The Robotics, Intelligent Systems, and Control (RISC) lab at KAUST is developing swarm robotics, enabling robots to work together on collaborative tasks with limited human supervision. RISC is using game theory to improve how robots make coordinated decisions in scenarios like engaging intruders or tracking oil spills. The lab is also researching programmable self-assembly for robot swarms. Why it matters: This research advances autonomous multi-agent systems for critical applications like search and rescue and environmental monitoring in the region.
TII's Secure Systems Research Center (SSRC) has become a strategic member of RISC-V International to advance the development of open-source Instruction Set Architecture (ISA) for computer chips. SSRC aims to contribute to the RISC-V community by developing security and resilience features in processors and platforms, fostering innovation in end-to-end security. SSRC will conduct open source research to secure communications between edge devices and cloud infrastructure, and harden device hardware and software to prevent malware. Why it matters: This move enables the UAE to have greater control and independence in computing platform design, reducing reliance on proprietary architectures and enhancing security and resilience in critical infrastructure.
TII's Secure Systems Research Center in Abu Dhabi has integrated a secure PX4 stack into a RISC-V based drone, marking a milestone in making RISC-V UAV systems a reality. The center ported DroneCode's PX4 open source software to RISC-V using a commercially available RISC-V development platform. SSRC aims to improve the security and resilience of the PX4 flight control software and NuttX real-time OS, contributing modifications back to the open-source community. Why it matters: This achievement enhances TII's position in drone and autonomous systems research, contributing to safer and more efficient smart city applications in the region.
QRC has developed Qibo, a Python library enabling classical simulation of quantum algorithms with double precision. Qibo leverages hardware accelerators like GPUs and CPUs with multi-threading. It incorporates a multi-GPU distributed approach for circuit simulation. Why it matters: This framework allows researchers and developers in the region to explore and prototype quantum algorithms using existing classical computing infrastructure, fostering innovation in quantum computing research and applications.
The Secure Systems Research Center (SSRC) has partnered with the University of New South Wales (UNSW Sydney) to research enhancements and scaling of the seL4 microkernel on edge devices. The collaboration aims to extend the seL4 microkernel to support dynamic virtualization, combining minimal trusted computing base with strong isolation. This will address challenges related to heterogeneous hardware, software, and environmental factors in edge computing. Why it matters: This partnership aims to improve the security of edge devices in critical sectors, addressing vulnerabilities in cyber-physical and autonomous systems.
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.
TII's Secure Systems Research Center (SSRC) is partnering with Khalifa University, University of Modena and Reggio Emilia, University of Bologna, University of Waterloo, and McMaster University to develop a RISC-V-based secure flight computer system. The project aims to create an open RISC-V-based System on a Chip (SoC) architecture and software stack for secure application processors in drone flight computers. The collaboration seeks to improve performance, efficiency, reliability, and security relative to current commercial flight computer systems. Why it matters: This international collaboration strengthens the UAE's position in advanced hardware and software co-design for critical applications like drone technology, while also fostering local expertise through partnerships with UAE universities.
TII's Secure Systems Research Center (SSRC) has developed 'Shaheen', the UAE's first RISC-V-based System-on-Chip (SoC), in collaboration with Khalifa University and other global partners. Shaheen is a test chip for drone flight control, incorporating features like a hypervisor extension, Zero Trust security, and a PULP ML accelerator. It serves as a pilot version for the Al Saqr SoC planned for 2023. Why it matters: This achievement provides the UAE with the foundational knowledge for domestic silicon manufacturing, promoting high-skilled jobs and autonomy in critical technology sectors like UAV security.