research topics of electrical engineering

Interesting
Scholarships
UGC-CARE Journals

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

What is a Research Design? Importance and Types

Indian council of social science research calls for collaborative research project, 10 tips to quickly publish research article with chatgpt, email subscription.

iLovePhD is a research education website to know updated research-related information. It helps researchers to find top journals for publishing research articles and get an easy manual for research tools. The main aim of this website is to help Ph.D. scholars who are working in various domains to get more valuable ideas to carry out their research. Learn the current groundbreaking research activities around the world, love the process of getting a Ph.D.

WhatsApp Channel

Join iLovePhD WhatsApp Channel Now!

Artificial intelligence

100+ Recent & Hot Electrical Engineering Research Topics For Students [2024 Updated]

Electrical engineering research topics are good for upgrading your engineering skills. It helps to modify the student’s knowledge as per the technology we use daily, from phones to computers to appliances. Researchers in this field explore new ideas to improve how electricity powers our lives. Here, we cover all research topics that make our devices smarter, connections faster, and energy cleaner.

Imagine a future where a robot can understand voice commands or traffic lights automatically adjust based on real-time conditions. Electrical engineering research brings science fiction to reality! Topics like artificial intelligence, wireless communication, renewable energy, and electronics design are critical for innovation.

In simple words, we find easy ways for electricity to solve problems. How can solar panels provide cleaner power? How do robot vacuum cleaners know when to turn? The core electric engineering research topics for students, whether from high school, college student, etc. These topics are good to use for all students.

The world of electrical engineering shapes the appliances, lights, gadgets, and technologies we rely on daily. From allowing phones to access the internet to powering cities through solar grids, these topics merge electricity with innovation. With rapid technological change, the brightest ideas are yet to be discovered.

You May Also Know: Civil Engineering Research Topics For Undergraduates

Table of Contents

What Are Electrical Engineering Research Topics?

Electrical engineering research looks at many topics. These topics help find new ways to use electricity and circuits. The goal is to improve lives through technology and systems.

Some common electrical engineering research topics are power and energy. Researchers may work on devices that capture renewable power from the sun and wind. They find ways to store and use energy efficiently in homes. Other topics include systems to transfer electricity safely to homes and appliances. Some researchers build smart controllers to automate machines around us.

Another common research area is communication technologies. These allow devices to ‘talk’ to each other wirelessly. Topics include developing fast internet networks, smart Bluetooth devices, and GPS systems.

Other topics focus on building tiny electronic chips inside computers and phones. Researchers also work on voice technologies, self-driving cars, drones, and more.

In essence, electrical engineering researchers focus on a wide variety of subjects. Their aim is to find innovative ways to harness electricity and circuits. This drives the evolution of appliances, devices, networks, and overall technology. Research in the field ultimately seeks to improve how we live globally.

How Can I Find Good Electrical Engineering Research Topic?

Here are some tips to help you find a good electrical engineering research topic:

Look at emerging technologies and trends. Areas like renewable energy, robotics, artificial intelligence, the Internet of Things (IoT), etc, have a lot of interesting problems to solve. These electrical engineering research topics offer great scope for innovation.
Talk to professors and industry experts. They are most updated on cutting-edge advancements and can suggest ideas based on current gaps and needs. Discussing with them can help align your interests to impactful topics.
Read the latest research papers in reputed IEEE journals like Transactions on Power Systems, Transactions on Communications, etc. Identify open research questions and new concepts that need further investigation.
Attend seminars and conferences in your subfield of interest. Being aware of the latest findings and debates will lead you to potential topics.
Identify technology problems around you that need electrical engineering solutions, like improving the efficiency of motors, smarter energy systems, better batteries, etc. Ground your topic in real-world relevance.
Explore interdisciplinary topics combining electrical engineering with fields like computer science, biotech, physics, etc. This can lead to greater impact and uniqueness.

What Are The Some Recent Topics For Research In Electrical Engineering?

Here are some of the recent popular an hottest electrical engineering research topics in electrical engineering presented below:

100+ Recent & Hot Electrical Engineering Research Topics For Students

Here are the hottest topics for research in Electrical Engineering (EE) currently:

Power Systems and Renewable Energy Research Topics

Resilient Microgrid Design for Disaster Response
Distributed Energy Storage Systems in Smart Grids
Real-time Simulation of Power Systems
Enhanced Fault Detection in Power Distribution Networks
Renewable Energy Integration Challenges in Developing Countries
Electrification of Rural Areas using Renewable Energy Sources
Cyber-Physical Attacks in Power Grids and Countermeasures
Hybrid Renewable Energy Systems for Remote Locations
Dynamic Line Rating for Improved Transmission Line Utilization
Power System State Estimation using Machine Learning
Intelligent Energy Management for Electric Vehicles
Grid Integration of Wave and Tidal Energy
Advanced Synchronization Techniques in Power Systems
Reliability and Resilience Metrics for Power Distribution Systems
Advanced Monitoring and Control of Photovoltaic Systems
Power Electronics for High Voltage Direct Current (HVDC) Systems
Voltage Stability Assessment in Power Networks
Smart Buildings and Their Role in Demand Response
Innovative Approaches for Power Grid Restoration
Advanced Techniques for Power System Protection

Communications and Signal Processing Electrical Engineering Research Topics

Cognitive Radio for Spectrum Sharing in 6G Networks
Massive MIMO Systems for Next-Generation Wireless Communication
Quantum Communication Networks and Protocols
Signal Processing for Non-Invasive Brain-Computer Interfaces
Visible Light Communication for Indoor Positioning
Dynamic Spectrum Access in Cognitive Radio Networks
Machine Learning Approaches for Wireless Channel Modeling
Ultra-Reliable Low Latency Communication (URLLC) in 5G
Cooperative Communication Strategies for Mobile Ad-Hoc Networks
Millimeter Wave Communication Systems for 6G
AI-Enhanced Beamforming in Wireless Networks
Spectrum Sensing Techniques in Cognitive Radio Networks
Underwater Acoustic Communication Systems
Fog Computing for Low-Latency IoT Applications
Intelligent Antenna Systems for 5G and Beyond
Cross-Layer Optimization in Wireless Sensor Networks
Information-Centric Networking (ICN) for Future Internet
Quantum Key Distribution for Secure Wireless Communication
6G Network Slicing and Virtualization
Energy-Efficient Communication Protocols for IoT Devices
UAV-Assisted Communication Networks for Disaster Response
Non-Orthogonal Multiple Access (NOMA) for 5G Networks
Green Communication Technologies for Sustainable Networks
Blockchain for Secure and Decentralized Communication
Deep Learning for Wireless Channel Prediction
Advanced Error Control Coding Techniques for Wireless Channels
Terahertz Communication for Ultra-High Data Rates
Intelligent Spectrum Management in Cognitive Radio Networks
Satellite Communication Systems for Global Connectivity
3D Printing Antenna Technologies for Customized Devices

Control Systems and Robotics Research Topics

Swarm Robotics for Cooperative Tasks
Humanoid Robots for Hazardous Environment Exploration
Cyber-Physical Systems in Industry 4.0
Learning-Based Control for Robotic Manipulation
Neuro-Fuzzy Control Systems for Complex Processes
Explainable AI for Control System Decision-Making
Autonomous Vehicles and Traffic Management Systems
Cooperative Control of Multi-Agent Systems
Soft Robotics for Human Interaction
Model Predictive Control for Energy-Efficient Buildings
Haptic Feedback Systems in Virtual Reality Environments
Intelligent Transportation Systems and Traffic Control
Biomimetic Robotic Systems for Environmental Monitoring
Real-Time Adaptive Control Systems for Dynamic Processes
Augmented Reality in Control System Visualization
Fault-Tolerant Control Systems in Robotics
Human-Machine Collaboration in Industrial Automation
Swarm Intelligence for Smart Grid Management
Control Strategies for Unmanned Aerial Vehicles (UAVs)
Model-Free Reinforcement Learning for Control Systems
Adaptive Cruise Control Systems in Autonomous Vehicles
Advanced Navigation Systems for Autonomous Robots
Wearable Robotics for Rehabilitation
Predictive Maintenance Systems using Machine Learning
Smart Control of Home Automation Systems
Human-Computer Interaction in Virtual Reality Environments
Brain-Inspired Control Algorithms for Robotics
Machine Learning for Anomaly Detection in Control Systems
Autonomous Robotic Inspection of Critical Infrastructures
Intelligent Traffic Signal Control Systems

Electronics and VLSI Design Research Topics

Neuromorphic Hardware for AI Applications
Quantum-dot Cellular Automata for Low-Power Circuits
3D IC Integration and Design Challenges
Energy-Efficient Reconfigurable Computing Architectures
Non-Volatile Memory Technologies for Future Storage
Neuromorphic Computing Architectures for Edge Devices
Advanced Materials for Semiconductor Devices
Silicon Photonics for High-Speed Data Transmission
Hardware Security in VLSI Design
Energy-Efficient Analog and Mixed-Signal Circuits
Spintronics and Magnetoresistive Devices
Quantum Computing Hardware Design
Reversible Logic Circuit Design for Low Power
Wearable Electronics and Flexible Substrates
Bio-Inspired Computing Hardware
Emerging Memory Technologies (e.g., Resistive RAM)
Low-Power Design Techniques for Internet of Things (IoT)
Hardware Trojans Detection and Prevention
Energy Harvesting Circuits for Self-Powered Devices
Advanced Techniques for FPGA-Based Prototyping

What Are Some Cool But Easy Research Paper Topics For Electrical Engineering Students?

Here are some cool and easy research paper topics for electrical engineering students:

Current Electrical Engineering Research Topics PDF

Here is the latest Electrical Engineering Research Topics for students :

What Are Current PhD Research Topics In Electrical Engineering?

Here are some of the currently popular PhD research topics in electrical engineering:

Exploring electrical engineering research topics leads to technologies that empower our modern lives. The field seeks to harness the power of electricity and circuits to drive innovation.

Some key areas researchers focus on include cleaner, smarter energy systems. Advanced tools help capture and distribute electricity from renewable sources like solar and wind. Other systems make appliances and homes more energy-efficient. This allows sustainable power usage globally.

Research also enables various communication technologies . These help devices connect and share data seamlessly around the world. Topics in this area lead to faster wireless networks, intelligent sensors and sophisticated consumer electronics.

Various control systems and robotics topics facilitate automated, self-driving vehicles, drones and smart machinery. While signal processing research realizes advanced wearable devices, imaging techniques and efficient AI.

Cutting across domains, artificial intelligence promises to revolutionize electrical systems by making them highly responsive, predictive and accurate. Researchers also work extensively on using computation power effectively.

The vibrant world of electrical engineering research is shaping smarter grids, appliances, machineries and cities. The ultimate mission is enhancing quality of life by optimally harnessing electricity and digital systems to build a sustainable, highly connected future.

100+ Most Interesting Google Scholar Research Topics For Students [Updated 2024]

151+ Best Sociology Research Topics on Mental Health [2024 Revised]

100+ Electrical Engineering Research Topics Examples

Electrical engineering comprises the comprehension of electricity and how it works. The main task of electrical engineers is to improve the distribution of energy to different electrical devices. Electrical engineers utilize their skills and knowledge to solve different technical issues. Electrical engineers’ tasks are working with the airline navigation system, GPS, systems for power generation, and transmissions like the wind farmhouses and similar projects. Working on different energies also comes in the domain of electrical engineers such as hydro-energy, turbine, fuel cell, gas, geothermal energy, solar energy, and wind energy. Electrical engineers use various passive components such as inductors, capacitors, and resistors, and so on while working on electrical devices and systems.

Students need to get different ideas for the research in electrical engineering on the latest ideas during the academic career of engineering. If you have been looking for an article that includes interesting research paper topics for electrical engineering students at a single site, you have come to the right place.

Browse Articles

research topics of electrical engineering

Medical artificial intelligence should do no harm

Bias and distrust in medicine have been perpetuated by the misuse of medical equations, algorithms and devices. Artificial intelligence (AI) can exacerbate these problems. However, AI also has potential to detect, mitigate and remedy the harmful effects of bias to build trust and improve healthcare for everyone.

Melanie E. Moses
Sonia M. Gipson Rankin

Promoting women in tech

In the spirit of promoting gender equality, Sony, in partnership with Nature , has launched the ‘Sony Women in Technology Award’ to recognize and celebrate the remarkable women spearheading advancements in STEM.

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.

After confronting one uncanny valley, another awaits

The ‘uncanny valley’ has guided robot engineers on the limits of human likeness, yielding design principles to mitigate the risk of creepy robots. Yet unease with advancements in AI has exposed a new ‘uncanny valley of mind’, with researchers now exploring acceptable boundaries on simulating human intelligence, emotion, empathy and creativity.

Jan-Philipp Stein
Karl F. MacDorman

Applications of hyperspectral imaging technology in the food industry

Rational and scientific use of hyperspectral imaging involves the selection of appropriate imaging hardware and data analysis software. Sun et al. describe applications of hyperspectral imaging in food quality inspection and provide guidance for non-specialist researchers aiming to implement this technology.

Jingxiao Yu

Power electronics in wind generation systems

This Review discusses the current capabilities and challenges facing different power electronic technologies in wind generation systems from single turbines to the system level. Several projects are reviewed to highlight areas of current research focus, and future trends of wind power generation are summarized.

Frede Blaabjerg
Liang Huang

Blockchain technology for mobile multi-robot systems

Blockchain technology can be integrated into mobile multi-robot systems. This Perspective overviews the initial achievements, open challenges and research directions in the field of blockchain-based mobile multi-robot systems.

Marco Dorigo
Alexandre Pacheco
Volker Strobel

Nature-inspired interfacial engineering for energy harvesting

Nature evolves intricate surfaces/interfaces to achieve high energy efficiency, providing a promising, low-carbon solution to energy crisis. This Review explores diverse energy processes in nature and how to translate nature’s inspiration to efficiently harvest energy from water, sunlight, heat and their hybrids, especially through interfacial engineering.

Baoping Zhang
Wanghuai Xu
Zuankai Wang

A life in electrical engineering, glancing at biology

Evolution and interdisciplinarity are key words for Elisa Vianello, senior scientist and Edge AI program coordinator at CEA-Leti, who talks to Nature Reviews Electrical Engineering about her research activity and the importance of bridging the gap between academia and industry.

Elisa Vianello

Spectral multiplication enables THz-tunable and broadband electro-optic combs

An article in Nature Communications presents a spectral multiplication approach to obtain THz-tunable and broadband electro-optic combs using integrated multi-wavelength semiconductor lasers.

MXenes for multispectral electromagnetic shielding

Two-dimensional MXenes have emerged as state-of-the-art functional electromagnetic interference shielding materials in multispectral electromagnetic bands. Highly conductive and ultrathin films of MXenes can efficiently block electromagnetic waves from radiofrequency and gigahertz-range microwaves to terahertz or infrared-frequency waves.

Aamir Iqbal
Tufail Hassan
Chong Min Koo

Sensing fugitive hydrogen emissions

For the transition to a sustainable energy sector, massive hydrogen production and use is crucial. There is growing awareness of a connection between an indirect global warming potential and the production of hydrogen, so its fugitive emissions must be addressed. This Comment emphasizes the need for affordable hydrogen-sensing methods to benefit safety, energy efficiency and the climate.

Sudipta Chatterjee
Kuo-Wei Huang

Turning e-waste into opportunity

Addressing the electronic-waste crisis requires global cooperation to enhance recycling, innovate in sustainable materials management and embrace eco-design. By viewing electronic waste as valuable ‘urban mines’, we can unlock a circular economy and ensure the sustainable recovery of strategic metals, fostering a greener, more sustainable future.

