What Is Electrical Engineering?
Electrical engineering draws on many disciplines all linked by a common thread: the generation, control and use of electromagnetic energy. Electrical engineers use its various forms—including direct or alternating currents, radio waves, visible light and X-rays—to sense the world around us, shape the flow of energy and data, explore and cure the human body, activate remote robotic systems and more.
What Do Electrical Engineers Do?
Electrical engineers can be found driving innovation in a wide range of industries. Here are just a few examples:
- Communications: designing hardware and algorithms for energy-sipping 4G cell phones, high-definition TVs, and Bluetooth devices
- Health Care: developing sensors and instruments for diagnosing diseases (CAT, MRI, PET)
- Remote Sensing: designing radar and optical systems that probe Earth and space to monitor weather, ecology and global warming
- Consumer Electronics: developing digital cameras, Blu-ray players, GPS devices and noise-canceling headphones
- Transportation: designing sensors and control systems for smart highways and high-speed railways
- Robotics: creating robots that can see, feel, and understand their environment
- Defense and Homeland Security: developing hardware and advanced algorithms for autonomous vehicles, secure battlefield communications, automated luggage scanners and video surveillance
Graduate Programs & Research Opportunities
As part of the Department of Electrical & Computer Engineering—home of one of the nation’s premier doctoral programs—graduate students in electrical engineering study and conduct research in electro-physics, and information science and systems. Faculty and graduate student researchers often collaborate with colleagues in other departments to solve interdisciplinary challenges. Some research areas include:
- Fibers, lasers and non-linear optics
- Nano- and bio-photonics
- Solid-state circuits, devices, and materials
- Space physics
- Quantum optics and communications
- Biological and medical signal processing
- Communication and sensor networks
- Computational and systems biology
- Decision theory, control and optimization
- Image and video processing
- Information theory and communications
- Machine learning and statistical signal processing
- Network security
- Tomographic imaging and inverse problems
Where Do Our Alumni Work?
- Draper Labs
- Massachusetts General Hospital
Why Study at BU?
Two words: our faculty. As leaders in their respective fields, they are well-grounded in the latest technologies and are often the masterminds behind them. Faculty members provide undergraduate students with one-on-one advising and opportunities to work in their research labs.
In addition, our high-tech instructional labs provide an unparalleled environment for coursework, extracurricular exploration and teamwork. Our challenging curriculum prepares students for both the workforce and graduate school—many of our graduates go on to study engineering, business, law and medicine at top-ranked schools.
Our graduate students have opportunities to work on cross-disciplinary topics, ranging from nanobiology to fiber lasers, smart lighting to advanced signal processing. They collaborate with researchers throughout the BU campus and work with other Boston-area universities and companies. We expect our graduate students to present their work at national and international conferences, publish in leading journals and become active members of our community, and we offer excellent possibilities for funding and support.
- Graduate & Post-Graduate
Bachelor of Science (BS) in Electrical Engineering (EE)
With a degree in electrical engineering, you’ll learn the skills needed to begin a career in a wide range of fields, from robotics to medical imaging.
Minor in Electrical Engineering
Undergraduates of all majors may opt to complement their degree with an in-depth minor in electrical engineering.
Master of Science in Electrical & Computer Engineering
Our integrated Master of Science in Electrical and Computer Engineering Degree provides training, skills, and expertise across these traditionally separated domains. It gives you great flexibility in how you shape your Master of Science program and how you present yourself to potential employers.
Master of Engineering (MEng) in Electrical Engineering (EE)
Starting Fall 2018, the MS/MEng in CE/EE programs are being merged into the new MS ECE degree, to which new students should apply.
Master of Science (MS) in Electrical Engineering (EE)
The Master of Science in Electrical Engineering gives students the specialized technological knowledge required for productive careers in industry as well as advanced graduate/doctoral studies.
Master’s Degree Internship Degree Option: Engineering with Practice
The Engineering Practice designation, when added to an MS or MEng degree, recognizes the power of combining rigorous academic coursework with supervised real-world research or industrial applications.
LEAP: A Master’s Program for non-Engineers
A unique program that enables students without an undergraduate engineering degree to earn a master's degree in engineering.
PhD in Electrical Engineering (EE): Post-Master’s Degree
As a PhD student in Boston, you will be in the midst of a vibrant high-tech research community with world-renowned faculty.
PhD in Electrical Engineering (EE): Post-Bachelor’s Degree
As an electrical or computer engineering PhD student, you will pursue theoretical and empirical studies in a topic area determined by your interests, while working with our world-renowned faculty.
|Starting Fall 2018, the MS/MEng in CE/EE programs are being merged into the new MS ECE degree, to which new students should apply.|