Projects
LoRaWAN Gateway Mesh: Experimental Evaluation and Protocol Analysis
Hands-on evaluation of the RAK and ChirpStack LoRaWAN Gateway Mesh protocol, focusing on real hardware testing, system design, and performance limitations.
Hands-on evaluation of the RAK and ChirpStack LoRaWAN Gateway Mesh protocol, focusing on real hardware testing, system design, and performance limitations.
Super-LoRa: Making Long-Range IoT Faster and Smarter
Super-LoRa is a novel design that multiplies data rates for long-range IoT while staying low-power and practical, validated on real software-defined radios and campus-wide experiments.
Super-LoRa is a novel design that multiplies data rates for long-range IoT while staying low-power and practical, validated on real software-defined radios and campus-wide experiments.
DTN for Rural Connectivity via Public Transport Systems
DTN architecture that uses public transport as data mules to deliver Internet-like connectivity to remote areas.
DTN architecture that uses public transport as data mules to deliver Internet-like connectivity to remote areas.
DTN for Equitable Digital Learning in Rural Areas
DTN framework that delivers digital learning content to rural communities by leveraging transport-based data mules.
DTN framework that delivers digital learning content to rural communities by leveraging transport-based data mules.
Hybrid RF/FSO Maritime Connectivity: Connecting Remote Islands
Real-world deployment of hybrid Free Space Optics and Radio Frequency links to deliver 20 Gbps connectivity to a remote island 19 km offshore in the Red Sea.
Real-world deployment of hybrid Free Space Optics and Radio Frequency links to deliver 20 Gbps connectivity to a remote island 19 km offshore in the Red Sea.
TV White Space IoT Deployment with Microsoft Research
Joint KAUST–Microsoft Research field deployment of TV White Space IoT radios, demonstrating long-range, low-power connectivity for real-world sensing applications.
Joint KAUST–Microsoft Research field deployment of TV White Space IoT radios, demonstrating long-range, low-power connectivity for real-world sensing applications.
RIS-Assisted Visible Light Communication for Outdoor Applications
Pioneering research on using Reconfigurable Intelligent Surfaces (RIS) to overcome line-of-sight blockage and enhance reliability in outdoor visible light communication systems, with applications in UAV networks, V2X communications, and smart cities.
Pioneering research on using Reconfigurable Intelligent Surfaces (RIS) to overcome line-of-sight blockage and enhance reliability in outdoor visible light communication systems, with applications in UAV networks, V2X communications, and smart cities.