Deformable object manipulation in robotics is an increasingly critical research area, addressing the challenge of handling materials that do not maintain a fixed shape under manipulation. Unlike rigid ...

AGIBOT, the company ranked No. 1 globally in humanoid robot shipments, unveiled its full robot portfolio, signaling its strategic expansion into the German and European markets. The launch highlighted ...

Fig. 1(a) illustrates a typical robotic manipulation system. It features a robotic arm equipped with sensors like cameras and end-effectors such as grippers, enabling it to manipulate a wide range of ...

Representations of the configuration and spatial motion of rigid bodies and robots based on modern screw theory. Forward, inverse, and differential kinematics. Robot dynamics, trajectory planning, and ...

After a decade in manufacturing, Sze Yuan Cheong co-founded Devol Robots to close the gap between robotic theory and ...

Robots are becoming increasingly capable in vision and movement, yet touch remains one of their major weaknesses. Now, researchers have developed a miniature tactile sensor that could give robots ...

The capability to observe and manipulate matter at the nanoscale has advanced significantly since Richard Feynman first envisioned atomically precise manufacturing. Nano-manipulation technologies now ...

Tesollo said its DG-5F-S robotic hand supports precise grasping and manipulation motions required for humanoid robots.

What makes a humanoid hand so fascinating? Imagine a robotic gripper delicately assembling intricate components on a factory floor or carefully holding fragile medical instruments during surgery.

The space industry is entering a new era—one where satellites and orbital infrastructure won’t simply be launched, used, and abandoned.