Research Laboratories
The research laboratories under the Electrical Engineering Program at Prince Sultan University play a vital role in supporting the university's mission to foster innovation, enhance education, and prepare students for future challenges. The program encompasses three key laboratories: the Smart Systems Engineering Laboratory (SSEL), the Renewable Energy Laboratory (REL), and the Electromagnetics Research Group (EMG). These laboratories serve as hubs for cutting-edge research and practical learning, offering students opportunities to engage in hands-on projects and real-world applications that complement their academic studies. Aligned with the university’s commitment to academic excellence and societal.

Smart Systems Engineering Laboratory

Smart Systems Engineering Lab
The Smart Systems Engineering Laboratory (SSEL) is dedicated to addressing key societal and industrial challenges through advanced research and development. Its focus spans cutting-edge fields such as the Internet of Things (IoT), Embedded Systems, Automation, Robotics, Artificial Intelligence (AI), Machine Learning (ML), Fiber Optics, and the transformative technologies of 5G and 6G. By fostering innovation, the Laboratory aims to develop practical, impactful solutions that enhance efficiency, connectivity, and automation across various sectors.

Renewable Energy Laboratory

Renewable Energy Lab
The Renewable Energy Laboratory (REL) is committed to pioneering research and innovation in sustainable energy technologies. Its focus areas include solar energy systems, energy storage solutions, wind power, and energy efficiency improvements. The Laboratory aims to address global energy challenges by fostering collaboration, advancing technology, and promoting environmental sustainability.

Electromagnetics Research Group

Electromagnetics Research Group
The Electromagnetics Research Group (EMG) focuses on practical applications in applied electromagnetics, engaging in a range of innovative projects. The group's research includes software-defined radio (SDR), radio astronomy, antennas and wave propagation, RF, microwave and mmWave systems. EMG also explores the potential of 3D printed millimeter-wave components and radar signal processing. Each project is supported by vector network analyzer (VNA) measurements, ensuring accuracy and practical relevance in their outcomes. This approach allows EMG to contribute effectively to both the theoretical and practical dimensions of electromagnetics, aiming to enhance the development and implementation of sustainable technological systems.