Alessia Amato
Francesca Beolchini

Transforming edge hardware with in situ learning features

Memristor devices have shown notable superiority in the realm of neuromorphic computing chips, particularly in artificial intelligence (AI) inference tasks. Researchers are now grappling with the intricacies of incorporating in situ learning capabilities into memristor-based chips, paving the way for more powerful edge intelligence.

Huaqiang Wu

A new path for organic electrochemical transistors

An article in Nature Electronics presents how to use electron-beam lithography to obtain p- and n-type vertical organic electrochemical transistor matrix arrays and complementary logic circuits.

A roadmap for the development of human body digital twins

The rapid development of on-body sensors and multimodal artificial intelligence is accelerating the emergence of the human body digital twin (DT) as an interdisciplinary research topic. This Perspective outlines a roadmap for applications of human body DTs in health monitoring, disease prevention and treatment.

Chenyu Tang
Luigi G. Occhipinti

Cubic marine robotics

Modular robotics offers design flexibility that could enable the scale-up of robotic systems for marine applications. We have developed simple repeating cubic modular components that can be assembled and reconfigured to create different types of underwater robots for marine applications, enabling them to navigate and perform tasks underwater with ease and efficiency.

Xiangning He

The road to net-zero emissions in IC manufacturing

To reduce environmental impact, imec has presented a bottom-up lifecycle assessment of logic technology nodes and prepared first recommendations to lower carbon emissions. Here we talk to Lars-Åke Ragnarsson, program director of Sustainable Semiconductor Technologies and Systems at imec, about their approach to help the semiconductor industry reduce the environmental effects of integrated circuit manufacturing.

Olga Bubnova

Energy-efficient wireless communications

An article in IEEE Journal on Selected Areas in Communication s presents an approach that leverages cell-free massive MIMO technology for optimal network performance with minimal energy consumption.

Quick links

Explore articles by subject
Guide to authors
Editorial policies

IEEE Account

Change Username/Password
Update Address

Purchase Details

Payment Options
Order History
View Purchased Documents

Profile Information

Communications Preferences
Profession and Education
Technical Interests
US & Canada: +1 800 678 4333
Worldwide: +1 732 981 0060
Contact & Support
About IEEE Xplore
Accessibility
Terms of Use
Nondiscrimination Policy
Privacy & Opting Out of Cookies

A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity. © Copyright 2024 IEEE - All rights reserved. Use of this web site signifies your agreement to the terms and conditions.

Articles on Electrical engineering

Displaying all articles.

Remembering South Africa’s “Grand Geek” Barry Dwolatzky - engineer and programming pioneer

Estelle Trengove , University of the Witwatersrand

Home power backup systems – electrical engineers answer your questions

MJ (Thinus) Booysen , Stellenbosch University and Arnold Rix , Stellenbosch University

Device transmits radio waves with almost no power – without violating the laws of physics

Joshua R. Smith , University of Washington and Zerina Kapetanovic , Stanford University

A large solar storm could knock out the power grid and the internet – an electrical engineer explains how

David Wallace , Mississippi State University

The first mobile phone call was 75 years ago – what it takes for technologies to go from breakthrough to big time

Daniel Bliss , Arizona State University

Why do smoke alarms keep going off even when there’s no smoke?

MVS Chandrashekhar , University of South Carolina

Why do different countries have different electric outlet plugs?

Theodore J. Kury , University of Florida

How sensors monitor and measure our bodies and the world around us

Nicole McFarlane , University of Tennessee

How to train 21st century engineers for tech discoveries

Paulo Garcia , Carleton University

Crisis, what crisis? How smart solar can protect our vulnerable power grids

Lawrence McIntosh , University of Technology Sydney and Dani Alexander , University of Technology Sydney

Static electricity’s tiny sparks

Sebastian Deffner , University of Maryland, Baltimore County

Bioengineers go retro to build a calculator from living cells

Akshat Rathi, The Conversation

Top contributors

Professor of Electrical and Computer Engineering,, University of Utah

Professor of Electrical Engineering and Computer Science, Massachusetts Institute of Technology (MIT)

CEO, UNSW Energy Institute, UNSW Sydney

Associate professor in electrical engineering, University of the Witwatersrand

Assistant Professor of Physics, University of Maryland, Baltimore County

Senior Research Consultant, Institute for Sustainable Futures, University of Technology Sydney

Professor in Engineering, Chair in the Internet of Things, Stellenbosch University

Director of Energy Studies, University of Florida

Assistant Professor, Systems and Computer Engineering, Carleton University

Associate Professor of Electrical Engineering, University of Tennessee

Professor of Electrical Engineering, Arizona State University

Assistant professor of electrical engineering, University of South Carolina

Senior Lecturer, Electronic and Electrical Engineering, Stellenbosch University

Assistant Clinical Professor of Electrical Engineering, Mississippi State University

Professor of Electrical and Computer Engineering and of Computer Science and Engineering, University of Washington

X (Twitter)
Unfollow topic Follow topic

Electrical Engineering

Archiv für Elektrotechnik

Offers original research articles and insightful reviews.
Focusses on areas including smart systems, systems planning, and energy distribution.
Welcomes manuscripts describing theoretical, computer application and experimental research results.

Latest issue

Volume 106, Issue 2

Latest articles

A new clustering-based semi-supervised method to restrict the users from anomalous electricity consumption: supporting urbanization.

Zeeshan Aslam
Nadeem Javaid
Nabil Alrajeh

Real-time harmonic state estimation of power systems using optimal placement of measurement devices through RT-LAB implementation

Juan Tapia-Tinoco
Aurelio Medina
Rafael Cisneros-Magaña

Advances in energy harnessing techniques for smart highways: a review

Mohammad Hamzah Warsi
T. Nandha Kumar

Deep optimal feature extraction and selection-based motor fault diagnosis using vibration

Rajvardhan Jigyasu
Vivek Shrivastava
Sachin Singh

Day-ahead optimal scheduling for integrated energy system considering dynamic pipe network delay

Journal updates

Call for papers: special issue on line-start electric motors: opportunities and challenges, call for papers - grid edges, call for papers - special issue on innovative approaches to radiative heat storage and electric vehicle transit: best practices and empirical findings, call for papers - special issue on design and control of hybrid energy system and energy storage for sustainable energy solutions, journal information.

Current Contents/Electronics & Telecommunications Collection
Current Contents/Engineering, Computing and Technology
EI Compendex
Google Scholar
Japanese Science and Technology Agency (JST)
OCLC WorldCat Discovery Service
Science Citation Index Expanded (SCIE)
TD Net Discovery Service
UGC-CARE List (India)

Rights and permissions

Springer policies

Find a journal
Publish with us
Track your research

Frontiers in Materials
Polymeric and Composite Materials
Research Topics

Advanced Technologies for Electrical Engineering

Total Downloads

Total Views and Downloads

About this Research Topic

Energy crisis and environmental pollution are two major themes currently faced by human society. The construction of a strong smart grid with super/ultra-high voltage network as the backbone and clean energy transmission as the leading shows a more important strategic role than ever since. However, the rapid ...

Keywords : Dielectric Polymer Materials, Insulation Materials, Conductive Materials, Magnetic Materials, Energy Storage Materials, Polymer Solar Cells, Superhydrophobic and Slippery Materials

Important Note : All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.

Topic Editors

Topic coordinators, recent articles, submission deadlines.

Submission closed.

Participating Journals

Total views.

Demographics

No records found

total views article views downloads topic views

Top countries

Top referring sites, about frontiers research topics.

With their unique mixes of varied contributions from Original Research to Review Articles, Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author.

Electrical Engineering

Search form.

Future Students
Current Students
Accreditation
Senior Design
Scholarships and Funds
Marketable Skills
Study Abroad
M.S. Program
Ph.D. Program
Research Overview
Research Labs
Research Equipment
Stay Connected
Update Your Info
Order Transcript
Mission and Vision
Department History
Board of Advisors

Electrical Engineering Research

Faculty members and students at the department of Electrical Engineering work together to conduct research across many areas in the field of electrical engineering as well as related fields such as computer science and engineering. These research areas can be divided into three groups.

Communications, Signal Processing and Networking

This group focuses on design and development of advanced communication techniques to provide efficient and robust information transmission over wired and wireless networks.

This group has an extensive collaborative research program with the Computer Science and Engineering Department. Working in concert with academia and industry partners, the group is dedicated to research on:

information and communication theory
source and channel coding
wireless communication and networking

Both undergraduate and graduate levels courses are offered by the faculty members in this group.

The Applied Electromagnetics Laboratory focuses on the domain of applied electromagnetics with applications ranging from developing biomedical devices to designing antennas for various wireless systems. Research topics include:

Microwave ablation and monitoring
Self-interference cancellation techniques for in-band full-duplex communications
Adaptive phased-array antennas for beam-steering applications
Reconfigurable multi-beam antennas for millimeter-wave communications

The Applied Optics Lab aims at:

Optical system (imaging and non-imaging) design and modeling, tolerance analysis, and system optimization to improve design for manufacturability.
Design and fabrication of electro-optic polymer integrated circuits for chemical/biological sensors and optical current sensors (OCS) for smart grid electric distribution system.

The Communications and Signal Processing Laboratory (CSPL) focuses on design and development of advanced communication techniques to provide efficient and robust information transmission over wired and wireless networks. Working in concert with academia and industry partners, CSPL is dedicated to research in coding and information theory; aerial communication and networks; drone system design and applications, especially in emergency response; and wireless sensor networks.

The Embedded Sensing & Processing Systems (ESPS) Laboratory focuses on research in the areas of statistical signal processing, machine learning, real-time embedded systems, and wireless sensor networks with applications in wireless localization and tracking, environmental monitoring, cyber-physical systems, Internet of Things, and artificial intelligence. The overarching goal of our research is to solve real-life system-level challenges through theoretical research in signal processing and machine learning, networking protocol design and analysis, and practical system developments with hardware and software implementations.

The Information Theory and Applications Laboratory focuses on the application of information theory to communications, networking, privacy, security and storage. Current research interests include private information retrieval, index coding, optimality of treating interference as noise, topological interference management, and interference alignment.

The Optimization, Signal Processing, and Control Algorithm Research Lab (O.S.C.A.R.) focuses on fundamental algorithm development at the forefront of machine learning seeking efficient and accurate solutions based in traditional optimization, signal processing and control theory techniques. Current research topics include:

Classification and Identification
Image Compression
Image Super Resolution
PCA Applications
STEM Outreach

Systems and Control

This group investigates state of the art research problems in robotics, power systems, and cooperative decentralized systems.

Faculty and students work on autonomous systems including wireless sensor networks, robotic systems, airborne networks, and networks of unattended air vehicles.

Research applications include disaster recovery, search-and-rescue operations conducted by teams of people, surveillance of ground-based targets by fleets of unmanned aerial vehicles and exploration of planetary surfaces by swarms of robots.

The Autonomous Systems Laboratory focuses on information assurance, decision making and video communications aspects in autonomous systems, such as unmanned aerial vehicles (UAVs). This laboratory consists of infrastructure and simulation tools necessary to develop protocols for autonomous systems and to analyze their performance. The laboratory has several UAVs that are being used to develop and test decentralized decision-making and task-scheduling algorithms. The laboratory's infrastructure includes computing and networking equipment suitable for simulating civilian and military applications.

The Control Systems Laboratory focuses on the advancement of control theory and technology with applications to intelligent and autonomous systems. Current research topics include control systems with time delay, unmanned aerial vehicles, deep reinforcement learning based control, and active magnetic bearings.

The Environmental and Ecological Engineering Laboratory integrates environmental modeling, real-time monitoring, and renewable power systems for applications to sustainability. Research topics include food-energy-water nexus, sustainable brackish water desalination systems, land-use change, landscape dynamics, and forest ecology, coupled human-natural systems, watershed and reservoir management, wireless sensor networks and environmental observatories, and global climate change.

The Power Electronics and Renewable Energy (PERE) Laboratory focuses on developing effective power electronics technologies to improve the generation, conversion, and control of electrical energy in smart cities and sustainable energy applications. Research topics include wide-bandgap semiconductor applications, renewable energy conversion technologies, smart grids, distributed energy systems, and electric vehicle grid integration.

RF and Circuit Design

Faculty and students of this group are working on a wide variety of fundamental and applied problems in circuits and systems as well as their applications in communications, networking, geolocation, and vision processing.

This group offers many courses in RF/microwave/millimeter-wave circuit and antenna design at both undergraduate and graduate levels.

Designed circuit components will be implemented either on the board-level or on the chip-level.

The Analog/Mixed-Signal Design and Simulation Lab focuses on design and simulation of analog/mixed-signal AMS) integrated circuits (ICs) for multimedia and IoT security applications. Research topics include:

Surrogate modeling (metamodeling) of complex IC functional design units
Hardware/software co-design of secure multimedia digital systems
High-level behavioral simulation of AMS ICs
Hardware design of Physically Unclonable Functions (PUFs)
Embedded system design for the IoT
Emerging Technology and VLSI Research Lab Faculty: Edgard Munoz-Coreas

The Nanoscale Materials and Devices Lab (NMDL) focuses on emerging devices from low-dimensionality solid-state materials. Research topics include but are not limited to:

Low-power nanoelectronic devices and circuits
Photodetectors and optoelectronic devices
Flexible and printed electronics
Physical sensors and sensor arrays
Synthesis of semiconducting selenides and sulphides
Nanofabrication

The Reconfigurable Computing Laboratory provides infrastructure for electronic design automation, including several workstations with the latest Electronic Design Automation (EDA) software, enabling design and simulation of a range of electronic chip designs. Students have access to EDA software including Cadence, Synopsys, and Xilinx design tool suites. The laboratory supports high quality research activities related to digital design, reconfigurable computing, FPGAs, ASICs, VLSI design, electronic design automation, SoC design, portable computing, and wearable computing.

Communications and Signal Processing Laboratory
Embedded Sensing & Processing Systems Laboratory
Information Theory and Applications Laboratory
Autonomous Systems Laboratory
Cyber-Physical Energy Systems Laboratory
Networked Intelligent Control Systems Laboratory
Computer Aided Design (CAD) Laboratory
Integrated Biomedical Circuits and Systems Laboratory (iBioCASL)

Research Home

Laboratories, research faculty, research for students, facilities and equipment use.

UNT's Electrical Engineering labs offer a wide variety of research opportunities and experiences for all of our students.

Institutional labs can be used by any student, with or without faculty supervision, for any projects. As the name suggests, these often double as classrooms.

Research labs are under the direct supervision of a faculty member and usually dedicated to a single research area. They often contain specialized equipment appropriate for study of the research area.

Finding your Research Niche

Both graduate and undergraduate students can work with the three faculty research groups mentioned at the beginning of this page.

Faculty research areas give students the chance to work closely with professors and other students in a variety of projects centered around important engineering subjects.

If you're interested in participating in research in the Electrical Engineering department, it's as easy as knocking on a faculty member's door and asking what opportunities are available.

Research Topics in Electrical Engineering

Electrical engineering is the branch of engineering which handles the designing, maintenance, and control of power electronic & power system devices . As well as they apply the electricity/power in that devices. Electrical engineering is often called EEE. They consider the effective power supplies of electrical devices and perform testing tasks to ensure electrical protection .

“This article is dedicated to the enthusiasts who are dynamically surfing for the research topics in electrical engineering”

By using the power electronics techniques electrical engineering offers consistent power systems. This is also aimed at optics, electrical mechanisms, and physics so on. This article is completely focused on giving the exact details on the research topics in electrical engineering to the students. At the end of this article, you would find the indispensable specifics and you will enjoy this article to be sure.

