We are pleased to announce a new initiative by the Optical Communication Research Group at the University of Jordan, aimed at supporting and supervising student research and graduation projects.
As part of our ongoing commitment to academic excellence and innovation, our group will provide guidance, mentorship, and technical support to undergraduate and graduate students working on topics related to optical and photonic communication systems. These projects will offer students a valuable opportunity to apply theoretical knowledge to real-world challenges, explore cutting-edge technologies, and contribute to ongoing research within our group.
By engaging with our research team, students will gain hands-on experience, enhance their research skills, and be better prepared for future academic or industry careers in the field of communication engineering.
We look forward to working closely with our students and empowering them to explore new ideas, develop impactful solutions, and become future leaders in optical communication.
1- Our students ( Waseem Abdelrahman and Abdallah Mherat ) implemented a project related to the VLC in a title of ( Avoidance collision system using VLV technology),
An avoidance collision system using visible light technology leverages visible light communication (VLC) to enhance vehicle safety by enabling real-time, high-speed data exchange between vehicles and infrastructure. Unlike traditional radio frequency-based systems, VLC utilizes LED headlights and taillights to transmit signals, ensuring reliable, low-latency communication without electromagnetic interference. This technology allows vehicles to detect potential obstacles, exchange critical information such as speed and direction, and issue timely warnings to prevent collisions. With the increasing demand for intelligent transportation systems and autonomous driving, VLC-based collision avoidance offers a cost-effective, energy-efficient, and highly secure solution for improving road safety and reducing accidents.
2- (Ahmad Soubani, Emran Zareer, and Yacoub Othman )
have been studied the 5G system properties.
The properties of 5G systems play a crucial role in shaping the future of wireless communication by offering ultra-fast data speeds, low latency, and massive connectivity. With enhanced mobile broadband (eMBB), 5G supports high-speed internet for applications such as HD video streaming, virtual reality (VR), and cloud computing. Additionally, its ultra-reliable low-latency communication (URLLC) ensures real-time responsiveness, making it ideal for autonomous vehicles, remote surgery, and industrial automation. The massive machine-type communication (mMTC) feature enables seamless connectivity for billions of IoT devices, driving smart cities and smart industries. Furthermore, 5G’s advanced spectrum efficiency, network slicing, and beamforming enhance coverage, capacity, and energy efficiency, making it a transformative technology for next-generation communication networks.
On Going Projects
Our students Mamoun Rahhal and Nuha tareq are currently working on implementing a project titled "Smart Parking System based on IOT" Design and Implementation of Smart Parking System based on Internet of Things (IoT) that combines modern technologies (sensors, smart devices, and wireless communication) to improve parking management efficiency and reduce congestion. This IoT-based smart parking system integrates connectivity and sensing technologies to provide real-time parking availability, automated control, and guided navigation. Its dynamic and self-adapting operations ensure efficient parking management, while its self-configuring and scalable architecture supports heterogeneous IoT devices. With unique identity assignment, the system enhances monitoring and data management, and enhanced network stability reduce operational costs and improve the user experience. Overall, this system streamlines parking operations, reducing congestion and optimizing space.