The average two-legged machine does not have Kengoro’s stamina. For a svelte robot, Kengoro is strong, powered by 108 motors. Thanks to this large number of motors plus a unique metal frame ...

When you consider all of the ways that humanoid robots are better than actual humans — they’re stronger, faster, and don’t complain when they stub … ...

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.

University of Tokyo’s bio-inspired Kengoro robot can perform labor-intensive tasks for longer, thanks to a ‘sweating system’ that moves through its frame, preventing its motors from overheating.