A lamprey’s mouth has inspired a new suction device that can grip in air and underwater. The design aims to solve a ...

Add Yahoo as a preferred source to see more of our stories on Google. Researchers from Saarland University in Germany have developed a new robotic gripping system that slashes energy consumption by 90 ...

Using a novel design inspired by the Japanese art of paper cutting, researchers have developed gentle yet strong robotic grippers that can fold clothes, grasp a drop of water and ultrathin microfibers ...

A tactile sensing robotic hand inspired by fish fin mechanics enables precise control of grip force, helping robots manipulate fragile objects without visual ...

Using an advanced imitation learning algorithm and camera perceptions, researchers with the Arkansas Agricultural Experiment ...

The flexible "fingers" at the tip of an elephant's trunk have provided the inspiration for a versatile robotic gripper capable of picking up and holding onto a variety of objects both large and small ...

A team of roboticists at the University of California San Diego and BASF Corporation has developed a unique 3D-printed soft robotic gripper that operates without the need for electronics. So, how does ...

Cornell engineers have developed a revolutionary new robot gripper that can teach itself to pick up all sorts of oddly shaped objects, an ability most autonomous robots lack. The universal jamming ...

Designed for use by food processors and consumer packaged goods manufacturers, the mGripAI robot gripper from Soft Robotics combines 3D perception, soft grasping, and artificial intelligence (AI) for ...

An often-overlooked robot component that plays a critical role in shaping the efficiency and sustainability of these mechanical marvels is the end of arm gripper. Traditionally crafted from heavy ...

Conventional robotic grippers struggle to adapt to complex shapes and sizes, such as those found in crops. This has created a demand for more adaptable robotic grippers that can be utilized in ...