MBZUAI Professor Sami Haddadin and his team developed a new framework called Tactile Skills to teach robots manual skills through touch and trial and error. This framework aims to address the gap in robots' ability to learn basic physical tasks compared to AI's advancements in language and image generation. The research, published in Nature Machine Intelligence, focuses on enabling robots to perform manipulation skills at industrial levels with low energy and compute demands. Why it matters: This research could lead to robots capable of performing household maintenance, industrial tasks, and even assisting in medical or rehabilitation settings, potentially solving labor shortages in various sectors in the region and beyond.
Michael Yu Wang, Chair Professor and Founding Dean of the School of Engineering at Great Bay University, argues for combining "good old fashioned engineering" (GOFE) with learning-based approaches like LLMs for robot skill acquisition, particularly in manipulation. He suggests a modular framework that integrates engineering principles with learning, drawing inspiration from human hand-eye coordination and tactile perception. Wang emphasizes the need to address engineering features of robot tactile sensors, such as spatial and temporal resolutions, to achieve human-like robot manipulation skills. Why it matters: This perspective highlights the importance of hybrid approaches combining traditional engineering with modern AI for advancing robotics, especially in complex manipulation tasks relevant to industries in the GCC region.
Lorenzo Jamone from Queen Mary University of London presented on cognitive robotics, focusing on tactile exploration and manipulation by robots. The talk covered combining biology, engineering, and AI for advanced robotic systems. Jamone directs the CRISP group and has over 100 publications in cognitive robotics. Why it matters: This highlights the ongoing research into more sophisticated robotic systems that can interact with complex environments, an area crucial for future applications in manufacturing and human-robot collaboration in the GCC.
MBZUAI researchers have developed "Tactile Skills," a new embodied AI framework enabling robots to rapidly learn complex tactile tasks. The framework combines expert process knowledge with reusable tactile control and adaptation components, reducing reliance on extensive datasets. Tested on 28 industrial tasks, the robots achieved nearly 100% success, demonstrating adaptability to changing conditions. Why it matters: This breakthrough offers a practical and scalable approach to robotic automation, potentially transforming robots into adaptable assistants across diverse industries in the GCC.
KAUST students participated in a "Design and Build Your Own Robot" workshop as part of the University's 2016 Winter Enrichment Program (WEP). Students were divided into teams to design, fabricate, and test robotic systems, covering mechanical design, electronics development, and embedded programming. The seven robots developed were then showcased in a competitive race during the annual WEP Science Fair. Why it matters: This hands-on experience in robotics provides students with practical skills and fosters interest in STEM fields, contributing to the development of a skilled workforce in Saudi Arabia.
KAUST's Machinist Development Apprenticeship Program (MDAP) graduated its second cohort in August 2020, training Saudi nationals in advanced manufacturing technologies. The 18-month program provides in-depth training at the Workshops Core Lab in collaboration with Yanbu Industrial College. Graduates acquire skills to contribute to Saudi Arabia's Vision 2030 in the manufacturing sector. Why it matters: This program addresses the need for skilled local talent in advanced manufacturing, crucial for diversifying the Saudi economy and achieving its Vision 2030 goals.
KAUST's Workshop Core Lab has upgraded its scientific glassblowing workshop with advanced equipment like precision lathes and coating machines. The facility produces bespoke scientific glass equipment for KAUST researchers using borosilicate and quartz glass. Senior glassblowers Ernest Neil Davison and Emilio Harina create intricate designs from prototype sketches. Why it matters: This enhances KAUST's research capabilities by providing high-quality, specialized glassware that Davison claims rivals that of other top universities globally.
A talk at the Directed Energy Research Center (DERC) at TII will discuss rapid prototyping using laser-cutting facilities available at MakerSpace in Al Zeina. The talk will cover constructing prototypes from wood and acrylic and compare this approach to traditional 3D printing. The speakers will also describe the impact of the ‘4th Industrial Revolution’ on manufacturing in the UAE, and how makerspaces can contribute to Operation 300bn. Why it matters: This highlights the UAE's focus on advanced manufacturing and the role of makerspaces in fostering innovation and developing local capabilities.