This article is going to beat your expectations as this is treasured with interesting facts. In addition, we wanted to begin this article with our familiar skillsets for your valuable considerations . Our technical team is framed with world-class engineers who can handle the entire aspects of technology. Now let’s begin this article with our experts’ skills in EEE.

Top 10 Interesting Research Topics in Electrical Engineering

Our Experts Skills in EEE

Perform Various Electronic Devices Preservation & Handling
Processed with Multiple Data Acquisition & Investigation
Worked in various Electrical Schematics Environments
Understanding of Linear Algebra Theories & Analytics
Able to design new and customize Electrical Circuit Design/Models

The above mentioned are some of the skillsets of our technical team. Apart from this, our technical crew is well versed in the other areas of electrical engineering technology too. To be honest, we are providing every practical explanation with graphical illustrations which results in the students’ great compassion. We are being trusted by students from all over the world. Envisaging the innovations and applying them to the technologies are our major objectives and we are successfully yielding the same in every approach to research topics in electrical engineering .

In the following passage, we can move on to the core aspects of the article’s theme. Guys don’t squeeze your heads about the next section. We are mounting to the significant electrical components of electrical engineering with their short descriptions for the ease of your understanding. Are you ready to know about that? Come let’s have the next section!!!

Important Electrical Components

Deals with unenclosed electrodes
It ties with the power loads between 2 nodes
It is used to isolate the circuits in the form of high / medium voltages
It resets the fuse when power over supplied in the switches
It is a component in which humidity is measured
It is a thermal electrical component
It is an electromagneticelectrical component
Functions with the electro-mechanisms
Rotation rate determines the centrifugal sensing forces
Sensing angles / tilts of the switch devices
Motion limits sensing switch mechanisms
Snap action sensingswitch mechanisms
Switches operated by foots/ends
Configuration setting internal array of switches
Range of push button / key buttons
Passes and outbreaks the current flows
It uses the light dependent resistors
Humidity is evaluated by hygrometer
It uses the gauss meters & magnetometer
Thermal cutoff is the switch which is dealing (opened/closed) with the temperatures
Bolometers measures the radiations of power exploitations
Thermistor is the resistor which works according to the NTC/PTC ups & downs
Thermopile / Thermocouple creates a relational voltage to the delta humidity
Resistance temperature detector deal with the wire temperature variations
Accelerometers identifies the electrical gravity & acceleration
Strain gauge identifies the winding, enlarging & enfolding aspects
Gas / Liquid flow is identified by the flow meters
Electrical vibrations are sensed by motion sensors
Gravity based directions are recognized by inclinometers
Linear situations are detected by linear variable differential transformer
Rate of rotation & proportional angles are recognized by rotary encoders
Piezoelectric sound tones are created by audio buzzers
Complete audio of the electronic devices are produced by loudspeakers

The above listed are the various components that are involved in electrical engineering in real-time . Consequently, we listed all the essential electrical components to the lay-mans or the beginners in these fields. We hope that it will abundantly help them. In a matter of fact, our articles are being published in the top IEEE journals respective to electrical engineering project topics . Now you can give a weightage to our contents. This is possible by inputting the unique power electronics project ideas & concepts in it starting with research topics in electrical engineering .

As this article is refined through various levels of internal checks we thought that giving the current elements of the EEE here would be nice. Yes, my dear readers, our technical crew is also listed the current elements of the EEE for the ease of your understanding . Come let’s try to understand them.

What are the Current Elements in EEE?

These elements measures the electric signals with high speed
Probe loading is used to measure the circuit diagrams with higher frequency
Probe input capability results in high frequency
It is used to measure the immobile probes which cannot reaches the circuit
Instances of CP are huge buss bars, unusual shapes & closed break controls
It allows to read power ingestion of the electrical devices like oscilloscopes & DMMs
Radio waves are receiving and responding to the frequencies in a given range
Transmits the radio signals & determines the frequency fluctuation rates
The power flow is floated in the surface of the circuits & never goes in-depth
It produces the various kinds of electric waves & acts as a testing tool
Triangular, sine & square are the sorts of waveforms
These shapes are exposed while diagnosing the electrical processes
It is used to test the electrical circuits voltage
At the end it is tied with dual twisted cables & neon bulbs
It identifies the flow of the power supply in every cables/wires
Effective voltage tester is compatible with the 500 volts (V)
Laboratories voltages are measured by the DVMs
It represents the voltages in the forms of LCD/LED

The foregoing passage has conveyed to you the various essential elements of the EEE . Handling these elements needs some practice. You can handle these elements with our experts’ guidance in the determined areas. In fact, we are having 100+ energetic developers in our concern & they can help you throughout your researchers and projects of every technology.

Techniques used for Electrical Engineering

Gradient-based Techniques
Conjugate Gradient Techniques
Sequential Quadratic Programming Techniques
Intellectual Optimization Techniques
PSO, Ant Colony, Immune & EDA Techniques
DEA & GA Evolutionary Techniques
Multi-Objective Optimization Techniques
Sequential Minimal Optimization Techniques
Convex Optimization Techniques
Co-ordinate Descent Techniques
Stochastic Optimization Techniques
Gibbs Sampling & Swarm Techniques
Tabu & Genetic / Annealing Techniques
Metropolis-Hastings Techniques
Dropout & Back-propagation Techniques
Eigenvalue Decomposition Techniques

The itemized above are the latest techniques used for EEE researches and projects in general. For your information, these techniques will be applied in the EEE concepts which need effective & incredible results. If you do want any assistance in these areas you could reach our technical team experts to sort out your uncertainties .

In this regard, our researchers of the concern are wanted to highlight the major research areas in EEE for ease of your understanding. We are habitually conducting researches in the areas of EEE hence we wished to transfer our knowledge in these areas too. Are you interested to know about them? Come on guys lets we move on to the next section.

Major Research Areas in EEE

AI & Signal Processing
High Voltage Engineering
P ower Electronics
Power Systems

The aforementioned are the 4 major areas involved in electrical & electronic engineering . So far we have learned the EEE concepts ranging from basic to advance . Certainly, we hope that you would have understood the things explained as of now.

As this article is titled with the research topics in electrical engineering we are going to envelop the next section with the latest research topics in EEE with their descriptions. Are you getting interested to know about that too? Let’s try to understand the same with clear points.

Latest Research Topics in EEE

Remnant/fossil & petroleum fuels are stimulating the RES
In addition, power supply from these are inadequate inherent
Copper & core damages diminishes the electrical devices efficiency
Power supply variations determines the copper losses
Core losses are determined according to the persistent power supplies
Less hysteresis materials can be used to minimize the core losses
These are capable of acquiring massive electrical data than meter readers
It is used to predict & analyze the power consumption by several techniques
Pre-programing of power load supply & demand helps to avoid the grid failures
UHVDC is also known as high voltage DC
It is widely used to reduce the power losses during transmitted in far distances
It attains the transmission proficiency 99 out of 100%

These are some of the latest research topics in electrical engineering . These areas need research initiations to overcome the shortcomings arouse in them. For example, switch regulators and circuit breakers are complex to design. Along with these, solar cells of renewable energy resources are needed to be experimented with to enrich their performance.

This is only a sample for your valid references apart from this we are plenteously having the research topics in electrical engineering which is unique in nature.

In addition to these areas, it is also important to have knowledge in the areas of the latest trends in electrical and electronics engineering . The latest trends are tending the futuristic characteristics in it. Yes, guys, we know that you are also storming the trends of the EEE so that we are going to itemize you the same for your superior indulgent. Are you ready to know them? Here we go!!!

Top 10 Research Topics in Electrical Engineering Domain

Latest Trends in EEE

Improved Performance of Power Electronic Devices
Innovative Solar Energy based Power Cells
Integration of Micro / Smart Grids with RES
Positioning of Renewable Energy Systems

The above listed are the latest trends that makes the EEE much more innovative. Here RES stands for Renewable Energy Sources . For instance, solar energy power cells are the effective systems and help to produce the power units with cost effective.

So far we have come up with the areas of research topics in electrical engineering with crystal clear facts. We hope that you are relishing this article as this is conveyed to you all the necessary details. We are delighted with our contributions by transferred our piece of knowledge here. We are hoping for your further explorations in these areas of technology. Let’s make execute your ideas in the form of researches.

Stay educated! Stay experimented! Stay exposed!!!

Graduate Programs
Undergraduate Programs
Schedule a tour

Strategic Research Areas

Research Groups, Centers and Labs
Undergraduate Research Opportunities
Executive Leadership
Administrative Staff
Faculty Awards and Honors
Resources and Groups for ECE Women
ECE Advisory Council
ECE Connections
Giving Opportunities
Ways to Give
Academic Support
Financial Support
Mental Health Resources
Experience and Employment
Undergraduate Services
Graduate Services and Activities

Research in Electrical and Computer Engineering covers an extremely broad range of topics. Whether in computer architecture, energy and power systems or in nanotechnology devices, the research conducted in ECE is at the cutting edge of technological and scientific developments.

Computer Engineering

Computer engineering concerns itself with the understanding and design of hardware needed to carry out computation, as well as the hardware-software interface. It is sometimes said that computer engineering is the nexus that connects electrical engineering and computer science. Research and teaching areas with a significant computer engineering component include digital logic and VLSI design, computer architecture and organization, embedded systems and Internet of things, virtualization and operating systems, code generation and optimization, computer networks and data centers, electronic design automation, or robotics.

Related Research Areas

Artificial Intelligence
Complex Systems, Network Science and Computation
Computer Architecture
Computer Systems
Data Mining
Energy and the Environment
Rapid Prototyping

Robotics and Autonomy

Scientific Computing
Sensors and Actuators
Signal and Image Processing
Statistics and Machine Learning

Robotics at Cornell spans various subareas, including perception, control, learning, planning, and human-robot interaction. We work with a variety of robots such as aerial robots, home and office assistant robots, autonomous cars, humanoids, evolutionary robots, legged robots, snake robots and more. The Collective Embodied Intelligence Lab works to design and coordination of large robot collectives able to achieve complex behaviors beyond the reach of single robot systems, and corresponding studies on how social insects do so in nature. Major research topics include swarm intelligence, embodied intelligence, autonomous construction, bio-cyber physical systems, human-swarm interaction, and soft robots.

Visit the the Cornell Engineering Robotics Website for more.

Integrated Circuits
Power Electronics
Robotics and Autonomy
Systems and Networking

Information, Networks, and Decision Systems

This research area focuses on the advancement of research and education in the information, learning, network, and decision sciences. Our research is at the frontier of a wide range of fields and applications, including machine learning and signal processing, optimization and control theory, information theory and coding, power systems and electricity markets, network science, and game theory. The work encompasses theory and practice, with the overarching objective of developing the mathematical underpinnings and tools needed to address some of the most pressing challenges facing society today in energy and climate change, transportation, social networks, and human health. In particular, the Foundations of Information, Networks, and Decision Systems (FIND) group comprises a vibrant community of faculty, postdocs, and students dedicated to developing the mathematical underpinnings and tools needed to address the aforementioned challenges in a principled and theory-guided manner.

Biotechnology
Computational Science and Engineering
Energy Systems
Image Analysis
Information Theory and Communications
Optimization
Remote Sensing

Physical Electronics, Devices, and Plasma Science

Work in this area applies the physics of electromagnetism, quantum mechanics, and the solid state to implement devices and systems for applications including energy, quantum technologies, sensing, communication, and computation. Our efforts span theory and development of new electronic and optical devices and materials, micro-electromechanical systems, acoustic and optical sensing and imaging, quantum control of individual atoms near absolute zero temperature, and experiments on high-energy plasmas at temperatures close to those at the center of the sun. At Cornell ECE, we work on diverse topics aimed at transforming the way we view the world. Our interdisciplinary research reveals fundamental similarities across problems and prompts new research into some of the most exciting and cutting-edge developments in the field.

Advanced Materials Processing
Astrophysics, Fusion and Plasma Physics
High Energy Density, Plasma Physics and Electromagnetics
Materials Synthesis and Processing
Microfluidics and Microsystems
Nanotechnology
Photonics and Optoelectronics
Semiconductor Physics and Devices
Solid State, Electronics, Optoelectronics and MEMs

Circuits and Electronic Systems

Integrated circuits are ubiquitous and integral to everyday devices, from cellular phones and home appliances to automobiles and satellites. Healthcare, communications, consumer electronics, high-performance scientific computing, and many other fields are creating tremendous new opportunities for innovation in circuits and electronic systems at every level. Research in this area spans topics including analog and mixed signal circuits, RF transceivers, low power interfaces, power electronics and wireless power transfer, and many others.

Micro Nano Systems
Optical Physics and Quantum Information Science

Bio-Electrical Engineering

Biological and Biomedical Electrical Engineering (B2E2) consists of both applied and fundamental work to understand the complexity of biological systems at different scales, e.g., from a single neuronal or cancer cell, all the way to the brain or malignant tumor. B2E2 aims to develop new hardware and computational tools to identify, characterize, and treat diseases. In the physical domain, electrical engineering approaches to integrated microsystems lead to new biological and medical sensors. These sensors consist of state-of-the-art ultrasonic, RF, optical, MRI, CT, electrical impedance transducers.

The integration of sensors, electronics are used to develop implantable and wearable devices, with decreasing size, weight, and power and increased functionality. B2E2 microsystems can help create interfaces for sensing and actuation to help understand the physiological and pathological mechanisms of diseases, and enable advanced robotic interfaces in medicine. Medical devices can generate vast amounts of data, which require both real-time and post-acquisition processing. B2E2 faculty, sometimes in collaboration with medical researchers, develop advanced computational tools to learn from and exploit data and apply artificial intelligence approaches to impact medical practice by improving: early disease detection, disease diagnosis, response to therapy assessment, and guided surgical procedures.

Biomedical Imaging and Instrumentation
Complex Systems, Network Science and Technology
Computer-Aided Diagnosis
Nanobio Applications
Neuroscience

Hardware That Protects Against Software Attacks

ECE's Ed Suh and Zhiru Zhang and CS's Andrew C. Myers aim to develop both hardware architecture and design tools to provide comprehensive and provable security assurance for future computing systems against software-level attacks that exploit seven common vulnerability classes.

Image credit Beatrice Jin

Re-architecting Next-Gen Computing Systems

Disaggregated architectures have the potential to increase resource capacity by 10 to 100 times server-centric architectures.

Re-imagining Computer System Memories

Interdisciplinary team will provide new insights and an entirely new paradigm for the semiconductor industry in the emerging era of big data.

Engineers to hack 50-year-old computing problem with new center

Cornell engineers are part of a national effort to reinvent computing by developing new solutions to the “von Neumann bottleneck,” a feature-turned-problem that is almost as old as the modern computer itself.

Professors Dave Hammer and Bruce Kusse looking at the COBRA machine

The Laboratory of Plasma Studies: Uncovering mysteries of high energy density plasma physics

In the basement of Grumman Hall, an x-ray pulse produced by a hot, dense plasma – an ionized gas – lasting only fractions of a microsecond both begins and ends an experiment. Hidden within that fraction of time lies a piece of a puzzle—data that graduate students and staff scientists at the Laboratory of Plasma Studies (LPS) will use to better understand the mysterious physics behind inertial confinement fusion.

Sophia Rocco working on the COBRA machine

Sophia Rocco: Hoping to make the world a better place through a potential renewable energy source

When she was looking at graduate schools, physics major Sophia Rocco thought she would be in a materials science program bridging her interests in electricity and magnetism and novel materials for solar cells. Chancing upon the School of Electrical and Computer Engineering at Cornell, she discovered the Laboratory of Plasma Studies (LPS).

