to the table.

Our doctoral students engage widely with the world outside academia via mechanisms including Knowledge Transfer (KT) programmes, public engagement and outreach activities. In the former case, we have seconded students to collaborating companies via KT studentships to carry out highly industrially-relevant work. These students are often employed by the company at the end of their PhD.

Teaching and learning

This MPhil/PhD programme provides a route for students to carry out their own research project under the supervision of a member of academic staff. Students will normally work within a research group, and closely with their supervisor(s), to develop each stage of their research. Throughout their degree, students will have regular meetings with their primary supervisor, contact with their secondary supervisor, and participation in group meetings.

Students initially register for an MPhil degree and transfer to the PhD programme after a year, pending success in a transfer/upgrade examination. For a successful upgrade to PhD, students must prepare a written report, give an oral presentation and pass an oral examination.

The final examination for a PhD degree is by the presentation of a thesis, which is assessed by both an external examiner (someone from outside UCL) and an internal examiner (from within UCL). The thesis should demonstrate the student's ability to pursue original research based upon a good understanding of the research techniques and concepts appropriate to the discipline.

This MPhil/PhD comprises mostly self-directed study under the supervision of a member of academic staff. Full-time study equates to 36.5 hours per week; pro-rata for part-time. During the research degree students will have regular meetings with their Primary Supervisor (at least once every month) and consult regularly with a Subsidiary Supervisor.

If a student has external funding, they should ensure they meet the Terms and Conditions of their funder in this regard.

Research areas and structure

Communications and information systems: telecommunication networks and services; wireless communications; IP networks; sensor networks; information security and retrieval
Electronic materials and devices: optical materials and electronic devices; quantum nanoelectronics; diamond electronics; laser processing; resistive switching
Optical networks: optoelectronic devices and systems; large scale optical networks; dense WDM optically routed networks; optical packet networks; high speed optical systems
Photonics: connected electronic and photonic systems; ultrafast photonic devices; wireless over fibre devices and systems; photonic generation of THz signals; advanced liquid crystal devices; uncooled and coherent wavelength division multiplex technology
Sensors, systems and circuits: radar and sonar; antennas and EM modelling; medical electronics; RFID systems; IC design.

Research environment

This department offers an exceptionally vibrant and innovative research environment for students. Our research spans a broad range of topics in electronic and electrical engineering with research groups specialising in Electronic Materials and Devices, Information and Communication Engineering, Optical Networks, Photonics, and Sensors Systems and Circuits. We collaborate widely, both with other departments in UCL, and with leading research groups and industrial partners around the world. This generates a highly stimulating environment that has led to brilliant careers for most of our graduating students.

The length of an MPhil/PhD in this department is normally three years’ full time. Full-time research degree students are required to register for an MPhil degree for not less than 9 months after initial registration. They must then fulfil academic requirements to upgrade to PhD degree no later than 12 months after initial registration. A full-time student must be registered for at least two calendar years before they will be allowed to submit their thesis for examination for the PhD.

The length of an MPhil/PhD in this department is normally five years part time. Part-time research students in this department are required to register for an MPhil degree for a minimum of 15 months after initial registration. They must then fulfil academic requirements to upgrade to PhD degree no later than 22 months after initial registration. A part-time student must be registered for at least three calendar years before they will be allowed to submit their thesis for examination for the PhD.

Accessibility

Details of the accessibility of UCL buildings can be obtained from AccessAble accessable.co.uk . Further information can also be obtained from the UCL Student Support and Wellbeing team .

Fees and funding

Fees for this course.

The tuition fees shown are for the year indicated above. Fees for subsequent years may increase or otherwise vary. Where the programme is offered on a flexible/modular basis, fees are charged pro-rata to the appropriate full-time Master's fee taken in an academic session. Further information on fee status, fee increases and the fee schedule can be viewed on the UCL Students website: ucl.ac.uk/students/fees .

Additional costs

There are no programme-specific costs.

As each PhD research project is unique in nature, additional costs related to consumables, equipment, materials, attending and presenting at conferences, poster printing, etc. will vary. Prospective students are advised to contact the project supervisor for more information on additional costs for specific research projects.

A student conference and travel fund is available to students within the department to help with costs associated with attending and presenting at conferences. Applications are considered on a case-by-case basis.

For more information on additional costs for prospective students please go to our estimated cost of essential expenditure at Accommodation and living costs .

Funding your studies

A number of competitive EPSRC funded studentships are available each year for UK and EU students who meet residency requirements.

