KAUST, in partnership with Spire Global, has successfully launched a Cubesat satellite on the SpaceX Transporter-7 mission. The satellite is equipped with a hyperspectral camera and GNSS-R sensor to collect high-resolution data on Earth's ecosystems. The collected data will help Saudi Arabia observe and characterize its natural resources, especially in terrestrial, coastal, and ocean environments. Why it matters: The satellite launch demonstrates KAUST's commitment to advancing Vision 2030 goals related to environmental protection and provides a valuable resource for scientists and collaborators to address local and regional environmental questions.
KAUST and Spire Global are collaborating on a nanosatellite mission, launching a 6U CubeSat to collect high-resolution data on global ecosystems. The satellite, equipped with GNSS-R and a hyperspectral instrument with AI capabilities, will operate for three years. KAUST researchers will use the data for mapping habitats, monitoring vegetation, studying coral reefs, and advancing precision agriculture. Why it matters: This mission will provide valuable data for environmental monitoring and support Saudi Arabia's Vision 2030 goals and the Saudi and Middle East Green Initiatives.
Communications Physics journal has a focus collection on space quantum communications. The collection covers supporting technologies, new quantum protocols, inter-satellite QKD, constellations of satellites, and quantum inspired technologies and protocols for space based communication. Contributions are welcome from October 20, 2020 to April 30, 2021, and accepted papers are published on a rolling basis. Why it matters: Space-based quantum communication is a critical area for developing secure, global quantum networks, and this collection could highlight relevant research for the GCC region as it invests in advanced technologies.
KAUST, in collaboration with the Communications, Space, and Technology Commission (CST), organized a SpaceTech Empowerment Workshop focused on Earth observation. Discussions covered regulations, future directions, opportunities, and challenges in Earth observation services, following CST's licensing of Neo Space Group for Earth observation platform services. KAUST has been a pioneer in space-based Earth observation, including developing a nanosatellite system and establishing a satellite data repository. Why it matters: The workshop and related initiatives signal Saudi Arabia's intent to foster its domestic space sector, attract investment, and leverage Earth observation technologies for various applications.
KAUST, in collaboration with CST and SSA, conducted the Space 2102 program, a space camp for over 150 Saudi youths aged 13-15. The five-day program included lectures, software training, and enrichment activities to advance participants' STEM knowledge. The program culminated in the CubeSat Challenge, where students designed CubeSat missions focused on Red Sea coral preservation. Why it matters: The initiative supports Saudi Vision 2030 by nurturing the next generation of Saudi STEM leaders and fostering interest in space exploration.
KAUST researcher Erkan Aydin is focusing his research on space-grade photovoltaics, driven by the increasing demand for low-cost solar cells due to the boom in space travel. Aydin notes that existing high-performance photovoltaics are too expensive and cannot meet the projected demand from mega-satellite constellations. He believes perovskite-tandem solar cells offer a cheaper and more scalable alternative, with the main challenge being stabilizing the cells against space extremes. Why it matters: This research aims to address a critical need in the rapidly expanding space industry, potentially positioning KAUST as a leader in developing cost-effective and scalable solar solutions for space applications.
A robotics team from KAUST's Robotics, Intelligent Systems, and Control (RISC) lab won the "Best Air Team" special award and the European Global Navigation Satellite Systems Agency special prize at the European Robotics League Emergency Robots Challenge in Sevilla, Spain. The KAUST team, led by Kuat Telegenov and advised by Professor Jeff Shamma, competed against international teams in aerial robotic challenges. The competition aimed to encourage advancements in autonomous capabilities and seamless outdoor/indoor navigation for robots. Why it matters: The awards recognize KAUST's contributions to robotics research and highlight the importance of developing autonomous systems for emergency response and complex environments.
KAUST collaborated with NASA's Langley Research Center to launch six weather balloons from KAUST's Coastal & Marine Laboratory, reaching an altitude of 35 kilometers. The balloons were equipped with instruments to measure meteorological properties and characterize the optical properties of aerosols, including a Compact Optical Backscatter Aerosol Detector (COBALD). The research focuses on understanding the impact of dust aerosols on the Arabian Peninsula, including their effects on climate, air quality, and solar energy. Why it matters: This collaboration advances understanding of atmospheric aerosols in the region, with implications for climate modeling, solar energy efficiency, and Red Sea ecosystems.