The Laboratory of Plasma Studies with the COBRA machine in the foreground and students in the background

Finding the Ultimate Energy Source: Cornell’s Lab of Plasma Studies

Plasma is one of the four fundamental states of matter, but it does not exist freely on the Earth’s surface. It must be artificially generated by heating or subjecting a neutral gas to a strong electromagnetic field. Located in the basement of Grumman Hall are two large pulse-power generators that create plasma by delivering extremely high currents to ordinary matter for short periods. These generators are part of the Lab of Plasma Studies at Cornell University.

Photo credit: Dave Burbank

A schematic, left, of a gallium oxide vertical power field-effect transistor, and a scanning electron microscope image, right, of the transistor, showing a 330-nanometer-wide by 795-nanometer-long channel.

Vertical gallium oxide transistor high in power, efficiency

The research group led by Grace Xing and Debdeep Jena presented research on a new gallium oxide field-effect transistor at a conference at the Massachusetts Institute of Technology May 29-June 1.

Molnar, Jena and Xing join national consortium to develop future cellular infrastructure

Three Cornell faculty will be part of the newly established $27.5 million ComSenTer, a center for converged terahertz communications and sensing.

Faculty members associated with Cornell NeuroNex

Data on the Brain

The NSF has found a willing partner at Cornell University in this quest to create technologies that will allow researchers to image the brain and the nervous system.

Research in ECE

People Powering Innovation

Applied Electromagnetics and RF Circuits

Applied Electromagnetics & RF Circuits

Applied electromagnetics plays an essential role in areas such as wireless technologies, the environment, life sciences, transportation, and more.

Learn more >

Computer Vision

Our faculty are exploring a number of critical problems in the area of computer vision, with a focus on the analysis and modeling of visual scenes from static images as well as video sequences.

Control Systems

Applications for control include such areas as cyber-physical systems, biological systems, networks, production lines, and biped locomotion.

Embedded Systems

The market is booming for embedded systems such as computers in vehicles, wireless sensors, medical devices, wearable fitness devices, and smartphones.

ECE Education Research

Scholars focus on and apply research methods from education, learning sciences, and social-behavioral sciences to advance the success of engineering.

Integrated Circuits & VLSI

Specialties include analog circuits, data converters, digital circuits, energy harvesting, hardware DSP implementation, low power circuits, RF circuits, and sensing systems.

MEMS & Microsystems

This research area encompasses projects on a variety of micromachined sensors and actuators and on integrated microsystems that combine these components.

Network, Communication, and Information Systems

Communications research at U-M is investigating the fundamental limits of performance possible in communication systems and communication networks and the practical methods of achieving close to the fundamental limits.

Optics & Photonics

The Optics and Photonics laboratories conduct research in the general areas of photonics, quantum optoelectronics, and ultrafast optical science.

Plasma Science and Engineering

Investigating fundamental transport and reaction chemistry of partially ionized gases and their application to technologies ranging from lighting sources, lasers, and sensors to materials processing, biotechnology, microelectronics fabrication, and space sciences.

Power & Energy

Energy is one of the most crucial aspects to our world today. From climate change to environmental justice to security and health, power and energy plays a major role in shaping the future.

Quantum Science & Technology

Quantum science and devices is a research area that is developing new concepts and hardware for information processing and communications using theoretical computer science, atomic physics and optics.

Robotics & Autonomous Systems

We work to improve the information gathering, computing, and decision making platforms to mobilize fully autonomous robots and systems.

Signal & Image Processing and Machine Learning

Our research is developing new models, methods, and technologies that will continue to impact diagnostic and therapeutic medicine, radar imaging, sensor networking, image compression, communications, and other areas.

Solid-State Devices & Nanotechnology

Research projects in the Solid-State area cover a wide variety of topics from integrated photonics and optoelectronics to semiconductor materials to high-frequency devices and integrated circuits to nanoscience and the development of nanotechnogies.

Quick Links
Campus Directory
Events Calendar
Human Resources
Student Services
Auraria Library
Emergency Management & Campus Safety
University Policies
Public Health Resources

Schools & Colleges

College of Architecture and Planning
College of Arts & Media
Business School
School of Education & Human Development

College of Engineering, Design and Computing

College of Liberal Arts and Sciences
School of Public Affairs

Campus Affiliates

CU Anschutz Medical Campus
CU Colorado Springs

Electrical engineering research

Faculty research covers many areas within the field of electrical engineering, which provides our students with numerous learning and research opportunities. Current research within the Department of Electrical Engineering includes the following areas.

Contact faculty directly for more information.

Communications and Signal Processing

The study of wireless and wireline communication systems is the main focus of Communications and Signal Processing group. We borrow tools from information and coding theory to describe the behavior of large-scale communication networks. We are also interested in emerging applications of information engineering such as smart grids, social networks, peer-to-peer systems, searching and classifying large data sets, chip-to-chip and on-chip communications, data storage, minimizing the carbon footprint of our information infrastructure, and deciphering the neural code.

Learn more about our research .

Alireza Vahid, Assistant Professor [email protected] Website

Computer Engineering and Embedded System Design

Current research in computer engineering and embedded systems covers a wide range of areas. Edge computing is the frontier of computing applications at the edge of connectivity to centralized and cloud systems. Edge computing enables a range of sensor technologies to communicate data that can then render advanced analytics. Computer vision and deep learning applied to convolutional neural networks (CNNs/DNNs) offers an enormous boost to the the field of computer vision. Deep learning enables AI for everyone and AI for everyone. Projects include face recognition and indexing, body activity inference, and object detection.

Dan Connors, Associate Professor [email protected]

Chao Liu, Assistant Professor [email protected]

Bereket Hambebo, Post-Doctoral Student [email protected]

Controls and Signal Processing

Miloje Radenkovic, Professor [email protected]

Energy and Power Systems

The energy and power systems area offers classes and performs research in all major areas of energy and power systems, including power systems analysis, power electronics, machines and drive systems and renewable energy systems.

Fernando Mancilla-David, Professor [email protected] Website

Jaedo Park, Professor [email protected] Website

Fields, Waves and Optics

Electrical engineering research in fields and waves covers a wide range of funded research and applications in the areas of electromagnetics, plasma physics and computational methods.

Learn more about our research.

Stephen Gedney, Professor and Chair Computational Electromagnetics Group [email protected]

Mark Golkowski, Professor Electromagnetics and Plasma Physics Group [email protected] Website

Vijay Harid, Assistant Professor Computational Physics and Electrodynamics Group [email protected]

Tim Lei, Associate Professor Laboratory for Electronic and Neuromorphic Systems [email protected]

Microelectronics and VSLI

Research in microelectronics and VLSI focuses on solid-state devices and physics of semiconductor materials, including semiconductor device modeling and simulation, device fabrication, measurement and characterization.

Hamid Fardi, Professor [email protected] Website

North Classroom

1200 Larimer Street

Denver, CO 80204

303-315-7170

Scholarships
Lynx Central
Flexible Active Teaching & Learning
Research and Creative Activities Resources
Brand Templates
CEDC IT Services Faculty/Staff Resources

150+ Best Engineering Research Topics for Students To Consider

Table of Contents

Engineering is a wide field of study that is divided into various branches such as Civil, Electrical, Mechanical, Electronics, Chemical, etc. Basically, each branch has thousands of engineering research topics to focus on. Hence, when you are asked to prepare an engineering research paper or dissertation for your final year assignments, you might experience difficulties with identifying a perfect topic. But hereafter, you need not worry about topic selection because to make the topic selection process easier for you, here we have suggested some tips for choosing a good engineering research topic. Additionally, we have also shared a list of the best 150+ engineering research paper topics on various specializations. Continue reading this blog to get exclusive ideas for engineering research paper writing.

Engineering Research Paper Topic Selection Tips

When it comes to research in the field of engineering, identifying the best engineering research topic is the first step. So, during that process, in order to identify the right topic, consider the following tips.

Choose a topic from the research area matching your interest.
Give preference to a topic that has a large scope to conduct research activities.
Pick a topic that has several reference materials and evidence supporting your analysis.
Avoid choosing an already or frequently discussed topic. If the topic is popular, discuss it from a different perspective.
Never choose a larger topic that is tough to complete before the deadline.
Finalize the topic only if it satisfies your academic requirements.

List of the Best Engineering Research Topics

Are you searching for the top engineering project ideas? Would you have to complete your academic paper on the best engineering research topic? If yes, then take a look below. Here, we have suggested a few interesting engineering topics in various disciplines that you can consider for your research or dissertation.

Mechanical Engineering Research Topics

How does the study of robotics benefit from a mechanical engineering background?
How can a new composite substitute reduce costs in large heat exchangers?
Which will become the predominant energy technology this century?
Why structural analysis is considered the foundation of mechanical engineering?
Why is cast iron used in the engines of large ships?
What is the finite element approach and why is it essential?
Why is the flow of fluids important in mechanical engineering?
What impact does mechanical engineering have in the medical field?
How do sports incorporate mechanical engineering theories?
What is the process of thermal heat transfer in machines?
How can solar panels reduce energy costs in developing countries?
In what ways is mechanical engineering at the forefront of the field?
How do various elements interact differently with energy?
How can companies improve manufacturing through new mechanical theories?

Additional Research Paper Topics on Mechanical Engineering

Power generation: Extremely low emission technology.
Rail and wheel wear during the presence of third-body materials.
Studying the impact of athletic shoe properties on running performance and injuries
Evaluating teeth decay using patient-specific tools
Nanotechnology.
Describe the newly developed methods and applications in Vibration Systems
Perspective or general Commentaries on the methods and protocols relevant to the research relating to Vibration Systems
Software-related technology for Visibility of end-to-end operations for employee and management efficiencies
What should be the best strategies to apply in the planning for consumer demand and responsiveness using data analytics
Analysis of the monitoring of manufacturing processes using IOT/AI
Critical analysis of the advancing digital manufacturing with artificial intelligence (AI) and machine learning (ML) Data Analytics
Pyrolysis and Oxidation for Production and Consumption of Strongly Oxygenated Hydrocarbons as Chemical Energy Carriers: Explain
Explore the most effective strategies for fatigue-fracture and failure prevention of automotive engines and the importance of such prevention
Explore the turbomachinery performance and stability enhancement by means of end-wall flow modification
Production optimization, engine performance, and tribological characteristics of biofuels and their blends in internal combustion engines as alternative fuels: Explain

Civil Engineering Research Topics

The use of sustainable materials for construction: design and delivery methods.
State-of-the-art practice for recycling in the construction industry.
In-depth research on the wastewater treatment process
Building Information Modelling in the construction industry
Research to study the impact of sustainability concepts on organizational growth and development.
The use of warm-mix asphalt in road construction
Development of sustainable homes making use of renewable energy sources.
The role of environmental assessment tools in sustainable construction
Research to study the properties of concrete to achieve sustainability.
A high-level review of the barriers and drivers for sustainable buildings in developing countries
Sustainable technologies for the building construction industry
Research regarding micromechanics of granular materials.
Research to set up remote sensing applications to assist in the development of sustainable construction techniques.
Key factors and risk factors associated with the construction of high-rise buildings.
Use of a single-phase bridge rectifier
Hydraulic Engineering: A Brief Overview
Application of GIS techniques for planetary and space exploration
Reengineering the manufacturing systems for the future.
Production Planning and Control.
Project Management.
Quality Control and Management.
Reliability and Maintenance Engineering.

Environmental Engineering Research Paper Topics

Design and development of a system for measuring the carbon index of energy-intensive companies.
Improving processes to reduce kWh usage.
How can water conductivity probes help determine water quality and how can water be reused?
A study of compressor operations on a forging site and mapping operations to identify and remove energy waste.
A project to set up ways to measure natural gas flow ultrasonically and identify waste areas.
Developing a compact device to measure energy use for a household.
What are carbon credits and how can organizations generate them?
Production of biogas is from organic coral waste.
Analyzing the impact of the aviation industry on the environment and the potential ways to reduce it.
How can voltage reduction devices help organizations achieve efficiency in electricity usage?
What technologies exist to minimize the waste caused by offshore drilling?
Identify the ways by which efficient control systems using information systems can be introduced to study the energy usage in a machining factory.
The process mapping techniques to identify bottlenecks for the supply chain industry.
Process improvement techniques to identify and remove waste in the automotive industry.
In what ways do green buildings improve the quality of life?
Discussion on the need to develop green cities to ensure environmental sustainability
Process of carbon dioxide sequestration, separation, and utilization
Development of facilities for wastewater treatment

Environmental Engineering Research Topics

Read more topics: Outstanding Environmental Science Topics for You to Consider

Electrical Engineering Research Topics

Research to study transformer losses and reduce energy loss.
How does an ultra-low-power integrated circuit work?
Setting up a control system to monitor the process usage of compressors.
Integration of smart metering pulsed outputs with wireless area networks and access to real-time data.
What are the problems of using semiconductor topology?
Developing effective strategies and methodical systems for paying as-you-go charging for electric vehicles.
A detailed review and investigation into the key issues and challenges facing rechargeable lithium batteries.
Trends and challenges in electric vehicles technologies
Research to investigate, develop and introduce schemes to ensure efficient energy consumption by electrical machines.
What is meant by regenerative braking?
Smart charging of electric vehicles on the motorway
Research to study metering techniques to control and improve efficiency.
Develop a scheme to normalize compressor output to kWh.
Research to introduce smart metering concepts to ensure efficient use of electricity.
What is the most accurate method of forecasting electric loads?
Fundamentals of Nanoelectronics
Use of DC-to-DC converter in DC (Direct Current) power grid
Development of Microgrid Integration

Electronics and Communications Engineering Research Topics

Developing the embedded communication system for the national grid to optimize energy usage.
Improvement of inter-symbol interference in optical communications.
Defining the boundaries of electrical signals for current electronics systems.
The limitation of fiber optic communication systems and the possibility of improving their efficiency.
Gaussian pulse analysis and the improvement of this pulse to reduce errors.
A study of the various forms of errors and the development of an equalization technique to reduce the error rates in data.
Realizing the potential of RFID in the improvement of the supply chain.
Design of high-speed communication circuits that effectively cut down signal noise.
Radiation in integrated circuits and electronic devices.
Spectral sensing research for water monitoring applications and frontier science and technology for chemical, biological, and radiological defense.

Computer and Software Engineering Research Topics

How do businesses benefit from the use of data mining technologies?
What are the risks of implementing radio-controlled home locks?
To what extent should humans interact with computer technologies?
Are financial trading systems operating over the web putting clients at risk?
What challenges do organizations face with supply chain traceability?
Do chatbot technologies negatively impact customer service?
What does the future of computer engineering look like?
What are the major concepts of software engineering?
Are fingerprint-based money machines safe to use?
What are the biggest challenges of using different programming languages?
The role of risk management in information technology systems of organizations.
In what ways does MOOD enhancement help software reliability?
Are fingerprint-based voting systems the way of the future?
How can one use an AES algorithm for the encryption of images?
How can biological techniques be applied to software fault detection?

Read more: Creative Capstone Project Ideas For Students

Industrial Engineering Research Paper Topics

The application of lean or Six Sigma in hospitals and services-related industries.
The use of operation research techniques to reduce cost or improve efficiency.
Advanced manufacturing techniques like additive manufacturing.
Innovation as a Complex Adaptive System.
CAD-based optimization in any manufacturing environment.
Gap analysis in any manufacturing firm.
The impact of 3D printing in the manufacturing sector.
Simulating a real-life manufacturing environment into simulating software
The rise of design and its use in the developing world.
Building a network-based methodology to model supply chain systems.
Risk optimization With P-order comic constraint
Technology and its impact on mass customization
How project management becomes more complex with disparate teams and outsourced functions?
Scheduling problem for health care patients.

