The self-replicating robot was developed by a team from Massachusetts Institute of Technology (MIT), who claim the robot could practically and economically assemble anything from a vehicle to a ...

In a paper published March 15, a group of researchers at MIT showed that using resilient muscle-like actuators and self-repairing technology can vastly improve the robustness of robotic bees.

This new 20-pound robot from MIT, meanwhile, is able to bend and swing in the air thanks to power it draws from a dozen electric motors — three motors each for the four individual legs.

MIT engineers have designed a walking lunar robot cleverly inspired by the animal kingdom. The “mix-and-match” system is made of worm-like robotic limbs astronauts could configure into various ...

Its name an acronym for "Walking Oligomeric Robotic Mobility System," WORMS was developed by a team of MIT engineers led by PhD candidate and graduate instructor George Lordos. He suggested the ...

Research shows that people anthropomorphize robots (that is to say they attribute human forms or personality to them). Kate Darling of MIT, a rising ... as participants’ self-assessment of ...

Scientists at MIT managed to teach a robot to run using machine learning. Normally robots are taught how to move across difficult terrain by preprogramming it into their code. This time ...

We’ve seen many creative 3D designs here on Hackaday and [jegatheesan.soundarapandian’s] Baby MIT Cheetah Robot is no exception. You’ve undoubtedly seen MIT’s cheetah robot. Well, ...

Researchers at MIT's Synthetic Biology Center have just succeeded writing multiple analog streams of real-time environmental data into the genetically transformed hardware of a distributed ...

But having a handful of robots, each with its hyper-specific uses, isn't always practical. To MIT, flexibility is vital. Enter WORMS, short for the Walking Oligomeric Robotic Mobility System.