Stanford's Robotics Laboratory, in collaboration with KAUST professors Khaled Nabil Salama and Christian Voolstra and MEKA Robotics, developed OceanOne, a bimanual underwater humanoid robot avatar with haptic feedback. OceanOne allows human pilots to explore ocean depths with high fidelity by relaying instantaneous images. The robot has two fully articulated arms and a tail section with batteries, computers, and thrusters. Why it matters: This collaboration between KAUST and Stanford highlights the increasing role of robotics and AI in deep-sea exploration, with potential applications in underwater research and resource discovery in the Red Sea and beyond.
KAUST, Stanford University, and Meka Robotics are collaborating on a new underwater robotic platform called the Red Sea Robotics Exploratorium. The project aims to create a robotic avatar diver that can explore deep-sea coral reefs with greater dexterity than existing underwater vehicles. The robot will address the limitations of current ROVs, which are large and difficult to operate in confined spaces. Why it matters: This technology could significantly advance marine research in the Red Sea and other challenging underwater environments, enabling more detailed exploration and sample collection of unique deep-sea ecosystems.
VentureOne, part of Abu Dhabi's Advanced Technology Research Council (ATRC), launched Nabat, a climate tech venture using AI and robotics for ecosystem restoration. Nabat employs drones, AI-powered software, and flexible seeding to conserve and restore mangroves, aiming to cover thousands of hectares in the UAE over seven years. Their technology enables precision mapping, seeding, and monitoring in remote areas. Why it matters: This initiative showcases the UAE's commitment to using advanced technology for environmental conservation and climate resilience, particularly in preserving vital ecosystems like mangroves, while also highlighting the growing AI startup ecosystem in the region.
KAUST researchers are using autonomous gliders in the Red Sea to monitor variables such as temperature, salinity, and chlorophyll, providing continuous, detailed measurements of the sea's physical and biogeochemical processes. These gliders can measure a number of variables, including temperature, salinity, chlorophyll, and concentration of dissolved organic matter. One glider was deployed for three months and monitored the formation of mesoscale eddies and anthropogenic inputs from aquaculture. Why it matters: This technology allows for a more comprehensive understanding of the Red Sea ecosystem and its dynamics, benefiting research and applications such as monitoring the impact of aquaculture, with potential implications for environmental management and sustainable resource utilization.
KAUST has announced a collaboration with Ocean Aero and Shelf Subsea to enhance Red Sea research using autonomous underwater and surface vehicles (AUSVs). Ocean Aero's Triton Generation III AUSV, which can sail and submerge for long-range data collection, will be customized with sensors for KAUST's Red Sea Research Center. KAUST's CEMSE division will integrate AI and IoT features into the vehicles. Why it matters: This partnership will advance KAUST's marine research capabilities and contribute to the understanding of the Red Sea's unique environment, aligning with Saudi Arabia's Vision 2030 and the UN's Ocean Science Decade.
The Autonomous Robotics Research Center (ARRC) is developing underwater communication systems, including a multimode modem prototype, and has filed three patents. One key technology is the Universal Underwater Software Defined Modem (UniSDM), which supports sound, magnetic induction, light, and radio waves. ARRC also developed a network management framework for automatic network slicing (ANS) of communication resources. Why it matters: These advancements are crucial for improving underwater exploration, industrial maintenance, and marine monitoring in the region, enabling more efficient and reliable communication for underwater robots.
A glider deployed by KAUST's Coastal and Marine Resources Core Lab (CMOR) completed 1,000 dives in the Red Sea. The dives, completed by November 22, 2015, are part of ongoing marine research at KAUST. The glider is maintained by Lloyd Smith, supervisor of marine electronics at CMOR. Why it matters: This demonstrates KAUST's commitment to environmental monitoring and research in the Red Sea, contributing to a better understanding of the region's unique marine ecosystem.
KAUST and Fugro N.V. have inaugurated the KAUST – Fugro Center of Excellence (CoE) for Marine Technology. Fugro will provide access to advanced technologies for data collection in previously inaccessible sites of the Red Sea. They will also establish an ROV Training Academy (ROVTA) at KAUST to train Saudi students as ROV pilots and engineers. Why it matters: This partnership will enhance KAUST's marine research capabilities, support industrial partners, and advance the development of subsea research technologies in the region.