Biomedical Engineering Research Ideas

How does the use of medical imaging help patients with higher risks?
How can rehabilitation techniques be used to improve a patient’s quality of life?
In what ways can biomaterials be used to deliver medications more efficiently?
What impact does medical virtual reality have on a patient’s care?
What advancements have been made in the field of neural technology?
How does nanotechnology pave the way for further advancements in this field?
What is computational biology and how does it impact our lives?
How accurate are early diagnosis systems in detecting heart diseases?
What does the future hold for technology-fueled medications?
What are the guiding principles of biomedical engineering research?

Read more: Top Biology Research Topics for Academic Writing

Chemical Engineering Research Topics

How can epoxy resins withstand the force generated by a firing gun?
The use of software affected design aspects in chemical engineering.
What challenges are there for biochemical engineering to support health?
The advancements of plastic technology in the last half-century.
How can chemical technologies be used to diagnose diseases?
What are the most efficient pathways to the development of biofuels?
How can charcoal particles be used to filter water in developing countries?
Increased production of pharmacy drugs in many countries.
How do complex fluids and polymers create more sustainable machinery?

Miscellaneous Engineering Research Ideas

Sensing and controlling the intensity of light in LEDs.
Design and development of a pressure sensor for a solar thermal panel.
Development of microsensors to measure oil flow rate in tanks.
How can organizations achieve success by reducing bottlenecks in the supply chain?
Research to identify efficient logistics operations within a supply chain.
Developing frameworks for sustainable assessments taking into account eco-engineering measures.
Research to identify process improvement plans to support business strategies.
What can engineers do to address the problems with climate change?
The impact of training on knowledge performance index within the supply chain industry.
Research to introduce efficiency within information systems and support the timely transfer of knowledge and information.

Final Words

Out of the 150+ engineering research paper topics and ideas suggested in this blog, choose any topic that is convenient for you to conduct research and write about. In case, you have not yet identified a good topic for your engineering research paper, reach out to us immediately. We have numerous PhD-certified experts in various engineering branches to offer help with research paper topic selection, writing, and editing in accordance with your requirements.

Especially, with the support of our scholarly writers, engineering students of all academic levels can complete their assignments on time and achieve the highest possible grades. Furthermore, taking our engineering assignment help would aid you in submitting high-quality and plagiarism-free research papers with proper citations and supporting evidence.

220 Amazing Religious Research Paper Topics and Ideas

Read and Understand How to Write a Research Proposal

100+ Controversial Research Topics and Ideas to Focus On

About author.

Jacob Smith

I am an Academic Writer and have affection to share my knowledge through posts’. I do not feel tiredness while research and analyzing the things. Sometime, I write down hundred of research topics as per the students requirements. I want to share solution oriented content to the students.

140 Unique Geology Research Topics to Focus On

200+ outstanding world history topics and ideas 2023, 190 excellent ap research topics and ideas, 150+ trending group discussion topics and ideas, 170 funny speech topics to blow the minds of audience, who invented exams learn the history of examination, how to focus on reading 15 effective tips for better concentration, what is a rhetorical analysis essay and how to write it, primary school teacher in australia- eligibility, job role, career options, and salary, 4 steps to build a flawless business letter format, get help instantly.

Raise Your Grades with Assignment Help Pro

Have any questions?
+91-9176966446
[email protected]

PhD Topic Selection
Problem Identification
Research Proposal
Pilot Study
PhD. Dissertation (Full)
Ph.D. Dissertation (Part)
Phd-Consultation
PhD Coursework Abstract Writing Help
Interim-Report
Synopsis Preparation
Power Point
References Collection
Conceptual Framework
Theoretical Framework
Annotated Bibliography
Theorem Development
Gap Identification
Research Design
Sample Size
Power Calculation
Qualitative Methodology
Quantitative Methodology
Primary Data Collection
Secondary Data Collection
Quantitative Statistics
Textual / Content Analysis
Biostatistics
Econometrics
Big Data Analytics
Software Programming
Computer Programming
Translation
Transcription
Plagiarism Correction
Formatting & Referencing
Manuscript Rewriting
Manuscript Copyediting
Manuscript Peer Reviewing
Manuscript Statistics
PhD Manuscript Formatting Referencing
Manuscript Plagiarism Correction
Manuscript Editorial Comment Help
Conference & Seminar Paper
Writing for a journal
Academic Statistics
Journal Manuscript Writing
Research Methodology
PhD Animation Services
Academic Law Writing
Business & Management
Engineering & Technology
Arts & Humanities
Economics & Finance Academic
Biological & Life Science
Medicine & Healthcare
Computer Science & Information
HIRE A RESEARCH ASSISTANT

Research topics in electronics and electrical engineering

Electronics and electrical engineering are the studies of harnessing electricity and the electromagnetic spectrum to enhance the lives of human beings. It is exciting and futuristic to think about significant technological advancements and electronic technology breakthroughs like smart grid systems, electronic vehicles, sustainable power consumption, wireless wearables, robotics, artificial intelligence (AI), AR (Augmented Reality), VR (Virtual Reality), and the Industrial Internet of Things (IIoT). Advanced developments in technology for electronics research and development contribute to the efficient use of energy for our daily needs. PhD Assistance may assist you in selecting the latest topic for study in electronics and electrical engineering.

Here are some of the topic research topics in electronics and electrical engineering.

Electrical engineering topics include the following:

Study on the use of a modified PNN classifier with SMO optimization techniques for diagnosing the severity of skin cancer conditions
A study on battery integrated multiple input DC-DC boost converter
A study on the impact of Evaluation of compact fluorescent lights in a 50 Hz electrical network
A Systematic Evaluation of deep neural network-based dynamic modelling method for AC power electronic systems:
A Review of 2D van der Waals Devices Using Electronic Modulation of Semimetallic Electrode
A Study on frequency stability of hybrid industrial microgrids using optimal fractional sliding mode
Review on Latent Features of Neural Network Design for Power Electronic Systems Using Impedance Modelling
Understanding Effective Power Electronics Using Circuit Simulation
First-principles calculations of phosphorus-doped SnO2 transparent conducting oxide: Structural, electronic, and electrical properties
Adaptive position control of a brush-based DC motor
Implementation of an A-Source DC–DC Boost Combination Phase-Shifting Full-Bridge Converter for Electric Car Rapid Charging Applications
PM machines with high power and high speed.
Series connected super-capacitor and li-ion capacitor cells: active voltage equalisation.
Design choice in the direct drive in-wheel motors.
Reluctance Motors.
Nanoelectronics.
Atomic layer interface engineering.
Using photovoltaics, graphene, and silicon carbide.
Piezoelectrics and ferroelectrics.
Studying behaviour thru computational modelling.
Computation research in new technologies, materials.
Power electronics tools and equipment.
Electrical motors and their redesigning.
Energy networks and their mathematical foundations.
Computer-aided design for electrical engineering.
Smart grid monitoring.
Soft magnetic composites.
Electric vehicle motors and gearbox.
Distributed generation systems: loss detection of grid events via pattern identification.
Challenges of autonomous power systems.
Extra-functionality devices: advanced technology modelling.
Switched reluctance motors.
Electric vehicles and health monitoring of power semiconductor modules.
Cost Functions for Efficient Electrics Vehicle Drive Systems.
Wind Turbine Generators: 3D temperature mapping.
DFIG Machines: improving energy efficiencies.
Power electronics.
Drives and controls.
Power systems and energy storage.
Hybrid electric aerospace.
Renewable energy.
Advanced propulsion science.
Designing compressor motors.
Motor design for aerospace—fault tolerant.
Wind turbine energy technologies.
Diagnosing green growth in India.
HPVPS stages (high power virtual systems).
Top speed motors and their topologies.
Low cost effective trains.
Low-cost virtual systems.

Need Guidance on how the topic selection would be, check our topic selection examples !

Also, to get assistance on thesis topics in dissertation topics in microbiology, dissertation topics in English literature, interior design thesis topics, physiotherapy research topics, llm dissertation topics, sociology dissertation topics, criminal law dissertation topics, political science dissertation topics, dissertation topics in pediatrics, microbiology thesis topics, thesis topics in psychiatry, cardiology thesis topics, dissertation topics in education, dissertation topics for M.SC microbiology, dissertation topics in education, geography dissertation topics, interior design dissertation topics, pharmacology thesis topics, Avail our Ph.D topic selection support service today!

Need help with your Dissertation Service?

Take a look at topic selection service:

Click Here!

Quick Contact

Dissertation.

Our Dissertation Writing service can help with everything from full dissertations to individual chapters.

Literature Review

Referencing Tools

Harvard Referencing Tool
Vancouver Referencing Tool
APA Referencing Tool

Privacy Overview
Strictly Necessary Cookies
3rd Party Cookies

This website uses cookies so that we can provide you with the best user experience possible. Cookie information is stored in your browser and performs functions such as recognising you when you return to our website and helping our team to understand which sections of the website you find most interesting and useful.

Strictly Necessary Cookie should be enabled at all times so that we can save your preferences for cookie settings.

If you disable this cookie, we will not be able to save your preferences. This means that every time you visit this website you will need to enable or disable cookies again.

This website uses Google Analytics to collect anonymous information such as the number of visitors to the site, and the most popular pages.

Keeping this cookie enabled helps us to improve our website.

Please enable Strictly Necessary Cookies first so that we can save your preferences!

Who’s Teaching What
Subject Updates
MEng program
Opportunities
Minor in Computer Science
Resources for Current Students
Program objectives and accreditation
Graduate program requirements
Admission process
Degree programs
Graduate research
EECS Graduate Funding
Resources for current students
Student profiles
Instructors
DEI data and documents
Recruitment and outreach
Community and resources
Get involved / self-education
Rising Stars in EECS
Graduate Application Assistance Program (GAAP)
MIT Summer Research Program (MSRP)
Sloan-MIT University Center for Exemplary Mentoring (UCEM)
Electrical Engineering
Computer Science
Artificial Intelligence + Decision-making
AI and Society
AI for Healthcare and Life Sciences

Artificial Intelligence and Machine Learning

Biological and medical devices and systems, communications systems.

Computational Biology

Computational Fabrication and Manufacturing

Computer architecture, educational technology, electronic, magnetic, optical and quantum materials and devices.

Graphics and Vision
Human-Computer Interaction
Information Science and Systems

Integrated Circuits and Systems

Nanoscale materials, devices, and systems.

Natural Language and Speech Processing

Optics + Photonics

Optimization and Game Theory
Programming Languages and Software Engineering

Quantum Computing, Communication, and Sensing

Security and Cryptography

Signal Processing

Systems and networking, systems theory, control, and autonomy.

Theory of Computation
Departmental History
Departmental Organization
Visiting Committee
Explore all research areas

Electrical engineers design the most sophisticated systems ever built. From computers with billions of transistors to microgrids fed by renewable energy sources, from algorithms that predict disease to solar cells and electric vehicles, electrical engineering touches all parts of modern society. We leverage computational, theoretical, and experimental tools to develop groundbreaking sensors and energy transducers, new physical substrates for computation, and the systems that address the shared challenges facing humanity.

Our research is interdisciplinary by nature, and has far-reaching effects on almost every field of human activity, including energy and climate, human health, communications and computation, finance and music. We make the future.

Research areas

Our research covers a wide range of topics of this fast-evolving field, advancing how machines learn, predict, and control, while also making them secure, robust and trustworthy. Research covers both the theory and applications of ML. This broad area studies ML theory (algorithms, optimization, …), statistical learning (inference, graphical models, causal analysis, …), deep learning, reinforcement learning, symbolic reasoning ML systems, as well as diverse hardware implementations of ML.

We develop the technology and systems that will transform the future of biology and healthcare. Specific areas include biomedical sensors and electronics, nano- and micro-technologies, imaging, and computational modeling of disease.

We develop the next generation of wired and wireless communications systems, from new physical principles (e.g., light, terahertz waves) to coding and information theory, and everything in between.

We design the next generation of computer systems. Working at the intersection of hardware and software, our research studies how to best implement computation in the physical world. We design processors that are faster, more efficient, easier to program, and secure. Our research covers systems of all scales, from tiny Internet-of-Things devices with ultra-low-power consumption to high-performance servers and datacenters that power planet-scale online services. We design both general-purpose processors and accelerators that are specialized to particular application domains, like machine learning and storage. We also design Electronic Design Automation (EDA) tools to facilitate the development of such systems.

We bring some of the most powerful tools in computation to bear on design problems, including modeling, simulation, processing and fabrication.

Educational technology combines both hardware and software to enact global change, making education accessible in unprecedented ways to new audiences. We develop the technology that makes better understanding possible.

Our research spans a wide range of materials that form the next generation of devices, and includes groundbreaking research on graphene & 2D materials, quantum computing, MEMS & NEMS, and new substrates for computation.

Our research focuses on solving challenges related to the transduction, transmission, and control of energy and energy systems. We develop new materials for energy storage, devices and power electronics for harvesting, generation and processing of energy, and control of large-scale energy systems.

Our field deals with the design and creation of sophisticated circuits and systems for applications ranging from computation to sensing.

Our research focuses on the creation of materials and devices at the nano scale to create novel systems across a wide variety of application areas.

Our work focuses on materials, devices, and systems for optical and photonic applications, with applications in communications and sensing, femtosecond optics, laser technologies, photonic bandgap fibers and devices, laser medicine and medical imaging, and millimeter-wave and terahertz devices.

Our work focuses on developing the next substrate of computing, communication and sensing. We work all the way from new materials to superconducting devices to quantum computers to theory.

Our research focuses on robotic hardware and algorithms, from sensing to control to perception to manipulation.

Signal processing focuses on algorithms and hardware for analyzing, modifying and synthesizing signals and data, across a wide variety of application domains. As a technology it plays a key role in virtually every aspect of modern life including for example entertainment, communications, travel, health, defense and finance.

From distributed systems and databases to wireless, the research conducted by the systems and networking group aims to improve the performance, robustness, and ease of management of networks and computing systems.

Our theoretical research includes quantification of fundamental capabilities and limitations of feedback systems, inference and control over networks, and development of practical methods and algorithms for decision making under uncertainty.

Latest news

Department of eecs announces 2024 promotions.

The Department of Electrical Engineering and Computer Science (EECS) is proud to announce multiple promotions.

At the MIT Quantum Hackathon, a community tackles quantum computing challenges

Each year, a community of quhackers (quantum hackers) gathers at iQuHACK to work on quantum computing projects using real quantum computers and simulators.

Device could jumpstart work toward quantum internet

Solves paradox associated with transmission of quantum information

Self-powered sensor automatically harvests magnetic energy

A system designed at MIT could allow sensors to operate in remote settings, without batteries.

EECS Alliance Roundup: 2023

Founded in 2019, The EECS Alliance program connects industry leading companies with EECS students for internships, post graduate employment, networking, and collaborations. In 2023, it has grown to include over 30 organizations that have either joined the Alliance or participate in its flagship program, 6A.

Upcoming events

Fireside chat with angel investor helen he, doctoral thesis: enhancing online collaborative learning: designs for effective in-situ discussion and engagement in large-scale learning environments., adriaan campo – exploring kinematic parameters in music education and performance: towards real-time feedback and motor learning assessment, doctoral thesis: advancing equity & reliability in machine learnring, doctoral thesis: data-efficient machine learning for computational imagingdoctoral thesis:, doctoral thesis: automated interpretation of machine learning models.

