KAUST and the Marine Technology Society (MTS) have formed the MTS Red Sea Section, the first MTS Section in the Middle East. KAUST hosted the MATE ROV Red Sea Regional competition and RobotoKAUST, sponsored by the MTS Red Sea Section. Saudi Arabia is investing heavily in the Blue Economy, and KAUST is positioning itself at the forefront of marine science and technology for the Red Sea. Why it matters: This partnership and KAUST's activities will foster marine technology development and talent growth in the region, aligning with Saudi Arabia's Blue Economy initiatives.
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.
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.
Cindy Lee Van Dover, a professor at Duke University, spoke at KAUST's Winter Enrichment Program in 2017 about the blue economy. The blue economy refers to the sustainable use of ocean resources for economic growth, improved livelihoods, and jobs while preserving the health of ocean ecosystems. Why it matters: This highlights KAUST's interest in marine science and sustainable development related to ocean resources.
KAUST researchers developed a hybrid wireless communication system for non-invasive monitoring of marine animals, consisting of a lightweight, flexible, Bluetooth-enabled tag that stores sensor data underwater. The tag syncs data to floating receivers when the animal surfaces, which then relays the data via GSM or drones. The system is a collaboration between the Red Sea Research Center and KAUST's electrical engineering department. Why it matters: This technology provides researchers with detailed, near real-time data about marine animals, overcoming the limitations of invasive and impractical traditional tagging methods.
A KAUST-led meta-study published in Science examines the increasing ocean noise pollution from human activities like shipping and seismic blasting. The study synthesizes findings from 10,000 papers, revealing that anthropogenic noise interferes with marine animals' communication and ecological processes. The research highlights the need for policymakers to address this issue for ocean health and sustainable economies. Why it matters: Understanding and mitigating ocean noise pollution is crucial for preserving marine ecosystems and the biodiversity of the Red Sea.
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 marine biologist Maggie Johnson is studying how to accurately measure environmental conditions to optimize coral restoration, focusing on temperature and light. She highlights the variability in precision and accuracy of commercially available instruments for measuring these parameters. Johnson notes that some instruments fail in the Red Sea's warm temperatures and high salinity, providing incorrect data. Why it matters: Accurate environmental monitoring is crucial for the success of coral reef restoration efforts in the face of climate change, especially in extreme environments like the Red Sea.