Program Aim

Program Educational Objectives

The PhD program in Electrical Engineering Techniques aims to enable graduates to:

Conduct pioneering research that contributes to advancing knowledge and practice in the field of electrical engineering, particularly through developing the electrical power system by integrating renewable energy sources and advanced smart-grid applications.
Demonstrate scientific leadership in addressing complex challenges within the electrical infrastructure using advanced engineering and digital tools.
Contribute effectively to academic institutions—especially those affiliated with the Ministry of Electricity—as well as industrial sectors through interdisciplinary collaboration and innovation.
Publish in reputable scientific journals and participate in international conferences that promote the adoption of sustainable energy.
Adhere to the standards and ethics of publication in high-quality professional journals.

Second: Program Learning Outcomes

1- Advanced Knowledge

The graduate possesses deep and advanced knowledge in electrical engineering applications and their underlying scientific principles, with the ability to analyze complex engineering problems and develop innovative solutions.

2- Research Skills

The graduate is capable of conducting advanced scientific research using rigorous research methodologies, data analysis, experiment design, and developing accurate models and simulations of electrical systems.

3- Advanced Engineering Problem-Solving

The graduate develops new systems and technologies in areas such as electrical power, electronics, control systems, renewable energy, smart grids, and other related fields in accordance with recent scientific advancements.

4- Communication and Leadership

The graduate possesses effective skills in writing scientific research and publishing it in reputable journals, in addition to strong presentation skills and the ability to lead research teams.

5- Ethics and Professional Responsibility

The graduate adheres to professional ethics in scientific research and engineering, demonstrating high responsibility in handling data, maintaining academic integrity, and complying with safety standards.

6- Innovation and Entrepreneurship

The graduate is capable of employing engineering knowledge to develop innovative and applicable industrial solutions, and to support scientific initiatives that contribute to economic and sustainable development.

7- Self-Development and Lifelong Learning

The graduate is capable of continuous learning and keeping up with modern developments in electrical engineering sciences and their associated technologies.