Master of Engineering in Electrical Engineering

The Master of Engineering in Electrical Engineering educates students to acquire a strong fundamental background in electrical engineering and state-of-the-art knowledge and skills in cutting edge areas such as sensing, communications, digital signal processing, smart grids and power systems, robotics, Internet of Things, and artificial intelligence. The program focus is on problem-solving skills development for real-world applications. Our student-centric learning environment provides a variety of opportunities, including accelerated graduate degrees, co-op opportunities and internships.  

In general, a bachelor’s degree in electrical engineering or computer engineering with a minimum grade point average of on a 4.0 scale is required for graduate study in electrical engineering. Outstanding applicants with degrees in other engineering disciplines, physics, or mathematics may be conditionally admitted subject to the completion of appropriate ramp courses or their equivalents with a grade of “B” or better. The special requirements will be determined on an individual basis depending on the student’s background.

The master’s degree requires completion of a total of 30 hours of credit. Each student must complete a mathematical foundations course, four core courses and must complete the course requirements for one of the electrical engineering concentrations. Elective courses are to be chosen from the EE, CPE or AAI numbered graduate courses in this catalog. An elective course not in the EE, CPE or AAI numbered courses may be taken, with the approval of the student’s academic advisor. A maximum of two elective courses not listed in the ECE program may be taken with the approval of the academic advisor.

Program Outcomes

By the time of graduation, students will be able to 

• apply knowledge of mathematics and physics to problem solving in electrical engineering
•  analyze electrical systems using engineering principles and modeling approaches
• design experiments and analyze results to determine process parameters, and to identify issues and methods for electrical engineering measurements
• use mathematical, modeling, and engineering principles to design electrical engineering processes; be able to incorporate considerations such as feasibility, applicability, cost, legal/regulatory, societal impacts, etc. in designs
• use computer software for data analysis, reporting and presentations
• be capable of writing and presenting polished technical reports at a level expected of the engineering profession, and be able to critically evaluate the technical literature and use it to obtain solutions to electrical engineering  problems.
• be able to work effectively in a team
• be able to understand the evaluation and development of intellectual properties
• be able to recognize and achieve high levels of professionalism in work and understand ethical and moral systems in a social context