As humanoid robotics approach commercialization, developers are still working to improve navigation, manipulation, and skills learning.

Delve into the intersection of robotics and architecture, where technology meets material experimentation to redefine human–machine interaction.

In addition to humanoid robots from Agibot, Boston Dynamics, Leju, and Unitree, AW 2026 showed opportunities for physical AI in South Korea.

Overview AI software layer now determines robot productivity, scalability, and adaptability across dynamic industrial environments globally.Hardware is standard ...

The human body evolved for survival, not industry. The high center of gravity, complex joints and 200+ degrees of freedom make humanoid robots less reliable than purpose-built alternatives. Existing ...

Dr. Dutkiewicz and Dr. Rosenberg are the authors of the forthcoming book “Feed the People: Why Industrial Food Is Good and How to Make It Even Better.” Between the social media influencers extolling ...

Abstract: Fast motion and low vibration are often conflicting requirements in industrial robots. Due to joint flexibility, operating at high accelerations can excite mechanical resonance, leading to ...

Close cooperation in flight between vertically stacked multirotor drones is widely regarded as dangerous, because there is persistent and intense ‘downwash’ interference. A ‘flying toolbox’ has been ...

Abstract: This paper presents the development of a digital twin for an industrial robotic manipulator using the Robot Operating System and the Unified Robot Description Format. The digital twin ...