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website .

Deadlines and start dates may be dictated by funding arrangements so check with the department or academic unit to see if you need to consider these in your application preparation. In most cases you should identify and contact potential supervisors before making your application. For more information see our How to apply page.

Please note that you may submit applications for a maximum of two graduate programmes (or one application for the Law LLM) in any application cycle.

Choose your programme

Please read the Application Guidance before proceeding with your application.

Year of entry: 2024-2025

Got questions get in touch.

Electronic and Electrical Engineering

[email protected]

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PhD in Electrical Engineering

Program sites.

Electrical & Computer Engineering

Degree Details

As a PhD student, you will pursue theoretical and empirical studies in a topic area determined by your interests, while working with our world-renowned faculty. Students have the option to pursue a post-bachelor’s or post-master’s degree.

Degree Type

Availability.

Our PhD program provides applicants the opportunity for rewarding interdisciplinary study.

Tremendous Research Opportunities

Electrical & Computer Engineering (ECE) faculty members boast international reputations and provide students with opportunities for research , for example, in such areas as: Solid State Materials and Devices, Photonics, Electromagnetics, Space and Science Technology, Computer Networking and Distributed Systems, Signal and Image Processing, Machine Learning and Statistical Signal Processing, Communication, and Sensor Networks. You can learn more about research in these areas by visiting Photonics, Electronics and Nanotechnology , Imaging and Optical Science , Data Science and Intelligent Systems , and BioECE and Digital Health .

The ECE PhD Student Experience

As an electrical or computer 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. 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. However, 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.

Admission Requirements

December 15th

Contact & Application Support

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View all journals

Electrical and electronic engineering articles from across Nature Portfolio

Electrical and electronic engineering is the branch of engineering that makes use of electricity. Electrical engineering concentrates on systems for generating and transmitting large electrical currents and converting them into other forms of energy, such as mechanical motion. Electronic engineering focusses on lower energy currents for processing and communicating information.

Wireless radiofrequency network of distributed microsensors

Distributed sensing of a dynamic environment is typically characterized by the sparsity of events, such as neuronal firing in the brain. Using the brain as inspiration, an event-driven communication strategy is developed that enables the efficient transmission, accurate retrieval and interpretation of sparse events across a network of thousands of wireless microsensors.

Latest Research and Reviews

Energy-efficient superparamagnetic Ising machine and its application to traveling salesman problems

Ising machines are promising for solving NP-hard problems, but current implementations have power consumption and scalability challenges. Si et al. implement an Ising machine consisting of 80 superparamagnetic tunnel junctions with all-to-all connections and apply it to a large-scale travelling salesman problem.

Shuhan Yang
Hyunsoo Yang

DenRAM: neuromorphic dendritic architecture with RRAM for efficient temporal processing with delays

The authors present DenRAM, a hardware realization of spiking neural network with dendritic architecture. It utilizes memristive devices to implement both delay and weight parameters, enhancing low-power signal processing with reduced memory use.

Simone D’Agostino
Filippo Moro
Melika Payvand

A comparative study of J–A and Preisach improved models for core loss calculation under DC bias

Zhichao Luo

Ferroelectric capacitors and field-effect transistors as in-memory computing elements for machine learning workloads

Gaurav Kumar K
Kaushik Roy

200-mm-wafer-scale integration of polycrystalline molybdenum disulfide transistors

A method for integrating polycrystalline molybdenum disulfide using processes in a 200 mm fab facility can create transistors with high robustness and performance comparable with single-crystalline devices.

Junyoung Kwon
Kyung-Eun Byun

Characterization of rotary valve control vibration system for vibration stress relief applications

Guoqiang Zhou
Guochao Zhao

News and Comment

Advanced transport systems: the future is sustainable and technology-enabled.

Transport has always played a major role in shaping society. By enabling or restricting the movement of people and goods, the presence or absence of transport services and infrastructure has historically been determining for cultures to connect, for knowledge to be shared, and for societies to evolve and prosper, or, in contrast, for societies to decay and fail. Since the beginning of the twenty-first century, transport has been going through a revolution worldwide. One of the primary goals for the transport sector is clear: it needs to be decarbonized and become more sustainable. At the same time, technological advances are shaping the transport sector toward smart services and societies. The Special Collection showcases some of the latest advances in research towards sustainable and technology-enabled transport.

