Robots include a wide variety of machines, such as the giant arms used to make cars, automatic vacuum cleaners, humanoid machines that look like people and do backflips, and robotic dogs.
Vine-inspired robotic gripper gently lifts heavy and fragile objects The new design could be adapted to assist the elderly, sort warehouse products, or unload heavy cargo.
A 3D-printed robotic arm holds a pencil as it trains using random movements and a single camera — part of a new control system called Neural Jacobian Fields (NJF). Rather than relying on sensors or hand-coded models, NJF allows robots to learn how their bodies move in response to motor commands purely from visual observation, offering a pathway to more flexible, affordable, and self-aware ...
MIT engineers developed artificial tendons that could connect robotic skeletons and biological muscle tissue. Made from tough and flexible hydrogel, the tendons could be used in various bio-hybrid robots.
MIT roboticists developed a way to cut through data noise and help robots focus on the features in a scene that are most relevant for assisting humans. The system could be used in smart manufacturing and warehouse settings where robots would work alongside and assist humans.
Pick-and-place machines are a type of automated equipment used to place objects into structured, organized locations. These machines are used for a variety of applications — from electronics assembly to packaging, bin picking, and even inspection — but many current pick-and-place solutions are limited. Current solutions lack “precise generalization,” or the ability to solve many tasks ...
New insect-scale microrobots can fly more than 100 times longer than previous versions. The new bots, also significantly faster and more agile, could someday be used to pollinate fruits and vegetables.
MIT-developed soft-rigid robotic fingers incorporate powerful sensors along their entire length, enabling them to produce a robotic hand that could accurately identify objects after only one grasp.
