KAUST alumna Vasiliki Kordopati turned a student project on laser-based illumination for horticulture into a startup called Oaesis Lighting Systems. She participated in KAUST's TAQADAM Accelerator program and is now developing a pilot project in the KAUST Research and Technology Park. KAUST is focused on embedding entrepreneurship into the academic experience, minimizing risk and offering innovators room to experiment. Why it matters: KAUST is fostering a new generation of deep technology entrepreneurs in alignment with Saudi Arabia's Vision 2030 goals for economic diversification.
Three KAUST startups, iyris, Oaesis, and UnitX, were selected in the top 10 at the Startup Istanbul international competition out of 90,000 applicants. iyris secured third place with its technology, while Oaesis developed a laser-based energy-efficient lighting system for indoor farms. KAUST supports emerging companies from ideation to marketing and financial support. Why it matters: This showcases KAUST's role in fostering innovation and contributing to Saudi Arabia's knowledge-based economy by supporting promising startups on the global stage.
KAUST Professor Boon Ooi, Nobel laureate Shuji Nakamura, and colleagues are collaborating on laser-based solid state lighting (SSL) and visible light communications (VLC). The team is using gallium nitride (GaN) to develop high-performance semiconductor laser devices, leveraging nanofabrication techniques at KAUST. They demonstrated that their laser-based VLC system is over 20 times faster than LED-based Li-Fi systems. Why it matters: This research could enable faster, more energy-efficient data transmission using visible light, with potential applications in both terrestrial and underwater communication.
KAUST's New Energy Oasis (NEO) hosted an open day on May 7 to showcase its renewable energy technologies. The event featured guided tours of the NEO site, where 11 international technology providers are testing renewable energy solutions. The technologies on display included photovoltaic (PV), concentrating solar power (CSP), and dust mitigation technologies. Why it matters: This initiative helps identify and implement the most appropriate renewable energy technologies for Saudi Arabia, addressing the Kingdom's growing energy demands.
KAUST Professor of Electrical Engineering, Boon Ooi, has been elected as a Fellow of the Optical Society of America (OSA). Ooi is a professor in the Computer, Electrical and Mathematical Sciences and Engineering Division at KAUST. The fellowship recognizes his contributions to the field of optical engineering. Why it matters: This recognition highlights KAUST's growing prominence in optics and photonics research and boosts its reputation as a leading STEM institution in the Middle East.
This paper presents a UAV-UGV team designed for autonomous firefighting, developed for the Mohamed Bin Zayed International Robotics Challenge (MBZIRC) 2020. The system uses LiDAR for localization in GNSS-restricted environments and fuses LiDAR and thermal camera data to track fires. Relative navigation enables successful fire extinguishing. Why it matters: This research demonstrates the potential of robotic systems in autonomous firefighting, addressing challenges in dangerous and inaccessible environments, and advancing robotics research within the UAE.
This paper presents a decentralized multi-agent unmanned aerial system designed for search, pickup, and relocation of objects. The system integrates multi-agent aerial exploration, object detection/tracking, and aerial gripping. The decentralized system uses global state estimation, reactive collision avoidance, and sweep planning for exploration. Why it matters: The system's successful deployment in demonstrations and competitions like MBZIRC highlights the potential of integrated robotic solutions for complex tasks such as search and rescue in the region.
KAUST Professor Boon Ooi, Nobel laureate Shuji Nakamura from UCSB, and KACST researchers are collaborating on laser-based solid-state lighting (SSL) through a 2014 tripartite agreement. Their research focuses on SSL, which has the potential to be even more energy-efficient than existing LED lighting by using semiconductor lasers. Nakamura, who won the Nobel Prize in Physics in 2014 for developing blue LEDs, spoke at KAUST about the potential of SSL to improve energy efficiency further. Why it matters: This collaboration aims to advance energy-efficient lighting technologies, leveraging Nobel-winning expertise to develop solutions that could significantly reduce global energy consumption.