Electrical Projects Guide

Basic Electrical
Synchronous Machines
Power Electronics
Power Systems
Electric Vehicle
Control Systems

ELECTRICAL RESEARCH PAPER TOPICS FOR ENGINEERING STUDENTS

Here is the list of topics that you can use for electrical engineering research

Solar–thermal integrated system for power generation
Effect of temperature on photovoltaic energy conversion
Solar charging stations and impact on power system
Maximum power point tracking for electric car solar charging stations
Sparse matrix rectifier for efficiency improvement of photovoltaic conversion
Development of a novel Maximum Power Point Tracking algorithm for solar systems
Rooftop solar power generation for educational institutions
DC-DC converter for DC power grid
DC power transmission and multiphase power transmission
Power quality analysis of micro grid-connected power grid
Micro grid integration and stain in power transmission lines
Harmonic elimination in SVPWM inverter
Power quality issues in UPS systems
Wind power station and grid harmonics elimination
Reluctance motor speed control
Temperature estimation of induction motor and material selection for the motor
Comparison of inverter circuit switching losses for PMSM and Induction motor drives
Regenerative braking efficiency in electric cars
Impact of regenerative braking on electric vehicle battery
Life analysis of electric vehicle battery
Regenerative braking using supercapacitor battery combination
Transformer load management in vehicle-to-grid connection
Peak load shaving using Vehicle to Grid connection
Switching loss minimization in the converter of Grid-connected electric cars
Fault detection and clearing (Power System Stabilization) using Phasor Measurement Unit (PMU)
Substation Automation using WiFI
Power quality improvements when EV charging in a microgrid
Smart charging for electric vehicles
Microgrid to grid integration techniques for power system stability
Renewable source integration with power factor correction

A list of electrical research paper topics is presented in this post. The list opens doors to a number of other research topics in electrical engineering. Thinking about each topic in detail would help you out to find more topics in electrical engineering.

The post focus on power system, electrical vehicle, renewable energy, and motor related topics. Follow us to get more electrical engineering related project ideas.

[READ]: Electrical Projects for Engineering Students: Novel EEE projects for final-year students
[READ]: 40+ Electrical Mini Projects: A list of innovative electrical mini projects that you can do easily
[READ]: List of 50 electric vehicle projects for Engineering Students

Exploring Cutting-Edge Trends: Engineering Research Paper Topics

Table of contents

1 How to Choose the Best Engineering Topic for Your Research
2.1 Genetic Engineering Research Paper Topics
2.2 Nuclear Engineering Research Paper Topics
2.3 Research Topics on Security Engineering
2.4 Mining and Geological Engineering Research Paper Topics
2.5 Mechanical Engineering Research Topics
2.6 Materials Engineering Essay Topics
2.7 Marine Engineering Research Paper Topics
2.8 Industrial Engineering Research Paper Topics
2.9 Environmental Engineering Research Paper Topics
2.10 Electrical Engineering Research Topics
2.11 Computer and Software Engineering Research Topic
2.12 Civil Engineering Research Topics
2.13 Biomedical Engineering Research Ideas
2.14 Automobile Engineering Research Paper Topic
2.15 Agricultural Engineering Research Topics
2.16 Aerospace Engineering Research Paper Topics
2.17 Electrical and Nanoengineering Research Topic
2.18 Engineering STEM Research Topics
2.19 Engineering Research Topics in Robotics and Automation
2.20 Transportation Engineering Research Topics

Embarking on an engineering research paper marks the beginning of a quest for knowledge that could redefine established norms and innovate practices. It’s a thrilling dive into the depths of technical ingenuity and problem-solving. To commence, one must select a beacon—a topic that not only ignites curiosity but also holds the potential to contribute meaningfully to the field. Whether it’s unraveling the complexities of renewable energy systems or exploring the frontiers of nanotechnology, the chosen subject should challenge and inspire. In this realm, precision, relevance, and forward-thinking drive the spirit of inquiry as researchers forge paths that could shape the future of technology.

Selecting the perfect engineering research topics is fundamental in charting a course for breakthroughs and engaging conversations. The purpose of this guide is to help curious individuals find an engineering research topic that fits their interests and the field’s pulse, guaranteeing a journey full of deep learning and significant results.

How to Choose the Best Engineering Topic for Your Research

Choosing the best engineering research topic begins with identifying your areas of interest. Reflect on the subjects that excite you the most and the current issues facing the engineering world. Once you’ve pinpointed your interests, delve into the latest industry trends, advancements, and scholarly discussions. Conferences, journals, and industry publications are gold mines for the newest challenges and innovations that crave exploration.

Next, evaluate the feasibility of the topics on your list. Consider factors such as resource availability, time constraints, and the scope of potential research. Consult with peers and mentors to gauge the relevance and depth of your chosen topic. It’s also wise to factor in the potential for practical application and the contribution your research could make to the field.

Finally, aim for originality. A unique research topic not only stands out but also adds value to the engineering community. By merging your passion with a gap in existing research, you can craft a topic that is both personally rewarding and professionally commendable.

Best Current Research Topics for Engineering

Explore the forefront of innovation with the best current research topics for engineering, a thrilling showcase of groundbreaking ideas poised to redefine technological frontiers and spark transformative advancements in the field.

Genetic Engineering Research Paper Topics

Venture into the realm of genetic engineering, where the potential for innovation intersects with ethical considerations. These engineering research paper topics offer a unique lens into the intricate dance of DNA manipulation and its far-reaching implications.

CRISPR Cas-9 Precision and its Impact on Genome Editing Techniques
Gene Therapy Advances for Inherited Disorders
Synthetic Biology and the Construction of Artificial Life Forms
Ethical Boundaries in Human Genetic Enhancement
Genetic Engineering in Agriculture and Crop Resilience
The Role of Genetic Engineering in Combating Rare Diseases
Bioprinting Human Tissues for Transplantation and Testing
Gene Editing’s Potential in Extending Human Lifespan
Implications of Genetic Privacy in an Era of Genome Editing
Bioinformatics and the Future of Personalized Medicine in Genetic Engineering

Nuclear Engineering Research Paper Topics

Delving into nuclear engineering offers a glimpse into the powerhouse of energy generation and its safety challenges. The following engineering research topics unpack the complexities of nuclear energy and its role in a sustainable future.

Advancements in Nuclear Fusion Reactor Design
Mitigation Strategies for Nuclear Reactor Disasters
Radioactive Waste Management and Long-Term Containment Solutions
The Development of Thorium as an Alternative Nuclear Fuel
Innovations in Nuclear Reactor Safety and Accident Tolerance
Nuclear Energy’s Role in the Global Transition to Clean Power
Enhancing Radiation Shielding Techniques for Space Exploration
Proliferation Risks of Nuclear Materials and Technologies
Economic Analysis of Lifecycle Costs for Nuclear Power Plants
Public Perception and Acceptance of Nuclear Energy in the 21st Century

Research Topics on Security Engineering

Security engineering stands at the vanguard of protecting information and infrastructure in our increasingly digital world. These engineering topics to research delve into state-of-the-art defenses and the evolving landscape of threats.

Quantum Cryptography and the Future of Secure Communication
Biometric Security Systems and Privacy Implications
Artificial Intelligence in Cyber Threat Detection and Response
Blockchain Applications for Decentralized Security Architectures
Secure Software Development Life Cycle for Emerging Technologies
Internet of Things (IoT) Security in Smart City Implementations
Advanced Persistent Threats and Counteracting Network Security Measures
Social Engineering Attacks and Human-Centric Security Strategies
Forensic Methods for Detecting Insider Threats
Risk Management Frameworks for Cloud Computing Security

Mining and Geological Engineering Research Paper Topics

Mining and geological engineering form the bedrock of our quest for natural resources, balancing extraction techniques with environmental stewardship. Here are vital engineering topics to write about that address today’s challenges and future solutions.

Autonomous and Remote-Controlled Mining Machinery Innovations
Environmental Impact Assessments of Hydraulic Fracturing Practices
Geostatistical Analysis of Mineral Resource Estimation
Slope Stability and Landslide Prevention in Open-Pit Mines
The Application of Geospatial Technologies in Mineral Exploration
Mine Rehabilitation and Post-Mining Ecosystem Restoration
Advancements in Offshore Drilling Technology and Impact Mitigation
Earthquake Prediction Models and Mining Induced Seismicity
Rare Earth Element Extraction Techniques and Economic Viability
Subsidence Engineering and Mitigation in Underground Mining Operations

Mechanical Engineering Research Topics

Mechanical engineering is the cornerstone of innovation, driving forward advancements in technology and industry. These engineering topics for research paper explore the cutting-edge developments and challenges within the mechanical realm.

3D Printing of Biodegradable Materials for Sustainable Manufacturing
Nanotechnology in Mechanical Engineering: Enhancing Material Properties
Robotics and Automation in Precision Assembly Lines
Energy Harvesting Techniques for Self-Powered Electronic Devices
Fluid Dynamics Analysis in Reducing Aerodynamic Drag for Vehicles
Wearable Technology Innovations for Human Performance Monitoring
Advanced Composite Materials for Aerospace Application Efficiency
Thermal Management Systems in Electric Vehicle Battery Packs
Vibration Analysis for Predictive Maintenance in Heavy Machinery
Bioinspired Design: Mimicking Nature for Mechanical Solutions

Materials Engineering Essay Topics

Materials engineering is at the forefront of technological progress, shaping the way we build the future with innovative substances and composites. These engineering essay topics delve into the synthesis, analysis, and application of materials that could revolutionize industries.

Graphene Integration in Electronics and Energy Storage Devices
Biodegradable Polymers in Sustainable Packaging Solutions
Self-healing Material Technologies and Their Long-term Durability
Advanced Ceramics for High-Temperature Structural Applications
Nanomaterials for Targeted Drug Delivery Systems
Smart Textiles in Wearable Technology and Their Functionalities
Metallic Glass Synthesis for Industrial Application
Corrosion Resistance Strategies in Marine Engineering Materials
High Entropy Alloys and Their Mechanical Properties
Photovoltaic Materials for Enhanced Solar Cell Efficiency

Marine Engineering Research Paper Topics

Marine engineering embodies the spirit of exploration and innovation, navigating the challenges of the sea with advanced technology and design. The following topics in engineering dive deep into the ocean’s mysteries and the engineering solutions that sustain life and commerce on the waves.

Wave Energy Conversion Systems and Coastal Power Generation
Hull Design Optimization for Fuel Efficiency in Cargo Ships
Ballast Water Treatment Technologies to Combat Marine Invasions
Underwater Acoustic Communication Systems for Submersible Vehicles
Corrosion Resistant Materials for Prolonged Marine Infrastructure Lifespan
Autonomous Marine Vehicles and Their Navigational Algorithms
Impact of Climate Change on Ship-Borne Disease Spread
Sustainable Fishing Techniques and Equipment Design
Arctic Drilling Equipment and Ice Management Strategies
Marine Robotics for Deep-Sea Exploration and Resource Extraction

Industrial Engineering Research Paper Topics

Industrial engineering is a nexus of productivity, efficiency, and innovation, integrating complex systems and processes. These interesting engineering topics dissect the intricacies of industry operations and the pursuit of technological advancements for systemic improvements.

Ergonomic Design in Manufacturing Workstations to Boost Efficiency
Machine Learning Applications for Supply Chain Optimization
System Dynamics Modeling for Predictive Production Planning
Green Manufacturing Practices and Circular Economy Integration
Human-robot Collaboration and Safety in the Workplace
Quality Control Enhancements through Statistical Process Control
Lean Manufacturing Techniques and Waste Reduction Strategies
Smart Factory Implementations in Industry 4.0
Simulation of Logistics Networks for Urban Congestion Alleviation
Cognitive Ergonomics in Industrial Systems Design

Environmental Engineering Research Paper Topics

Environmental engineering is a vital subset of civil engineering, dedicated to creating harmony between construction and the natural world. These topics focus on sustainable development and ecological preservation within the built environment.

Phytoremediation Techniques in Soil and Water Decontamination
Carbon Capture and Storage Solutions in Urban Planning
Impact of Green Roofs on Urban Microclimates
Sustainable Wastewater Treatment and Reuse Strategies
Air Quality Management and Pollution Control in Metropolises
Eco-friendly Concrete Alternatives in Civil Construction
Bioreactor Landfills and Methane Harvesting Technologies
Riverbank Filtration Systems for Potable Water Supplies
Noise Pollution Reduction in Highway Engineering
GIS Applications in Hazardous Waste Site Remediation

Electrical Engineering Research Topics

Electrical engineering propels countless innovations, from microelectronics to massive power grids. The following topics highlight the dynamic and essential developments reshaping the electrical landscape.

Wireless Power Transfer Systems for Electric Vehicle Charging
Organic Photovoltaic Cells for Improved Solar Energy Harvesting
Nano-electromechanical Systems in Medical Device Engineering
Energy Storage Solutions in High-Density Lithium-Ion Batteries
Smart Grid Technologies for Distributed Energy Resources Management
Electromagnetic Field Effects on Human Health
Machine Vision Algorithms for Automated Quality Inspection
Flexible Electronics for Wearable Technology Applications
High-frequency Trading Algorithms and Market Impact Analysis
Quantum Computing and Its Role in Cryptography

Computer and Software Engineering Research Topic

Computer and software engineering stands at the cutting edge of innovation, constantly evolving to meet the demands of a digital future. These software engineering research topics delve into the algorithms, systems, and applications driving progress in this ever-expanding field.

Agile Methodologies Impact on Software Development Lifecycle
Cybersecurity in Cloud Computing Environments
Application of Artificial Intelligence in Automated Code Generation
Blockchain Technology Beyond Cryptocurrency
Human-Computer Interaction and User Experience Optimization
Internet of Things Security Protocols for Smart Home Systems
Machine Learning Techniques in Predictive Software Analytics
Virtual Reality Integration in Software Testing Environments
Software Solutions for Big Data Management and Analysis
Ethical Implications of Autonomous Decision-making Systems

Civil Engineering Research Topics

Civil engineering is a pillar of societal development, encompassing the design and construction of infrastructure that underpins our daily lives. The research topics in civil engineering listed below address the contemporary challenges and technological strides shaping the field’s future.

Seismic Retrofitting Techniques for Aging Infrastructure
Sustainable Urban Drainage Systems and Flood Risk Mitigation
Smart Materials for Self-repairing Concrete Structures
Advanced Geotechnical Methods for Landslide Prevention
The Role of Civil Engineering in Urban Heat Island Reduction
Lifecycle Assessment of Green Building Materials
Integration of Autonomous Vehicles into Urban Traffic Management
3D Printing in Rapid Construction and Design Prototyping
Water Reclamation and Reuse in Megacities
Innovations in Bridge Engineering for Enhanced Longevity and Durability

Biomedical Engineering Research Ideas

Biomedical engineering merges the intricate world of medicine with the precision of engineering, opening new frontiers in healthcare. While these are not topics, they embody a similar spirit of technical innovation applied to biological systems.

Tissue Engineering Strategies for 3D-Printed Organs
Wearable Biosensors for Real-Time Health Monitoring
Nanorobots in Targeted Drug Delivery Systems
Neural Engineering for Brain-Machine Interface Development
Biocompatible Materials for Implantable Medical Devices
Advanced Prosthetics Controlled by Electromyographic Signals
Artificial Intelligence in Diagnostic Imaging Techniques
Biomimicry in Medical Device Design
Regenerative Medicine and Stem Cell Therapy Applications
Computational Modeling for Personalized Medicine Treatment Plans

Automobile Engineering Research Paper Topic

Automobile engineering is continuously evolving, driven by the quest for sustainability, efficiency, and cutting-edge technology. Although distinct from software engineering topics for research, these themes share a focus on innovation and design in the quest for advancement.

