The robots of 2025 are a significant step towards that future, blurring the lines between what machines can do and what we ...

The Figure 02 humanoid robot, developed by the innovative company Figure, represents a significant advancement in the fields of artificial intelligence, computer vision, and robotics. This innovative ...

Built to measure the movement, location or displacement of an object along a linear or rotational path, position sensing in humanoid robots is needed to detect movement and convert it into signals ...

1X Robotics, backed by OpenAI, has unveiled the Neo beta, a humanoid robot demonstrating advanced movement and agility. The robot’s fluidity and human-like actions have sparked discussions about its ...

Phase-change actuation has been revived for the era of untethered, electrically driven soft robots. Our team at the University of Coimbra have developed a phase transition soft actuator designed to ...

At ETH Zurich's Robotic Systems Lab, engineers have created ANYmal-D, a four-legged robot that can play badminton with people. This project brings together robotics, artificial intelligence and sports ...

Humanoid robots are becoming more human-like and reliable due to advances in multiple facets of electronics, from artificial intelligence (AI) to cameras to sensors and actuators. These robotic ...

What happens when artificial intelligence (AI) moves from painting portraits to designing homes? That question is no longer theoretical. At the Utzon Center in Denmark, Ai-Da Robot, the world's first ...

Designing robots requires precision and flexibility. When creating a humanoid robot system, there are mechanical and electrical considerations that you need to understand before beginning the actual ...