Sybil Derrible

Scaling up stretchable electronics

Katharina Zeissler

Searching for MXenes

Matthew Parker

Hybrid perovskites unlocking the development of light-emitting solar cells

Light-emitting perovskite solar cells are emerging optoelectronic devices that integrate light-emitting and electricity-generating functions in one device. This type of device unlocks new possibilities for applications as outdoor light sources, in multifunctional architecture, smart automobiles, self-powered displays and portable power floodlights.

Alexey Tarasov

Tailoring materials, structures and fabrication processes for stretchable electronics

An article in Nature presents large-area, high-performance intrinsically stretchable electronics thanks to innovation in materials selection, fabrication processes, device engineering and circuit design.

Silvia Conti

Van der Waals magnet integration for energy-efficient spintronics

An article in Science Advances reports an integrated van der Waals system that enables field-free electric control of the magnetization of Fe 3 GaTe 2 above room temperature.

Quick links

Explore articles by subject
Guide to authors
Editorial policies

Alternatively, use our A–Z index

Attend an open day

Discover more about postgraduate research

PhD Electrical and Electronic Engineering / Overview

Year of entry: 2024

View full page

The standard academic entry requirement for this PhD is an upper second-class (2:1) honours degree in a discipline directly relevant to the PhD (or international equivalent) OR any upper-second class (2:1) honours degree and a Master’s degree at merit in a discipline directly relevant to the PhD (or international equivalent).

Other combinations of qualifications and research or work experience may also be considered. Please contact the admissions team to check.

Full entry requirements

Apply online

In your application you’ll need to include:

The name of this programme
Your research project title (i.e. the advertised project name or proposed project name) or area of research
Your proposed supervisor’s name
If you already have funding or you wish to be considered for any of the available funding
A supporting statement (see 'Advice to Applicants' for what to include)
Details of your previous university level study
Names and contact details of your two referees.

Find out how this programme aligns to the UN Sustainable Development Goals , including learning which relates to:

Goal 7: Affordable and clean energy

Goal 9: industry, innovation and infrastructure, goal 11: sustainable cities and communities, goal 12: responsible consumption and production, goal 13: climate action, programme options, programme description.

The Degree of Doctor of Philosophy (PhD) is a research degree awarded for making a significant contribution to knowledge; in our case to the subjects associated with Electrical and Electronic Engineering. The period of research is three to four years.

The Department of Electrical and Electronic Engineering is one of the largest electrical and electronic engineering schools in the UK. We have strong links with industry in a number of sectors and are renowned for our theoretical and applied research. We have over 70 academic staff and their research interests cover virtually all aspects of the subject; from the generation and distribution of electrical energy through to photonics and functional materials.

More information about the areas of research interest in the Department can be found on the following web pages:

Research themes
Areas of expertise
Research impact

To find out more about the research interests of a particular member of staff visit the staff profiles:

Staff profiles

For entry in the academic year beginning September 2024, the tuition fees are as follows:

PhD (full-time) UK students (per annum): Band A £4,786; Band B £7,000; Band C £10,000; Band D £14,500; Band E £24,500 International, including EU, students (per annum): Band A £28,000; Band B £30,000; Band C £35,500; Band D £43,000; Band E £57,000

Further information for EU students can be found on our dedicated EU page.

The programme fee will vary depending on the cost of running the project. Fees quoted are fully inclusive and, therefore, you will not be required to pay any additional bench fees or administration costs.

All fees for entry will be subject to yearly review and incremental rises per annum are also likely over the duration of the course for Home students (fees are typically fixed for International students, for the course duration at the year of entry). For general fees information please visit the postgraduate fees page .

Always contact the Admissions team if you are unsure which fees apply to your project.

Scholarships/sponsorships

There are a range of scholarships, studentships and awards at university, faculty and department level to support both UK and overseas postgraduate researchers.

To be considered for many of our scholarships, you’ll need to be nominated by your proposed supervisor. Therefore, we’d highly recommend you discuss potential sources of funding with your supervisor first, so they can advise on your suitability and make sure you meet nomination deadlines.

For more information about our scholarships, visit our funding page or use our funding database to search for scholarships, studentships and awards you may be eligible for.

UN Sustainable Development Goals

The 17 United Nations Sustainable Development Goals (SDGs) are the world's call to action on the most pressing challenges facing humanity. At The University of Manchester, we address the SDGs through our research and particularly in partnership with our students.

Led by our innovative research, our teaching ensures that all our graduates are empowered, inspired and equipped to address the key socio-political and environmental challenges facing the world.