Electric Vehicle Battery Management Systems for Optimal Performance
Autonomous Vehicle Sensor Integration and Data Fusion
Hydrogen Fuel Cell Advancements for Zero-Emission Cars
Aerodynamic Design for Enhanced Fuel Efficiency in Commercial Vehicles
Advanced Driver-Assistance Systems and their Impact on Traffic Safety
Smart Materials for Lightweight and Durable Automotive Components
Integration of IoT in Vehicle-to-Vehicle Communication Systems
Predictive Maintenance in Automotive Engineering using Machine Learning
Noise, Vibration, and Harshness Reduction Techniques in Car Design
The Impact of Vehicle Electrification on Urban Planning and Infrastructure

Agricultural Engineering Research Topics

Agricultural engineering fuses the knowledge of engineering with agricultural practice to solve crucial challenges in food production and farming sustainability. While not inherently controversial engineering topics, these subjects often stir debate due to their significance in global food security and environmental impact.

Precision Farming Technologies to Maximize Crop Yield
Water Resource Management for Sustainable Irrigation Practices
Genetic Engineering of Crops for Climate Resilience
Renewable Energy Systems in Agriculture
Robotics and Automation in Precision Livestock Farming
Post-Harvest Technology for Reducing Food Loss
Soil Health Monitoring Techniques for Enhanced Nutrient Management
Agrochemicals Delivery Systems and Their Environmental Footprint
Controlled Environment Agriculture for Urban Farming Efficiency
Bioenergy Production from Agricultural Waste Management Systems

Aerospace Engineering Research Paper Topics

Aerospace engineering takes us beyond the confines of Earth, embracing the vastness of space with technologies that defy gravity. These topics, while distinct from genetic engineering research topics, are similarly ambitious, exploring the limits of human ingenuity and the potential for discovery beyond our atmosphere.

Materials Engineering for High-Stress Aerospace Applications
Computational Fluid Dynamics in Hypersonic Vehicle Design
Satellite Swarm Navigation Techniques for Space Exploration
Innovative Propulsion Systems for Deep Space Missions
Bioastronautics: Sustaining Life in Space Environments
Impact of Microgravity on Mechanical Systems Design
Unmanned Aerial Vehicle Aerodynamics for Mars Reconnaissance
Thermal Protection Systems in Re-entry Vehicle Engineering
Design Optimization of Spacecraft Life Support Systems
Advanced Rocketry and the Viability of Space Tourism

Electrical and Nanoengineering Research Topic

Electrical engineering is a dynamic field that encompasses the study and application of electricity and electronics, propelling countless modern innovations. These topics extend into the realm of topic, probing into the minutiae of materials and processes that power our electronic devices.

Nanoscale Semiconductor Devices for Next-Generation Computing
Organic Light-Emitting Diodes in Flexible Display Technology
Quantum Dot Solar Cells for Enhanced Photovoltaic Efficiency
Nanomaterials in High-Density Energy Storage Solutions
Nano-antennas for Improved Wireless Communication Systems
Magnetic Nanoparticles in Medical Imaging and Diagnostics
Nanotechnology in Electromagnetic Interference Shielding
Nanostructured Materials for Advanced Sensor Technologies
Nanofabrication Techniques for Superconducting Electronics
Energy Harvesting at the Nanoscale for Self-Powered Devices

Engineering STEM Research Topics

Engineering STEM is an ever-expanding field, pivotal to the advancements in how we connect and interact with technology. These engineering STEM research topics address the latest innovations and challenges in creating more efficient, robust, and sophisticated communication systems.

5G Network Infrastructure and its Socioeconomic Impacts
Machine Learning Algorithms for Enhanced Signal Processing
Organic Transistors in Flexible Electronics
Wearable Communication Devices for Health Monitoring
Low Earth Orbit Satellite Constellations for Global Internet Coverage
Signal Encryption Techniques for Secure Communication Channels
Energy-Efficient Routing Protocols in Mobile Ad-hoc Networks
Integration of LiFi for Next-Generation Wireless Communication
Quantum Computing’s Role in Advancing Cryptography
The Evolution of Underwater Acoustic Sensor Networks

Engineering Research Topics in Robotics and Automation

Robotics and automation stand at the forefront of engineering, blending artificial intelligence with mechanical prowess to innovate how tasks are performed. These research topics delve into the transformative potential of robots and automated systems, from intricate surgeries to industrial assembly lines.

Swarm Robotics Coordination Algorithms for Disaster Relief Operations
Collaborative Robots and Human-Robot Interaction Safety Protocols
Adaptive Control Systems for Precision Agriculture Robotics
Augmented Reality in Enhancing Robotic Assembly Line Training
AI-Driven Predictive Maintenance in Industrial Automation
Soft Robotics Applications in Minimally Invasive Surgery
Development of Energy-Efficient Actuators for Sustainable Robotics
Machine Vision Systems for Quality Control in Manufacturing
Robotic Exoskeletons for Rehabilitation and Enhanced Mobility
Automation in Smart Grids for Optimized Energy Distribution

Transportation Engineering Research Topics

Transportation engineering is a key driver in the advancement of mobility solutions, focusing on the design, construction, and maintenance of efficient transport systems. These research topics investigate the development of safer, more sustainable, and technologically advanced transportation networks.

Impact of Autonomous Vehicles on Urban Traffic Flow
Eco-Friendly Pavement Materials and Their Lifecycle Assessment
Smart Traffic Signal Systems for Reduced Congestion
Electrification of Public Transit and Infrastructure Challenges
Pedestrian Flow Dynamics in Urban Planning
Bridge Health Monitoring Using IoT Sensors
High-Speed Rail Systems and Cross-Border Integration Challenges
Adaptive Cruise Control Systems in Vehicle Safety Enhancement
Drone Technology in Expedited Cargo Delivery
Multi-Modal Transportation Planning for Improved Accessibility

Readers also enjoyed

WHY WAIT? PLACE AN ORDER RIGHT NOW!

Just fill out the form, press the button, and have no worries!

We use cookies to give you the best experience possible. By continuing we’ll assume you board with our cookie policy.

BU Electrical Engineer Vivek Goyal Named a 2024 Guggenheim Fellow

The award recognizes goyal’s groundbreaking work in computational imaging, including research to photograph objects hidden by walls and around corners.

Photo: A picture of a man wearing glasses and a suit posing for the camera

New Guggenheim Fellow Vivek Goyal, a College of Engineering professor of electrical and computer engineering.

Alene Bouranova

Cydney scott.

He might spend his days testing computer chips for the most minute of devices, or developing tech spies could use while on covert assignments. But if you ask Vivek Goyal , a Boston University College of Engineering professor and associate chair of doctoral programs for electrical and computer engineering, to name one of the coolest things about his job, he doesn’t pick inventing technology or testing gadgets.

“I really love the generation and analysis of probabilistic models,” Goyal admits.

These prediction-making algorithms might not be as glamorous as aiding secret agents, but they play a critical role in his burgeoning research on improving microscope imaging. That research is in part what earned Goyal a Guggenheim Fellowship , a prestigious grant from the John Simon Guggenheim Memorial Foundation.

Each year, the foundation awards approximately 180 fellowship grants to individuals making significant contributions in the natural sciences, the social sciences, the creative arts, and the humanities. “Guggenheim Fellowships are intended for mid-career individuals who have demonstrated exceptional capacity for productive scholarship or exceptional creative ability in the arts and exhibit great promise for their future endeavors,” according to the foundation’s website.

“Vivek is the third College of Engineering faculty member to be awarded a Guggenheim Fellowship in recent years, which speaks to the outstanding depth and quality of research at the college,” says Elise Morgan , ENG dean ad interim. “Professor Goyal is a preeminent scholar and outstanding member of our faculty. His research on non-line-of-sight imaging—at the intersection of optics/photonics and computers and mathematics—has great potential for making the world safer for many people.”

Goyal came to BU in 2014. Since then, his research has largely revolved around computational imaging—such as photon-efficient active imaging , where he’s shown how few photons are actually needed to capture crisp images with a camera, and non-line-of-sight imaging , where he uses surprisingly simple equipment to take photos of objects hidden from view. In one study , Goyal and his team used a pulsed laser and a single-photon detector array to take pictures of a post, mannequin, and staircase placed behind a wall, as well as to track moving objects. Goyal says the technology could eventually be used to aid rescue and armed forces teams, and to potentially improve vehicle warning systems.

“It is an incredible honor for Professor Goyal to join the exceptional group of artists, writers, scholars, and scientists awarded a Guggenheim Fellowship this year,” says Gloria Waters , BU’s vice president and associate provost for research. “This award, along with the multiple other distinguished awards he has received, is a clear recognition of the importance of his cutting-edge research.” Last year, Goyal was also named an American Association for the Advancement of Science (AAAS) Fellow .

This award, along with the multiple other distinguished awards he has received, is a clear recognition of the importance of his cutting-edge research. Gloria Waters

Recently, his research has also involved electron microscopes , high-resolution microscopes that form images of a specimen using a focused beam of particles, such as electrons or ions, instead of photons. His groundbreaking work in electron imaging has significant potential implications for biomedicine and manufacturing, among myriad other applications.

According to Goyal, his microscopes research is exciting, even a little off-the-wall, because it upends what have long been considered the fundamental limits of electron imaging.

“One thing I love about the Guggenheim Fellowship is that it’s an award based on both what you say you plan to do, but also on your track record of creativity,” Goyal says. “It’s very validating to feel like my track record was valued enough that this foundation wants to support me in trying to do something a little crazy.

“I take that compliment, and I appreciate it.”

Explore Related Topics:

Share this story
0 Comments Add

Writer/Editor Twitter Profile

Photo of Allie Bouranova, a light skinned woman with blonde and brown curly hair. She smiles and wears glasses and a dark blue blazer with a light square pattern on it.

Alene Bouranova is a Pacific Northwest native and a BU alum (COM’16). After earning a BS in journalism, she spent four years at Boston magazine writing, copyediting, and managing production for all publications. These days, she covers campus happenings, current events, and more for BU Today . Fun fact: she’s still using her Terrier card from 2013. When she’s not writing about campus, she’s trying to lose her Terrier card so BU will give her a new one. She lives in Cambridge with her plants. Profile

Alene Bouranova can be reached at [email protected]

Photojournalist

Cydney Scott has been a professional photographer since graduating from the Ohio University VisCom program in 1998. She spent 10 years shooting for newspapers, first in upstate New York, then Palm Beach County, Fla., before moving back to her home city of Boston and joining BU Photography. Profile

Comments & Discussion

Boston University moderates comments to facilitate an informed, substantive, civil conversation. Abusive, profane, self-promotional, misleading, incoherent or off-topic comments will be rejected. Moderators are staffed during regular business hours (EST) and can only accept comments written in English. Statistics or facts must include a citation or a link to the citation.

Latest from The Brink

Not having job flexibility or security can leave workers feeling depressed, anxious, and hopeless, can the bias in algorithms help us see our own, do immigrants and immigration help the economy, how do people carry such heavy loads on their heads, do alcohol ads promote underage drinking, how worried should we be about us measles outbreaks, stunning new image shows black hole’s immensely powerful magnetic field, it’s not just a pharmacy—walgreens and cvs closures can exacerbate health inequities, how does science misinformation affect americans from underrepresented communities, what causes osteoarthritis bu researchers win $46 million grant to pursue answers and find new treatments, how to be a better mentor, how the design of hospitals impacts patient treatment and recovery, all americans deserve a healthy diet. here’s one way to help make that happen, bu cte center: lewiston, maine, mass shooter had traumatic brain injury, can cleaner classroom air help kids do better at school, carb-x funds 100th project—a milestone for bu-based nonprofit leading antimicrobial-resistance fightback, is covid-19 still a pandemic, what is language and how does it evolve, the secrets of living to 100.

MyU : For Students, Faculty, and Staff

Professor Kirsten Strandjord at ECE Spring 2024 Colloquium

Navigation in challenged environments.

The lecture will present an overview of Professor Strandjord’s area of research in Global Positioning System (GPS) and Global Navigation Satellite System (GNSS) and Signal of Opportunity (SOP) technology and applications for positioning, navigation and timing (PNT). One of the primary lecture topics will highlight the challenges for positioning in urban environments and the algorithms and techniques studied to improve the use of these signals in this environment. Similarly, another topic of interest related to urban navigation is research that investigates the use of long-term evolution (LTE) signals, typically used for communication purposes, as signals of opportunity for navigation. Another GNSS-challenged environment will be presented related to navigating regions of space beyond the altitudes of GNSS constellation orbits and into cis-lunar space.

3-210 Keller Hall

Future undergraduate students
Future transfer students
Future graduate students
Future international students
Diversity and Inclusion Opportunities
Learn abroad
Living Learning Communities
Mentor programs
Programs for women
Student groups
Visit, Apply & Next Steps
Information for current students
Departments and majors overview
Departments
Undergraduate majors
Graduate programs
Integrated Degree Programs
Additional degree-granting programs
Online learning
Academic Advising overview
Academic Advising FAQ
Academic Advising Blog
Appointments and drop-ins
Academic support
Commencement
Four-year plans
Honors advising
Policies, procedures, and forms
Career Services overview
Resumes and cover letters
Jobs and internships
Interviews and job offers
CSE Career Fair
Major and career exploration
Graduate school
Collegiate Life overview
Scholarships
Diversity & Inclusivity Alliance
Anderson Student Innovation Labs
Information for alumni
Get engaged with CSE
Upcoming events
CSE Alumni Society Board
Alumni volunteer interest form
Golden Medallion Society Reunion
50-Year Reunion
Alumni honors and awards
Outstanding Achievement
Alumni Service
Distinguished Leadership
Honorary Doctorate Degrees
Nobel Laureates
Alumni resources
Alumni career resources
Alumni news outlets
CSE branded clothing
International alumni resources
Inventing Tomorrow magazine
Update your info
CSE giving overview
Why give to CSE?
College priorities
Give online now
External relations
Giving priorities
Donor stories
Impact of giving
Ways to give to CSE
Matching gifts
CSE directories
Invest in your company and the future
Recruit our students
Connect with researchers
K-12 initiatives
Diversity initiatives
Research news
Give to CSE
CSE priorities
Corporate relations
Information for faculty and staff
Administrative offices overview
Office of the Dean
Academic affairs
Finance and Operations
Communications
Human resources
Undergraduate programs and student services
CSE Committees
CSE policies overview
Academic policies
Faculty hiring and tenure policies
Finance policies and information
Graduate education policies
Human resources policies
Research policies
Research overview
Research centers and facilities
Research proposal submission process
Research safety
Award-winning CSE faculty
National academies
University awards
Honorary professorships
Collegiate awards
Other CSE honors and awards
Staff awards
Performance Management Process
Work. With Flexibility in CSE
K-12 outreach overview
Summer camps
Outreach events
Enrichment programs
Field trips and tours
CSE K-12 Virtual Classroom Resources
Educator development
Sponsor an event

Electrical and Computer Engineering

College of engineering.

Parry Receives Goldwater Scholarship

By Krista Burns

kristab(through)cmu.edu

Katherine Parry, a junior in electrical and computer engineering, has received the 2024 Barry Goldwater Scholarship to support her pursuit of a research career.

