Technology Innovation Institute (TII) has launched a state-of-the-art research facility within its Directed Energy Research Center (DERC) in Abu Dhabi's Tawazun Industrial Park. The facility includes seven workshops and five specialized laboratories focusing on areas like High-Power ElectroMagnetics (HPEM), acoustics, and laser development. It can accommodate 150 researchers and provides research and testing services to local industries, including Radio Frequency testing and acoustic experiments. Why it matters: This new facility enhances the UAE's research infrastructure and supports the development of advanced technologies for regional industries in the safety and security sector.
Technology Innovation Institute (TII) has launched Electromagnetic Compatibility (EMC) laboratories in Abu Dhabi, the first such facility in the Arab world. The facility at TII's Directed Energy Research Center (DERC) includes three labs: an EMC semi-anechoic chamber, a pulsed power laboratory, and a low-noise emanation laboratory. These labs will enable evaluation of technologies against electromagnetic interference and support in-country R&D and local industry in line with UAE's 'Operation 300bn'. Why it matters: This advanced infrastructure signals the UAE's commitment to fostering innovation in electronics and related sectors, reducing reliance on foreign testing and certification.
KAUST's Laboratory of Stem Cells and Diseases, led by Assistant Professor Antonio Adamo, uses induced pluripotent stem cells (iPSCs) to model diseases like diabetes. The lab employs a reprogramming technique to revert patient fibroblasts into iPSCs, enabling the study of disease progression in vitro. Adamo's research focuses on enzymes and disregulated transcriptional/epigenetic mechanisms to understand disease onset. Why it matters: This research contributes to regenerative medicine and offers insights into metabolic diseases relevant to the GCC region.
The Technology Innovation Institute (TII) describes itself as a leading global research center. TII's teams work to deliver discovery science and transformative technologies. The announcement appeared on the TII's research blog, ResearchHub. Why it matters: This blog provides a channel to monitor TII's contributions to AI research and development in the UAE.
KAUST's Workshops Core Lab launched the first scientific glassblowing apprenticeship program in Saudi Arabia. The program trains Saudi apprentices in the specialized skills of scientific glassblowing, essential for creating and repairing glassware used in research. Apprentices Faisal Nour and Mohammed Al-Amri began training in 2020 and will undergo 7,000 hours of mentorship. Why it matters: This initiative addresses a critical gap in scientific infrastructure and expertise within Saudi Arabia, fostering self-sufficiency in research support and potentially establishing KAUST as a regional center for glassblowing consultation.
KAUST is focused on optimizing scientific research through IT, including high-performance computing and supercomputing. KAUST's CIO, Jason Roos, emphasizes that IT at KAUST prioritizes research support, drawing from his experience in mission-critical IT in healthcare. KAUST houses Shaheen II, the fastest supercomputer in the Middle East, managed with state-of-the-art facilities. Why it matters: This focus enhances KAUST's research capabilities, providing resources on par with national labs and attracting top talent in science and technology to the region.
KAUST has launched vFabLab™, its first virtual lab, to provide online distance learning for semiconductor fabrication. The virtual environment trains users on end-to-end device fabrication sequences using CMOS technology. Developed by KAUST's CEMSE division, each training session includes an interactive Q&A. Why it matters: This virtual lab expands access to crucial experimental modules in semiconductor fabrication, particularly benefiting students and enthusiasts lacking access to expensive cleanroom facilities in the region.
Researchers at TII, in cooperation with University Paderborn and Ruhr University Bochum, have discovered a vulnerability called the Opossum Attack in Transport Layer Security (TLS) impacting protocols like HTTP(S), FTP(S), POP3(S), and SMTP(S). The vulnerability exposes a risk of desynchronization between client and server communications, potentially leading to exploits like session fixation and content confusion. Scans revealed over 2.9 million potentially affected servers, including over 1.4 million IMAP servers and 1.1 million POP3 servers. Why it matters: This discovery highlights the importance of ongoing cybersecurity research in the UAE and internationally to identify and address vulnerabilities in fundamental internet protocols, especially as it led to immediate action by Apache and Cyrus IMAPd.