To illustrate how our teaching will empower you as a change maker, we've highlighted the key SDGs that our programmes address.

Ensure access to affordable, reliable, sustainable and modern energy for all

Build resilient infrastructure, promote inclusive and sustainable industrialization and foster innovation

Make cities and human settlements inclusive, safe, resilient and sustainable

Ensure sustainable consumption and production patterns

Take urgent action to combat climate change and its impacts

Contact details

The School of Engineering creates a world of possibilities for students pursuing skills and understanding. Through dynamic research and teaching we develop engineering solutions that make a difference to society in an ethical and sustainable way. Science-based engineering is at the heart of what we do, and through collaboration we support the engineers and scientists of tomorrow to become technically strong, analytically innovative and creative. Find out more about Science and Engineering at Manchester .

Programmes in related subject areas

Use the links below to view lists of programmes in related subject areas.

Electrical and Electronic Engineering

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PhD Assistance

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 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.

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Ph.D. programme in Electrical, Electronics and Communications Engineering

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Programme overview

The EECE Ph.D. programme aims at training highly qualified researchers and experts in the general field of electrical, electronics, and communications engineering. Our Ph.D. candidates acquire those fundamental skills that are necessary to carry out theoretical and experimental research, both in highly specialized technical disciplines and in a broader multidisciplinary setting. Ph.D. graduated are expected to become active players in scientific and technical innovation in academia, industry, or research institutions.

This Ph.D. is the largest Ph.D. programme at Politecnico di Torino. The research topics of interest include but are not limited to the broad set of IEEE disciplines. The EECE programme formally includes two curricula:

General : covers most disciplines in the general fields of Electronics, Electromagnetic Fields, Communications and Computer Networks, Electrical Engineering and Power Systems, Automation and Robotics, and Mechatronics. For a detailed list click here .
Electron devices (INFN) : specializes in research and developments of high-performance electronic devices and components supporting large experiments on fundamental matter physics; this curriculum is conducted in collaboration with the National Institute of Nuclear Physics .

The Academic Board managing this doctorate includes about fifty highly qualified Professors and Researchers belonging to four departments of Politecnico:

Department of Electronics and Telecommunications ( DET )
Department of Energy ( DENERG )
Department of Applied Science and Technology ( DISAT )
Department of Control and Computer Engineering ( DAUIN )

to the Torino section of INFN and to the National Research Council (CNR). Most of these board members are well-known personalities in their respective research fields, including several IEEE Fellows, Editors of prestigious international journals, and Chairs of leading technical conferences.

Ph.D. candidates are involved in several activities since their first day

Research : research topics and objectives are defined right after enrolment in accordance with the supervisor, so that the activities can be focused on a specific target throughout the three-year program.
Training : an extremely rich catalog of courses is available, leaving much freedom to the Ph.D. candidates to choose the courses of interest. Doctoral-level courses allow to strengthen existing technical competencies, to be exposed to activities of other research groups, to develop soft skills, and are an occasion to network with peers.
Interaction : developing relationships and exchanging knowledge are considered essential assets for scientific and professional growth. Therefore, Ph.D. candidates are expected to closely collaborate with peers and faculty, not only within their research group and Department but also especially with national/international research communities. A secondment period at a partner (academic or private) institution is encouraged as a valuable opportunity.
Projects : most EECE scholarships are funded by public institutions and especially private companies investing in dedicated research programs, available through supervisors and research groups. To strengthen the link with industry, EECE strongly encourages "industrial Ph.D. programmes” conducted in close partnership with private companies.
Publications and traveling : the final objective of any research is to enable third parties to take advantage of the results. A fundamental step is the publication of these results in international journals and at leading conferences. The former provides the largest impact and archival value, the latter provides excellent networking opportunities. Each EECE Ph.D. candidate produces on average more than three journal publications during the Ph.D. programme.

Key information

Type of programme:, department:, coordinator:.

GRIVET TALOCIA STEFANO

Vice coordinator:

GAUDINO ROBERTO

GOANO MICHELE

Admissions:

Titolo contacts, titolo student office, titolo representative of phd candidates.

Graduate Catalog >
Norm Asbjornson College of Engineering >
Department of Electrical and Computer Engineering >

Ph.D. in Electrical Engineering

Ph.D. students earn at least 60 post-baccalaureate credits, including at least 18 credits of dissertation work. In progressing toward this degree, the student must pass the following examinations:

A written departmental Graduate Study Qualifying Examination administered to all M.S. and Ph.D. students in their first year of work.
A comprehensive examination to be taken within two years of the qualifying examination and after completing two-thirds of their total coursework.
A final oral examination and defense of a dissertation based on the student's research.

