What if you create a robotic arm and don't know where to use it? The answer is simple - build another one and use both for a ...

Abstract: To endow robotic arms with enhanced autonomous obstacle avoidance and path planning capabilities in complex dynamic environments, deep reinforcement learning (DRL) methods have been widely ...

A laboratory in Pittsburgh’s Bakery Square is poised to make the next breakthrough in wheelchairs, a mostly stagnant industry ...

Thanks to a $41.5 million award from the federal Advanced Research Projects Agency for Health, HERL will be leading a project ...

Imagine a rubber band that turns into a steel cable on command. Now imagine it’s inside a robot. That’s the basic trick of a ...

That’s why engineers at The University of Texas at Arlington have developed a soft robotic exoskeleton that lightens the load ...

Humanoid robot training is booming around the world. Tech companies are rushing to build the robots for a market projected to ...

X’s Neo wants to be your housekeeper. First, it needs to be controlled by a human in your home. Cool with you?

Learn how lessons from medical robot design can be applied to all robotics from cobots to humanoids and autonomous mobile ...

Amplify is a long-running experiment to build a type of exoskeleton that helps people run and walk with reduced effort.

Designed with Amazon’s front-line employees in mind, these innovations reduce repetitive tasks, improve safety, and boost productivity—while speeding up delivery.

Abstract: Technology today has escalated to a level that artificially intelligent robots are now programmed and implemented to replace human activities. The advent of these robots is made to serve as ...