About Us
History
Mission and Vision
Advisory Board

Administration
Department Chair
Deputy Department Chair
Commissions

Staff
Academic

Undergraduate
About
Objectives and Outcomes
Curriculum
Course Content
Double Major and Minor
Exchange Programs
Course Information Package
Internship

Documents
Academic Calendar

Program Objective
The undergraduate program in Electrical and Electronics Engineering aims to provide students with knowledge and skills in areas such as digital and analog electronics, large-scale integration, measurement and control systems, computers and embedded systems, semiconductor materials, microelectromechanical systems, nanotechnology, signal processing, biomedical systems, microwaves and antennas, telecommunication systems, fiber optic communication, photonics, electrical machines, renewable energy, and power electronics.
In addition, the department aims to train a new generation of engineers who can apply their knowledge in practice, design and manage industrial or academic projects, and develop engineering solutions to overcome technological challenges.

Program Outcomes

  1. Gain sufficient knowledge in mathematics, science, and engineering; apply this knowledge to model and solve engineering problems.

  2. Identify, analyze, and develop solutions for complex engineering problems; choose and apply appropriate analysis and modeling methods.

  3. Design and implement complex systems, devices, or processes under realistic constraints and conditions to meet specific requirements; use modern design methods.

  4. Design experiments for engineering problems, conduct experiments, collect data, analyze and interpret results.

  5. Select and effectively use modern techniques, tools, and information technologies required for engineering applications.

  6. Work individually and in disciplinary and interdisciplinary teams; communicate effectively in written and oral form; write technical reports and make presentations.

  7. Understand fundamental concepts related to professional life such as project management, risk management, change management, entrepreneurship, and sustainability.

  8. Act in accordance with ethical principles in engineering applications; gain awareness of social responsibility and environmental sensitivity.

  9. Follow developments in science and technology; access information and maintain individual development.

  10. Acquire knowledge in advanced mathematics topics such as probability and statistics, calculus, linear algebra, differential equations, and complex variables for use in electrical and electronics applications.

  11. Gain knowledge in electric circuits, signal processing, power electronics, and electromagnetic field theory; analyze, design, and implement complex electronic systems; optimize their performance using modern methods.

  12. Gain competence in telecommunications, modulation techniques, wireless communication protocols, network structures, and security and data management for IoT systems.

  13. Acquire skills in conducting experiments, collecting data, and interpreting results in electrical and power systems.