There is no foreign language requirement for the degree.

Degree requirements--60 credits total:

≤ 28 credits Doctoral Thesis ( EELE 690 ) , with a minimum 18 credits.
2 credits Scientific Communication and Proposal Development ( ENGR 650 ) , taken just before the comprehensive examination
≥ 3 credits Advanced Math, Numerical Methods, or Statistics (committee approved)
≥ 27 advisor-approved credits with all graded credits having earned a B or better.
≤ 9 credits at 4xx level

All credits must also meet the following conditions:

Regardless of how many credits are applied from a previously earned master’s degree, the Ph.D. program of study must include at least 9 credits of major courses taken

at Montana State University (ECE-specific exception granted by Grad School).

All Ph.D. credits no more than ten (10) years old at time of graduation (this limit does not apply to courses counted from a previously earned master’s degree).
≤ 6 credits Independent Study (EELE 592).
≤ 3 credits pass/fail, excluding dissertation.
≤ 9 credits challenged.
No credits of 488, 489, 490, 492, 494, 498, or 589 are allowed.

Montana State University

P.O. Box 172220

Bozeman, MT 59717-2220

Telephone: (406) 994-6650

Fax: (406) 994-1972

Email: [email protected]

Location: 101 Montana Hall

Antoni Campeau

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Digital Commons @ USF > College of Engineering > Electrical Engineering > Theses and Dissertations

Electrical Engineering Theses and Dissertations

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

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

Theses/Dissertations from 2022 2022

Stability and Interaction Analysis of Inverter-Based Resources in Power Grids , Li Bao

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

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

Diagnosis of Neurodegenerative Diseases Using Higher Order Statistical Analysis of Electroencephalography Signals , Seyed Alireza Khoshnevis

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

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

Improving Stability by Enhancing Critical Fault Clearing Time , Ammara M. Ghani

RF Power Circuit Designs for Wi-Fi Applications , Krishna Manasa Gollapudi

Enhancing Secrecy and Capacity of Wireless Systems Using Directive Communications , Mohammed A. Hafez

Statistical Anomaly Detection and Mitigation of Cyber Attacks for Intelligent Transportation Systems , Ammar Haydari

Absorber and Window Study – CdSexTe1-x/CdTe Thin Film Solar Cells , Chih-An Hsu

Methods and Algorithms to Enhance the Security, Increase the Throughput, and Decrease the Synchronization Delay in 5G Networks , Asim Mazin

Piezoelectric ZnO Nanowires as a Tunable Interface Material for Opto-Electronic Applications , Anand Kumar Santhanakrishna

Security Framework for the Internet of Things Leveraging Network Telescopes and Machine Learning , Farooq Israr Ahmed Shaikh

Diversity and Network Coded 5G Wireless Network Infrastructure for Ultra-Reliable Communications , Nabeel Ibrahim Sulieman

The Design of Passive Networks with Full-Wave Component Models , Eric Valentino

CubeSat Constellation Design for Intersatellite Linking , Michael T. White

Theses/Dissertations from 2018 2018

Design of Micro-Scale Energy Harvesting Systems for Low Power Applications Using Enhanced Power Management System , Majdi M. Ababneh

A Study on the Adaptability of Immune System Principles to Wireless Sensor Network and IoT Security , Vishwa Alaparthy

Validation of Results of Smart Grid Protection through Self-Healing , Felipe Framil Assumpção

A Novel Framework to Determine Physiological Signals From Blood Flow Dynamics , Prashanth Chetlur Adithya

The Effect of Processing Conditions on the Energetic Diagram of CdTe Thin Films Studied by Photoluminescence , Shamara P. Collins

Physical Electronic Properties of Self-Assembled 2D and 3D Surface Mounted Metal-Organic Frameworks , Radwan Elzein

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PhD Research Topics in Electrical

PhD Research Topics in Electrical is one of our best research platforms. It introduces for PhD/MS scholars to begin their study trip. Electrical Devices convert electrical energy into other forms as warmth, electromagnetic, and brightness. To conduct that, it uses “ heavy metals” as copper, iron, and so on.

