The symmetrical design and flexible fingers mean that the robot can transport objects on either side of its body. For humans, ...

The robot can bend, grasp and carry in ways humans can’t, which could help it navigate spaces too confined for human arms.

What if the future of industrial automation could fit in the palm of your hand? Imagine a robot arm so compact it could rest on your desk, yet so precise it operates with sub-micrometer accuracy, a ...

Tired of watching cool robotics projects online and feeling like they’re out of your reach? You’re not alone. Many enthusiasts face the challenge of turning their tech dreams into reality. But what if ...

Harvard researchers created an algorithm that allows a wearable robot to adapt to and assist the arm movements of stroke and Lou Gehrig’s disease patients in real-time. The researchers’ machine ...

Scientists have invested an inflatable apple-picking robot that uses similar technology as the inflatable "tube guy" ...

The use of Cartesian and six-axis robots, as well as selective-compliance-articulated robot arms (SCARAs) is on the rise. They automate tasks to accelerate cycle times, increase throughput, and ...

MIT complains that designing a robot hand is time-consuming and takes a lot of iterations. They want to improve that using a unique approach by giving a modular hand tactile sensors. They claim this ...

The right motor and a modular unit can deliver high torque performance, accuracy and repeatability, plus easy implementation into articulating arms. If you’re planning to build a collaborative robot ...