Complete all courses and requirements listed below unless otherwise indicated.

Fundamental Courses

Complete at least 8 semester hours from the following:8
Electric Drives
Power Systems Analysis 1
Power Electronics
Linear Systems Analysis

Options

Complete one of the following options:

Coursework Option

Concentration Courses
Complete 16 semester hours from the concentration course list below.16
Any fundamental course not used to meet the fundamental course requirement can be used toward the concentration course requirement.
Electives
Complete 8 semester hours from either concentration courses or from other concentrations. 8

Thesis Option

Thesis
EECE 7945Master’s Project4
EECE 7990Thesis4
In addition to completing the thesis course, students must successfully complete the thesis submission process, including securing committee and Graduate School of Engineering signatures and submission of an electronic copy of their MS thesis to ProQuest.
Concentration Courses
Complete 8 semester hours from the concentration course list below. Any fundamental course not used to meet the fundamental course requirement can be used toward the concentration course requirement. 8
Electives
Complete 8 semester hours from either concentration courses or from other concentrations. 8

Optional Co-op Experience

Complete the following (students must complete ENCP 6100 to qualify for co-op experience):
ENCP 6100Introduction to Cooperative Education1
ENCP 6964Co-op Work Experience0
or ENCP 6954 Co-op Work Experience - Half-Time
or ENCP 6955 Co-op Work Experience Abroad - Half-Time
or ENCP 6965 Co-op Work Experience Abroad

Course Lists

In the coursework option a maximum of two courses may be taken outside of electrical and computer engineering. Thesis track students can take up to three courses outside of electrical and computer engineering.

Concentration Courses

Classical Control Systems
Digital Control Systems
Sustainable Energy: Materials, Conversion, Storage, and Usage
Electric Drives
and Lab for EECE 5680
Power Systems Analysis 1
Power Electronics
and Lab for EECE 5684
Electrical Machines
Analysis of Unbalanced Power Grids
Electric Vehicle Powertrains
Special Topics in Electrical and Computer Engineering (Electric Vehicles)
Special Problems in Electrical and Computer Engineering (*For MSECE and PhD-BS students only)
Linear Systems Analysis
Nonlinear Control
System Identification and Adaptive Control
Optimal and Robust Control
Power Systems State Estimation
Modeling and Simulation of Power System Transients
Power Management Integrated Circuits
Numerical Optimization Methods
Advanced Special Topics in Electrical and Computer Engineering (Power System Constrained Optimization)
Advanced Special Problems in Electrical and Computer Engineering (*For PhD-AE students only)

Excluded Courses for All MSECE Concentrations

 Please see your college administrator for more information.

Courses from the following subject areas may not count toward any concentration within the MSECE program:
CSYE, DAMG, INFO, TELE
The following CS courses may not count toward any concentration within the MSECE program:
Programming Design Paradigm
Pattern Recognition and Computer Vision
Computer/Human Interaction
Mobile Application Development
Web Development
Fundamentals of Computer Networking
Algorithms
Machine Learning
Empirical Research Methods

Program Credit/GPA Requirements

32 total semester hours required (33 with optional co-op)
Minimum 3.000 GPA required