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Power Electronics and also in Drive System
Wearable Technologies
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The fresh process of Specific parameters comparison of synchronous reluctance electric drives

An innovative mechanism for Scaled SRM and Drive Unit for HVAC Systems in Electric Vehicles

The new function of Influence for Electric Field Distribution on Insulator Surface Flashover

A competent Mechanism of Electric Field Control at the Interface of Central Conductor and Insulation Basin of UHV GIS Spacer

An innovative function of Discharge Resistant Epoxy/Clay Nanocomposite for High Torque Density Electrical Propulsion

The fresh function of HVDC electrical insulation performance in oil/pressboard composite insulation system based on Kerr electro-optic field measurement and electric field analysis

An effectual Research based on electrical strength of epoxy resin board in the high altitude area

The fresh process of Fast Tree Algorithm for Electric Field Calculation in Electrical Discharge Simulations

An effective process of Standby Person for Electrical Tasks and Rescue Guidelines for Electrical Incident Victims

An inventive function for Review of Electric Vehicles Charging Technologies Stationary and Dynamic system

A competent source of Synchronous in Electric Generator With Double Excitation system

An effective mechanism for State-of-the Art Electrical Machines meant for Modern Electric Vehicles

On the use of Demand-Side Management of Electric Water Heaters for Mitigating in Impact of Plug-In Electric Vehicles on Distribution Systems

An inventive function of Intelligent Control of Electric Machine Drive Systems

On the use of Electrical Properties in Effect of the ß-Crystal Formation method

An original function of Influence of Cable Terminal Floating Potential Defect on Electric Field

A new process of determine Threshold Electric Field for PPLP Specimen in Liquid Nitrogen Based on Measurement of Electrical Conductivity

An effective design process of Feature extraction for electric field distribution and its application in discharge voltage prediction of large sphere-plane air gaps

An effectual mechanism foor Electrical and Thermal Effects of Fault Currents in Aircraft Electrical Power Systems With Composite Aerostructures

A new mechanism to design a Complete Electrical Shock Hazard Classification System and Its Application

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Top 75 Emerging Research Topics in Electrical Engineering
Table of contents. Top 75 Emerging Research Topics in Electrical Engineering. 1. Power Systems and Renewable Energy. 1.1 Smart Grids and Micro-grids. 1.2 Energy Harvesting and Storage. 1.3 Electric Vehicles and Transportation. 2. Communications and Networking.
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Electrical Engineering
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Doctoral Studies
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Electrical and electronic engineering is the branch of engineering that makes use of electricity. Electrical engineering concentrates on systems for generating and transmitting large electrical ...
PhD Electrical and Electronic Engineering / Overview
The Degree of Doctor of Philosophy (PhD) is a research degree awarded for making a significant contribution to knowledge; in our case to the subjects associated with Electrical and Electronic Engineering. The period of research is three to four years.
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 optimisation of power in electric vehicles.; Efficient and fast wireless power transfer between charging stations and ...
Electrical, Electronics and Communications Engineering
This Ph.D. is the largest Ph.D. programme at Politecnico di Torino. The research topics of interest include but are not limited to the broad set of IEEE disciplines. The EECE programme formally includes two curricula: General: covers most disciplines in the general fields of Electronics, Electromagnetic Fields, Communications and Computer ...
Ph.D. in Electrical Engineering < Montana State University
Degree requirements--60 credits total: ≤ 28 credits Doctoral Thesis ( EELE 690), with a minimum 18 credits. ≥ 27 advisor-approved credits with all graded credits having earned a B or better. Notes: at Montana State University (ECE-specific exception granted by Grad School). All Ph.D. credits no more than ten (10) years old at time of ...
Electrical Engineering Theses and Dissertations
Fabrication and Characterization of Electrical Energy Storage and Harvesting Energy Devices Using Gel Electrolytes, Belqasem Aljafari. PDF. Phasor Measurement Unit Data-Based Steady State and Dynamic Model Estimation, Anas Almunif. PDF. Cross Layer-based Intrusion Detection System Using Machine Learning for MANETs, Amar Amouri. PDF
Top 10 Innovative Ideas for PhD Research Topics in Electrical
Vital Electrical Research Areas. Power Electronics and also in Drive System. Wearable Technologies. Robotics and also Mechatronics. VLSI and RFID Design. IoE and also Signal Processing. In actual fact, our experts from PhD Research Topics in Electrical are adept in all top areas. And they are familiar with recent research problems too.

Top 75 Emerging Research Topics in Electrical Engineering

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1. Power Systems and Renewable Energy

3. Control Systems and Robotics

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5. Signal Processing and Machine Learning

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