Rachael has a degree in Zoology from the University of Southampton, and specializes in animal behavior, evolution, palaeontology, and the environment.View full profile Rachael has a degree in Zoology from the University of Southampton, and specializes in ...

Most robot headlines follow a familiar script: a machine masters one narrow trick in a controlled lab, then comes the bold promise that everything is about to change. I usually tune those stories out. We have heard about robots taking over since science ...

Purdue University Colleges of Science, Engineering, and Agriculture together with the Purdue Office of Industry Partnerships and Purdue Polytechnic Institute proudly present Robotics Day, a campus-wide celebration of innovation, collaboration, and ...

Visitors can interact with newly unveiled robots that will be deployed across the centre's galleries. Read more at straitstimes.com. Read more at straitstimes.com.

While real dogs still have a major leg up over robots, the machines are catching up. Popular Science previously highlighted a company called Glide that sells a vacuum cleaner shaped mobility aid that uses AI and passive kinetic guidance to help people with impaired vision navigate.

A groundbreaking development has come from researchers at the University of Tokyo and Waseda University in Japan. They've created a biohybrid hand, a fusion of lab-grown muscle tissue and mechanical engineering, capable of gripping and making gestures.

QUT robotics researchers have developed a new robot navigation system that mimics neural processes of the human brain and uses less than 10 per cent of the energy required by traditional systems. In a study published in the journal Science Robotics, the ...

Robots that can think and move are no longer confined to factory floors or humanoid prototypes. Researchers have now shrunk fully programmable machines to a size smaller than a grain of sand, packing sensing, computation, and locomotion into specks you ...

In crowded environments, more robots don’t always mean faster results—in fact, too many can bring everything to a standstill. Harvard researchers discovered a surprising fix: adding a bit of randomness to how robots move can actually prevent gridlock and boost efficiency.