Program information
The MS-EE program provides the graduates with the broad technical education necessary to produce highly skilled professionals focused on productive research and development in the vast domain of advanced digital and analogue electronics, communication, signal processing, multimedia & computer vision, advanced controls for robotics and microelectronics/nano-electronics.
Program Objectives
This graduate program will impart
- Knowledge of the engineering principles.
- Knowledge of current events and contemporary societal issues.
- Knowledge of the state-of-the-art Information Technologies.
- The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental and societal context.
- Facilitate systems engineering and project management.
- Ability to communicate effectively (written, verbal and presentation) across all levels in the enterprise.
- Ability to grow through life long acquisition of knowledge.
- Ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
- Ability to identify, formulate, and solve Electrical Engineering problems.
- Ability to function in multidisciplinary teams.
- Capability to use state-of-art engineering/computer tools necessary for engineering practice or research.
- Skills to find and use available technical information.
- Ability to communicate effectively in written reports.
- Ability to design and conduct experiments, tests or simulations as well as to analyze and interpret data to validate assumptions and hypotheses.
- Ability to evaluate current electrical engineering techniques.
MS-EE Core Courses
| Course Code |
Course Title |
Credit Hours |
| IE-631 |
Research Methodology |
3 |
| EE-504 |
Linear Systems |
3 |
| EE-631 |
Stochastic Processes |
3 |
| EE-643 |
Optimization Techniques |
3 |
MS-EE Elective Courses
| Course Code |
Course Title |
Credit Hours |
| EE-628 |
Advanced Circuit Design |
3 |
| EE-610 |
Real-time Signal Processing |
3 |
| EE-616 |
Adaptive Filtering Theory and Design |
3 |
| EE-518 |
Nonlinear Signal Processing |
3
|
| EE-511 |
Embedded Systems |
3 |
| EE-624 |
Networks and Protocols |
3 |
| EE-623 |
Wireless Communication |
3 |
| EE-625 |
Software Defined Radio |
3 |
| EE-526 |
Photovoltaic Energy Systems |
3 |
| EE-527 |
Wireless Sensor Networks |
3 |
| EE-504 |
Advanced Power Systems |
3 |
| EE-506 |
Transients in Power Systems |
3 |
| EE-507 |
Advanced Concepts in Power System Protection |
3 |
| EE-508 |
Power System Planning |
3 |
| EE-512 |
Design of Optical Transmission Systems |
3 |
| EE-513 |
Photonics Technologies (Optoelectronics) |
3 |
Award of Degree
The Department provides two types of MS degrees:MS-by-coursework-only and MS-with-Thesis.MS-by-coursework-only requires 30 credit hours(10 courses) to complete a graduation degree.While, MS-with-Thesis must require a completion of 6 credit hour MS thesis along with 24 credit hours course work (6 courses).