Master of Science in
Electrical & Computer Engineering
The Master of Science in Electrical and Computer Engineering builds technical proficiency and systems-level design skills to prepare graduates for engineering leadership roles across industries. Faculty are experienced professionals who bring real-world expertise and active research opportunities.
Applicants must hold an undergraduate degree in electrical or computer engineering, another engineering field, computer science or a physical science.
The M.S. in Electrical and Computer Engineering positions graduates for advanced careers in industries that rely on systems-level design, driving demand for electrical, computer, software and systems engineers.
Notable Employers of Alumni
- The Boeing Company
- Lockheed Martin
- Northrop Grumman
- U.S. Military
Industry Outlook
- According to the U.S. Bureau of Labor Statistics, electrical engineers and computer engineers both continue to have above-average job growth.
30 credits
Transfer Credit
- Varies by campus, program and more.
- Admissions will work one-on-one with you to maximize your transfer credit. For more info, complete a request for information form or contact admissions.
Estimated Costs
- Varies by campus, program and more.
- Scholarships and financial aid are available. For more info, complete a request for information form or contact admissions.
Campuses Offering Degree
- Daytona Beach, FL
Areas of Concentration
The program allows students to focus on electrical or computer engineering. Each concentration begins with foundational courses in linear systems, random processes and systems engineering.
- Electrical Engineering — includes avionics, communications, power electronics, electromagnetic systems, computing systems, control systems, and systems engineering.
- Computer Engineering — includes the analysis, design, development and deployment of computer systems, particularly real-time, safety-critical, and high-reliability systems.
- Advanced Vehicles EcoCar Garage – This facility supports vehicle modeling, integration and testing to advance hybrid and electric technology. Researchers and students, including Embry-Riddle’s EcoEagles, use the facility to develop advanced vehicles and compete in the EcoCAR series sponsored by the Department of Energy, General Motors and MathWorks.
- Radar and Microwaves Lab – This lab teaches high-frequency systems through hands-on projects as part of the electrical engineering curriculum. Circuits operating from tens of megahertz to gigahertz support modern communications, navigation and surveillance across the national airspace.
Learn more about Embry-Riddle's unique student experience, financial aid opportunities, alumni success and highly ranked academics.