The prestigious award, given by The Barry Goldwater Scholarship and Excellence in Education Foundation, provides scholarships to college sophomores and juniors who intend to pursue research careers in the natural sciences, mathematics, and engineering. The Goldwater Foundation is helping ensure that the U.S. is producing the number of highly-qualified professionals the Nation needs in these critical fields.

“Katherine is amazing and beyond deserving of the Goldwater Scholarship,” says Larry Pileggi, the Coraluppi Head and Tanoto Professor of Electrical and Computer Engineering. “When I first met her as a freshman, I was astonished by her passion and dedication to research. Her work is the caliber of that for a Ph.D. student, so I am excited to see the outcomes.”

From an estimated pool of over 5,000 college sophomores and juniors, 1,353 science, engineering, and mathematics students were nominated by 446 academic institutions to compete for the 2024 Goldwater scholarships. Of the students who reported, 188 of the Scholars are men, 236 are women, and virtually all intend to obtain a Ph.D. as their highest degree objective.

“It is exciting to be recognized for my many years of intensive research,” says Parry. “I am glad to contribute to the prominence and recognition that Carnegie Mellon University and the College of Engineering deserve.”

Parry’s research focuses on designing faster computers through alternative approaches to computation.

“DNA sequencing, which results in new cures, and Machine Learning have only become feasible with faster computation,” explains Parry. “Interesting changes are being experienced as transistors are measured in twenty-atom widths, and wire accounts for more delay than transistor gates. We're coming to the end of smaller circuitry. What will we do then? That is the answer I'm chasing.”

Parry is not a stranger to research. At the age of sixteen, she was working on a Mandelbrot generator for a science fair project. While focusing on increasing the processing speed, she discovered instances that had yet to be addressed.

“Mandelbrots are very square intensive, and I wanted to speed it up,” Parry explains. “I did some googling and came across a couple of papers by T.C. Chen and R.H. Strandberg on how they cut the square computation in half by using Boolean logic to combine terms. However, I noticed some commonalities in the remaining elements that they hadn't addressed. I started playing around with the logic, and the elements got ugly and complicated. Tenacity is an important characteristic of a researcher. I persisted, and suddenly, I was looking at something incredibly beautiful. Those ugly computations suddenly simplified. The optimization of squares is measured in the number of additions required. The previous 16-bit squarer requires 35 adds; mine takes 29.”

As a homeschooled student in South Dakota, there were limited opportunities for Parry to discuss her findings with others. Turning to the internet, she came across a call for papers for the IEEE Symposium on Computational Arithmetic (ARITH).

“I quickly did my best to write a research paper that was due soon. They would know if I had done something original. Their response was an invitation to speak to the world's leading computer researchers at their symposium in Kyoto, Japan. Because of that talk, I became part of their community, and even though they are all across the world, we correspond often. The talk also resulted in my first published paper.”

When it came time to apply to colleges, Carnegie Mellon University was the clear choice in her mind.

“Not only does Carnegie Mellon have the most professors teaching computer design, but we have all the tools, and unheard of, we can tape-out computer chips,” explains Parry. “I have had several very famous researchers from the ARITH community envious of my CMU resources and ask to co-author papers so I can provide more credibility to their ideas. It wasn't by chance; I made a very informed decision in choosing CMU.”

As for her career goal, that is an easy decision, too.

“I want nothing more than to be a research professor at CMU,” says Parry. “I love doing research, and Carnegie Mellon University is a great place to do it.”

IMAGES

Top 10 Interesting Research Topics in Electrical Engineering Domain
Top 10 Latest Project Topics for Electrical Engineering Final Year Students
Seminar Topics for ELECTRICAL/ELECTRONIC ENGINEERING
Engineering Research Proposal Topics
Interesting Electrical Engineering Project Topics for Final Year Students
Top 10 Interesting Research Topics in Electrical Engineering Domain

VIDEO

Top 10 Electrical Seminar Topic| Based on new technology| Techengineer
Top 10 Electrical Seminar Topics 2023
Electrical seminar topics 2023
Electrical Engineering 100 Lecture 1
3 How to select a research topic PG/PHD Electrical Engineering Select an Application
SEMINAR TOPICS FOR ELECTRICAL ENGINEERING(PART 2)

COMMENTS

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.
100+ Recent & Hot Electrical Engineering Research Topics
Exploring electrical engineering research topics leads to technologies that empower our modern lives. The field seeks to harness the power of electricity and circuits to drive innovation. Some key areas researchers focus on include cleaner, smarter energy systems. Advanced tools help capture and distribute electricity from renewable sources ...
Electrical and electronic engineering
Find the latest research and news on electrical and electronic engineering from Nature Portfolio, covering various topics and applications.
100+ Electrical Engineering Research Topics
Research topics for electrical engineering can be exciting yet challenging to find at the same time as they require a lot of time for thorough research and writing. Moreover, the topic and the desired approach can a lot of time to be finalized. Keeping this hassle in view, we have compiled a list of the top 100 electrical engineering research ...
Browse Articles
The rapid development of on-body sensors and multimodal artificial intelligence is accelerating the emergence of the human body digital twin (DT) as an interdisciplinary research topic.
Explore all research areas
EECS' research covers a wide variety of topics in electrical engineering, computer science, and artificial intelligence and decision-making. AI and Society The future of our society is interwoven with the future of data-driven thinking—most prominently, artificial intelligence is set to reshape every aspect of our lives.
306723 PDFs
Download full-text. Explore the latest full-text research PDFs, articles, conference papers, preprints and more on ELECTRICAL ENGINEERING. Find methods information, sources, references or conduct ...
Electrical Engineering
Communications Preferences. Profession and Education. Technical Interests. Need Help? US & Canada:+1 800 678 4333. Worldwide: +1 732 981 0060. Contact & Support. About IEEE Xplore. Contact Us.
Electrical engineering News, Research and Analysis
Professor of Electrical and Computer Engineering,, University of Utah Rahul Sarpeshkar Professor of Electrical Engineering and Computer Science, Massachusetts Institute of Technology (MIT)
Research
Research on devices in the Electrical Engineering department deals with a variety of fundamental topics including semiconductor physics, quantum mechanics, electromagnetics, and optics for developing hardware technologies for applications including sensing, communication, computing, and imaging. These devices can range in size from kilometer ...
Home
Electrical Engineering is a journal publishing original papers in electrical engineering with a strong focus on electric power systems. Offers original research articles and insightful reviews. Focusses on areas including smart systems, systems planning, and energy distribution. Welcomes manuscripts describing theoretical, computer application ...
Advanced Technologies for Electrical Engineering
Energy crisis and environmental pollution are two major themes currently faced by human society. The construction of a strong smart grid with super/ultra-high voltage network as the backbone and clean energy transmission as the leading shows a more important strategic role than ever since. However, the rapid development of clean and renewable energy technologies represented by wind and solar ...
Research
Faculty members and students at the department of Electrical Engineering work together to conduct research across many areas in the field of electrical engineering as well as related fields such as computer science and engineering. ... Research topics include food-energy-water nexus, sustainable brackish water desalination systems, land-use ...
Electrical Engineering Research Topics
In the field of electrical engineering, we offer numerous Electrical Engineering Research Topics depending on the modern patterns and developments as well as for upcoming analysis; these potential topics are suitable and preferable: Renewable Energy Systems: To solve the disruption of sustainable sources, this study might dive intensely into ...
Top 10 Interesting Research Topics in Electrical Engineering Domain
Disconnector. It is used to isolate the circuits in the form of high / medium voltages. Circuit Breaker. It resets the fuse when power over supplied in the switches. Humidistat. It is a component in which humidity is measured. Thermostat. It is a thermal electrical component. Reed Switch.
Strategic Research Areas
Strategic Research Areas. Research in Electrical and Computer Engineering covers an extremely broad range of topics. Whether in computer architecture, energy and power systems or in nanotechnology devices, the research conducted in ECE is at the cutting edge of technological and scientific developments. Research. Strategic Research Areas.
Research Areas
Research projects in the Solid-State area cover a wide variety of topics from integrated photonics and optoelectronics to semiconductor materials to high-frequency devices and integrated circuits to nanoscience and the development of nanotechnogies. ... Electrical and Computer Engineering EECS Building 1301 Beal Avenue Ann Arbor, MI 48109-2122.
Electrical Engineering Research
1200 Larimer Street. Suite 3034. Denver,CO 80204. 303-315-7170. Explore research in Electrical engineering at CU Denver.
Volume II: Challenges and Research Trends of Electrical Engineering and
Special Issues, Collections and Topics in MDPI journals. Dr. Adam Jóśko Dr. Adam Jóśko SciProfiles Scilit Preprints.org Google Scholar E-Mail Website Co-Guest Editor ... Challenges and Research Trends of Electrical Engineering and Power Electronics" will be devoted to current challenges in power generation and distribution.
150+ Best Engineering Research Topics for Students To Consider
Civil Engineering Research Topics. The use of sustainable materials for construction: design and delivery methods. State-of-the-art practice for recycling in the construction industry. In-depth research on the wastewater treatment process. Building Information Modelling in the construction industry.
Research topics in electronics and electrical engineering
Piezoelectrics and ferroelectrics. Studying behaviour thru computational modelling. Computation research in new technologies, materials. Power electronics tools and equipment. Electrical motors and their redesigning. Energy networks and their mathematical foundations. Computer-aided design for electrical engineering. Smart grid monitoring.
Electrical Engineering
Electrical engineers design the most sophisticated systems ever built. From computers with billions of transistors to microgrids fed by renewable energy sources, from algorithms that predict disease to solar cells and electric vehicles, electrical engineering touches all parts of modern society. We leverage computational, theoretical, and ...
Electrical Research Paper Topics for Engineering Students
A list of electrical research paper topics is presented in this post. The list opens doors to a number of other research topics in electrical engineering. Thinking about each topic in detail would help you out to find more topics in electrical engineering. The post focus on power system, electrical vehicle, renewable energy, and motor related ...
Engineering Research Paper Topics for Students
Electrical and Nanoengineering Research Topic. Electrical engineering is a dynamic field that encompasses the study and application of electricity and electronics, propelling countless modern innovations. These topics extend into the realm of topic, probing into the minutiae of materials and processes that power our electronic devices. ...
How to Find Electrical Engineering Internships
Steps to get an electrical engineering internship. It can help to have a plan to guide you in finding an electrical engineering internship well-suited to your background and career goals. Consider these strategies as you begin your search: 1. Check with your college or university about internship guidelines. If your engineering department has ...
World Online Ranking of Best Electronics and Electrical Engineering
On 8 April 2024, Research.com released the 3rd edition of the annual ranking for best scientists in electronics and electrical engineering. This report, which includes a list of notable researchers, aims to raise awareness among the academic community about the major research contributions made by those at the vanguard of electronics and electrical engineering research.
Beidi Chen
Beidi Chen is an Assistant Professor in the Department of Electrical and Computer Engineering at Carnegie Mellon University. She is a Visiting Research Scientist at FAIR, Meta. Before that, she was a postdoctoral scholar at Stanford University. She received her Ph.D. from Rice University in 2020 and B.S. from UC Berkeley in 2015.
BU Electrical Engineer Vivek Goyal Named a 2024 Guggenheim Fellow
But if you ask Vivek Goyal, a Boston University College of Engineering professor and associate chair of doctoral programs for electrical and computer engineering, to name one of the coolest things about his job, he doesn't pick inventing technology or testing gadgets. "I really love the generation and analysis of probabilistic models ...
Professor Kirsten Strandjord at ECE Spring 2024 Colloquium
Navigation in Challenged EnvironmentsThe lecture will present an overview of Professor Strandjord's area of research in Global Positioning System (GPS) and Global Navigation Satellite System (GNSS) and Signal of Opportunity (SOP) technology and applications for positioning, navigation and timing (PNT). One of the primary lecture topics will highlight the challenges for positioning in urban ...
Parry Receives Goldwater Scholarship
Katherine Parry, a junior in electrical and computer engineering, has received the 2024 Barry Goldwater Scholarship to support her pursuit of a research career.. The prestigious award, given by The Barry Goldwater Scholarship and Excellence in Education Foundation, provides scholarships to college sophomores and juniors who intend to pursue research careers in the natural sciences, mathematics ...

Top 75 Emerging Research Topics in Electrical Engineering

Table of contents

1. Power Systems and Renewable Energy

3. Control Systems and Robotics

4. Electronics and Nanotechnology

5. Signal Processing and Machine Learning

What is a Research Design? Importance and Types

WhatsApp Channel

100+ Recent & Hot Electrical Engineering Research Topics For Students [2024 Updated]

What Are Electrical Engineering Research Topics?

How Can I Find Good Electrical Engineering Research Topic?

What Are The Some Recent Topics For Research In Electrical Engineering?

100+ Recent & Hot Electrical Engineering Research Topics For Students

Power Systems and Renewable Energy Research Topics

Communications and Signal Processing Electrical Engineering Research Topics

Control Systems and Robotics Research Topics

Electronics and VLSI Design Research Topics

What Are Some Cool But Easy Research Paper Topics For Electrical Engineering Students?

Current Electrical Engineering Research Topics PDF

What Are Current PhD Research Topics In Electrical Engineering?

Related Posts

100+ Most Interesting Google Scholar Research Topics For Students [Updated 2024]

151+ Best Sociology Research Topics on Mental Health [2024 Revised]

100+ Electrical Engineering Research Topics Examples

Top Research Topics for Electrical Engineering Students

Related Posts

Leave a Comment Cancel Reply

Browse Articles

Medical artificial intelligence should do no harm

Promoting women in tech

Tailoring materials, structures and fabrication processes for stretchable electronics

Van der Waals magnet integration for energy-efficient spintronics

After confronting one uncanny valley, another awaits

Applications of hyperspectral imaging technology in the food industry

Power electronics in wind generation systems

Blockchain technology for mobile multi-robot systems

Nature-inspired interfacial engineering for energy harvesting

A life in electrical engineering, glancing at biology

Spectral multiplication enables THz-tunable and broadband electro-optic combs

MXenes for multispectral electromagnetic shielding

Sensing fugitive hydrogen emissions

Turning e-waste into opportunity

Transforming edge hardware with in situ learning features

A new path for organic electrochemical transistors

A roadmap for the development of human body digital twins

Cubic marine robotics

The road to net-zero emissions in IC manufacturing

Energy-efficient wireless communications

Quick links

IEEE Account

Purchase Details

Profile Information

Articles on Electrical engineering

Remembering South Africa’s “Grand Geek” Barry Dwolatzky - engineer and programming pioneer

Home power backup systems – electrical engineers answer your questions

Device transmits radio waves with almost no power – without violating the laws of physics

A large solar storm could knock out the power grid and the internet – an electrical engineer explains how

The first mobile phone call was 75 years ago – what it takes for technologies to go from breakthrough to big time

Why do smoke alarms keep going off even when there’s no smoke?

Why do different countries have different electric outlet plugs?

How sensors monitor and measure our bodies and the world around us

How to train 21st century engineers for tech discoveries

Crisis, what crisis? How smart solar can protect our vulnerable power grids

Static electricity’s tiny sparks

Bioengineers go retro to build a calculator from living cells

Related Topics

Top contributors

Electrical Engineering

Latest issue

Latest articles

Real-time harmonic state estimation of power systems using optimal placement of measurement devices through RT-LAB implementation

Advances in energy harnessing techniques for smart highways: a review

Deep optimal feature extraction and selection-based motor fault diagnosis using vibration

Day-ahead optimal scheduling for integrated energy system considering dynamic pipe network delay

Journal updates

Advanced Technologies for Electrical Engineering

About this Research Topic

Topic Editors

Participating Journals

Top countries