|
- Robotics | MIT News | Massachusetts Institute of Technology
Robotic system zeroes in on objects most relevant for helping humans A new approach could enable intuitive robotic helpers for household, workplace, and warehouse settings April 24, 2025 Read full story →
- Watch this terrifying robotic torso spring into life
The robotic torso is mounted to a human-like pelvis and topped with a head-like appendage It has a rigid spine, a solid rib cage and ghostly white "skin" reminiscent of the work-in-progress
- Robots: Facts about these programmable and autonomous machines | Live . . .
NASA's Voyagers 1 and 2 robotic spacecraft have left the solar system and entered interstellar space in 2012 and 2018, respectively That means Voyager 1, at 15 6 billion miles (25 6 billion
- This fast and agile robotic insect could someday aid in mechanical . . .
The robotic insect, which weighs less than a paperclip, can fly significantly faster than similar bots while completing acrobatic maneuvers like double aerial flips The revamped robot is designed to boost flight precision and agility while minimizing the mechanical stress on its artificial wing flexures, which enables faster maneuvers
- Hydrogen-powered robot horse could one day take you up a mountain . . .
Japanese engineers have unveiled a concept design of the Corleo, a four-legged robotic horse that could one day carry people across a vast range of terrains
- New system enables robots to solve manipulation problems in seconds
And when deployed on a real robotic arm, the algorithm always found a solution in under 30 seconds The system works across robots and has been tested on a robotic arm at MIT and a humanoid robot at NVIDIA
- Robotics: News, features and articles | Live Science
Unitree's G1 demonstrates a new level of robotic agility with a complex movement following an AI software update Robotics Watch eerie video of humanoid robot 'army' marching naturally, thanks to
- Robotic hand can identify objects with just one grasp
Many robotic hands pack all their powerful sensors into the fingertips, so an object must be in full contact with those fingertips to be identified, which can take multiple grasps Other designs use lower-resolution sensors spread along the entire finger, but these don’t capture as much detail, so multiple regrasps are often required
|
|
|