As companies like Tesla, Figure AI, and Agility Robotics race to build humanoids—robots designed to resemble and move like ...

In its decades-long quest to mimic life, robotics has never had much trouble duplicating its brute force. Machines have long been capable of moving vehicles, assembling chips, and reaching the far ...

MIT engineers have quietly solved one of the biggest bottlenecks in living-tissue robotics, creating synthetic tendons that let soft muscle pull on hard plastic with far more force and control. By ...

Daniela Rus has spent her career breaking barriers—scientific, social, and material—in her quest to build machines that amplify rather than replace human capability. She made robotics her life’s work, ...

Why would you want a robot to see inside a sealed box? Digging deeper beyond the initial creepy thought, a new breakthrough from MIT could soon let warehouse robots do something pretty remarkable.

Add Yahoo as a preferred source to see more of our stories on Google. MIT and NVIDIA Research researchers have developed a powerful new algorithm that drastically accelerates how robots plan their ...

eSpeaks’ Corey Noles talks with Rob Israch, President of Tipalti, about what it means to lead with Global-First Finance and how companies can build scalable, compliant operations in an increasingly ...

Inside a giant autonomous warehouse, hundreds of robots dart down aisles as they collect and distribute items to fulfill a ...

South Korea's Naver Corporation is teaming up with the Massachusetts Institute of Technology (MIT) to develop a bipedal humanoid robot, highlighting the nation's accelerating push into physical AI.

Engineers designed a wristband that enables wearers to control a robotic hand with such dexterity that it can play the piano.

At the Robotics Summit, MIT's Tedrake will share his vision for how physical AI can unlock more capable, adaptable robots ...