MBZUAI Professor Yoshihiko Nakamura discusses his career in robotics, starting from its early days as a field. He notes the initial skepticism towards robotics as an academic discipline in the 1970s and its gradual formalization. Nakamura's research is driven by the mathematics of movement, optimization, and non-linearity, drawing inspiration from neuroscience, psychology, and linguistics. Why it matters: Nakamura's insights provide a historical perspective on the evolution of robotics research and highlight the interdisciplinary nature of the field, with implications for the future of AI development in the region.
Yoshihiko Nakamura from the University of Tokyo discusses the computational challenges of humanoid robots, extending beyond sensing and control to understanding human movement, sensation, and relationships. The talk covers recent research on mechanical humanoid robots with a focus on actuators and computational problems related to human movements. Nakamura highlights the need for humanoid robots to interpret human actions and interactions for effective application. Why it matters: Addressing these computational challenges is crucial for developing more sophisticated and human-compatible robots for use in various human-centered applications within the region and globally.
Professor Cesare Stefanini of MBZUAI discusses his journey from Pisa to global prominence in robotics. He credits his time at Scuola Superiore Sant’Anna and mentorship from Paolo Dario for shaping his career. Stefanini won an international robotics competition in Japan, which inspired him to pursue a Ph.D. and further research. Why it matters: This highlights MBZUAI's commitment to attracting top international talent in robotics and fostering innovation in healthcare technology.
Tetsunari Inamura's talk explores using VR to collect HRI data and tailor assistive robotic functionalities to individual users. He discusses symbol emergence via multimodal interaction, interactive behavior generation through symbol manipulation, and VR for data collection. The talk emphasizes long-term human capability enhancement and avoiding over-reliance on technology. Why it matters: This research promotes independence and growth in human-robot interactions, potentially revolutionizing assistive technologies in the region.
Professor Cesare Stefanini will discuss the relationship between AI and natural systems, highlighting robotics inspired by nature. His talk will cover neuro-inspired robot control, bio-hybrid ecosystems, and advancements in biomedical and industrial robotics. Stefanini will share achievements in underwater robot locomotion, AI-powered biomedical systems, and industrial platforms enhancing human manipulation. Why it matters: The talk at Khalifa University reflects the UAE's interest in bio-robotics research and integrating AI into various sectors, potentially fostering collaborations and advancements in the field.