Electrical Engineering, MSEE (ELECEGR-MSEE)

Program Description

The Department of Electrical Engineering offers a program of graduate study leading to a Master of Science in Electrical Engineering (M.S.E.E.) degree. The M.S.E.E. program is broad in scope and emphasizes portable concepts in the design and analysis of complex physical systems using modeling, synthesis, and optimization techniques, and bridges interdisciplinary engineering areas such as control systems, microwave engineering, power electronics, signal processing, very large scale integrated circuits (VLSI), and wireless communications. A Ph.D. in electrical engineering is also available. For details, see Electrical Engineering Ph.D. Program.

Program Admissions Requirements

To be considered for admission to the M.S.E.E. program, students must first satisfy basic requirements of the Graduate School. This includes having a bachelor's degree in electrical engineering or a related area with an overall undergraduate grade point average of at least 2.90 on a 4.00 scale. International students who do not have a degree from a U.S. institution must meet UCIE's English proficiency criteria (Graduate Admission Requirements | International Admissions | Wright State University). GRE test score is not required. Program admission decisions are based on complete application information including overall academic performance and standardized test scores where applicable. A student may be admitted to the program on a conditional status. Typically, a conditionally admitted student is required to achieve 3.00 GPA of the first two graduate courses (6-8 credit hours) specified by a department advisor. A student with an undergraduate academic deficiency may petition for admission after demonstrating the ability to perform well in graduate courses taken in a non-degree status.

Program Learning Objectives

Students enrolled in this program will learn to: 

• gain a deep understanding of advanced electrical engineering concepts, including microelectronics, VLSI & FPGA, RF & Microwave, signal processing, communication systems, control and robotics,  power electronics, and their integration with digital technologies and AI
• identify, formulate, and solve complex engineering problems by leveraging advanced electrical engineering principles, methodologies, and technologies
• employ state-of-the-art tools and techniques for simulation, analysis, and design to create innovative, efficient, and effective engineering solutions and applications

Program Learning Outcomes

As a result of their learning experience, graduates of this program can: 

• synthesize diverse electrical engineering concepts to solve complex real-world problems 
• apply state-of-the-art analytical methods and tools to a wide range of engineering challenges
• model, analyze, simulate, and realize new electrical engineering technologies through the applications of current theory, design methodologies, and validation techniques

For more information visit:

• Electrical Engineering, MS
• Department of Electrical Engineering
• College of Engineering and Computer Science